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3D printer slicing software is a program that converts 3D models into instructions that a 3D printer can understand. This software is essential for 3D printing, as it allows you to control the print settings, such as the layer height, infill density, and print speed. It also allows you to add support structures to your models, which can help to prevent them from failing during printing.

There are many different 3D printer slicing software programs available, both free and commercial. Some of the most popular programs include Cura, Slic3r, and Simplify3D. Each program has its own strengths and weaknesses, so it is important to choose one that is right for you and your printer.

In this article, we will compare two of the most popular 3D printer slicing software programs: Cura and PrusaSlicer. We will discuss the features of each program, as well as their pros and cons. We will also provide some tips on how to choose the right program for your needs.

Slicers are an essential part of the 3D printing process. Without a slicer, it would be impossible to print 3D models. Slicers allow you to control the print settings, such as the layer height, infill density, and print speed. They also allow you to add support structures to your models, which can help to prevent them from failing during printing.

There are many different 3D printer slicers available, both free and commercial. Some of the most popular slicers include Cura, Slic3r, and Simplify3D. Each slicer has its own strengths and weaknesses, so it is important to choose one that is right for you and your printer.

cura slicer vs prusaslicer

Cura is a free and open-source slicer developed by Ultimaker. It’s one of the most popular slicers available, and for good reason. Cura is easy to use, even for beginners, and it offers a wide range of features and settings.

One of the things that makes Cura so popular is its user interface. The interface is clean and well-organized, and it’s easy to find the settings you need. Cura also has a number of helpful tutorials and guides available, so you can learn how to use it even if you’re new to 3D printing.

In terms of features, Cura offers a lot to choose from. You can adjust the print settings for everything from the layer height to the infill density. Cura also supports a variety of different 3D printer types, so you can be sure that it will work with your printer.

PrusaSlicer is another free and open-source slicer, developed by Prusa Research. Like Cura, PrusaSlicer is easy to use and offers a wide range of features.

One of the things that set PrusaSlicer apart is its support for Prusa printers. If you own a Prusa printer, PrusaSlicer is the perfect slicer for you. It offers a number of features that are specifically designed for Prusa printers, such as support for the PrusaMMU2S multi-material upgrade.

PrusaSlicer also offers a number of features that are not available in Cura. For example, PrusaSlicer has a built-in mesh repair tool that can fix common problems with 3D models. PrusaSlicer also has a built-in post-processing script editor, so you can customize the way your prints look after they’re finished.

So, which slicer is better? Cura or PrusaSlicer?

The truth is, both Cura and PrusaSlicer are excellent slicers. They both offer a wide range of features, and they’re both easy to use. Ultimately, the best slicer for you will depend on your individual needs and preferences.

If you’re new to 3D printing, I recommend starting with Cura. It’s easy to use and offers a wide range of features. Once you’ve gotten the hang of 3D printing, you can try out PrusaSlicer to see if you prefer its features.

Is PrusaSlicer better than Cura?

Both Cura and PrusaSlicer are excellent slicers, and the best one for you will depend on your individual needs and preferences. Cura is generally considered to be easier to use, while PrusaSlicer offers more features and customization options.

Here are some of the pros and cons of each slicer:

Cura

Pros:

• Easy to use
• Wide range of features
• Compatible with a variety of 3D printers
• Free and open-source

Cons:

• Less customization options than PrusaSlicer
• Some features may not be available for all 3D printers

PrusaSlicer

Pros:

• More customization options than Cura
• Supports a wider range of materials
• Includes a built-in mesh repair tool
• Developed by the Prusa Research team, who are experts in 3D printing

Cons:

• More difficult to use than Cura
• Some features may not be available for all 3D printers

Ultimately, the best slicer for you will depend on your individual needs and preferences. If you’re new to 3D printing, I recommend starting with Cura. It’s easy to use and offers a wide range of features. Once you’ve gotten the hang of 3D printing, you can try out PrusaSlicer to see if you prefer its features.

What software is better than Cura?

There are a number of different 3D slicers available, each with its own strengths and weaknesses. Some of the most popular alternatives to Cura include Slic3r, Simplify3D, and Repetier-Host.

It depends on what you’re looking for in a slicer. Cura is a great all-around slicer, but it’s not the only option out there. Here are a few other slicers that you might want to consider:

• PrusaSlicer is another popular slicer that offers a lot of features and customization options. It’s developed by the Prusa Research team, who are experts in 3D printing.
• Slic3r is a free and open-source slicer that’s been around for a long time. It’s a good option if you’re looking for a basic slicer without a lot of bells and whistles.
• Simplify3D is a commercial slicer that offers a lot of features and customization options. It’s a good option if you’re looking for a powerful slicer that can handle complex prints.
• Repetier-Host is a slicer and host software that gives you full control over your 3D printer. It’s a good option if you’re looking for a powerful and versatile solution.

Ultimately, the best slicer for you will depend on your individual needs and preferences. I recommend trying out a few different slicers to see which one you like best.

Can you use Cura slicer on a Prusa?

Yes, you can use Cura slicer on a Prusa. In fact, Cura is one of the most popular slicers used with Prusa printers. Cura offers a wide range of features and settings that can be used to optimize your prints for your Prusa printer.

Cura is a free and open-source slicer developed by Ultimaker. It’s one of the most popular slicers available, and for good reason. Cura is easy to use, even for beginners, and it offers a wide range of features and settings.

One of the things that makes Cura so popular is its user interface. The interface is clean and well-organized, and it’s easy to find the settings you need. Cura also has a number of helpful tutorials and guides available, so you can learn how to use it even if you’re new to 3D printing.

In terms of features, Cura offers a lot to choose from. You can adjust the print settings for everything from the layer height to the infill density. Cura also supports a variety of different 3D printer types, so you can be sure that it will work with your printer.

If you have a Prusa printer, you can download the Cura profile for your printer from the Prusa website. The profile will include settings that are optimized for your printer, so you can get the best possible prints.

Cura is a great slicer for Prusa printers. It’s easy to use, offers a wide range of features, and is supported by a large community of users. If you’re looking for a slicer for your Prusa printer, Cura is a great option.

What are the advantages of PrusaSlicer?

PrusaSlicer is a great slicer for Prusa printers. Here are some of its advantages:

• It is developed by the Prusa Research team, who are experts in 3D printing. This means that the slicer is constantly being updated with new features and improvements.
• PrusaSlicer offers a wide range of features and customization options. This means that you can fine-tune your prints to get the best possible results.
• PrusaSlicer is easy to use, even for beginners. The interface is clean and well-organized, and it’s easy to find the settings you need.
• PrusaSlicer is free and open-source. This means that you can use it without any restrictions, and you can also contribute to its development.
• PrusaSlicer is supported by a large community of users. This means that there are plenty of resources available if you need help using the slicer.

Overall, PrusaSlicer is a great choice for anyone who owns a Prusa printer. It is a powerful and versatile slicer that offers a wide range of features and customization options. It is also easy to use and supported by a large community of users.

What is the difference between Cura and PrusaSlicer?

Cura and PrusaSlicer are both popular slicers for 3D printing. They have a lot in common, but there are also some key differences between the two.

Cura is developed by Ultimaker, while PrusaSlicer is developed by Prusa Research. Cura is a free and open-source slicer, while PrusaSlicer is free to use but not open-source.

Cura is generally considered to be easier to use than PrusaSlicer. The interface is more user-friendly and the settings are easier to understand. PrusaSlicer is more powerful than Cura, with more features and customization options.

Cura is compatible with a wider range of 3D printers than PrusaSlicer. PrusaSlicer is designed specifically for Prusa printers, but it can also be used with other printers.

Cura is more actively developed than PrusaSlicer. Cura gets regular updates with new features and bug fixes. PrusaSlicer is updated less frequently, but the updates are usually more substantial.

Ultimately, the best slicer for you will depend on your individual needs and preferences. If you’re looking for an easy-to-use slicer with a wide range of compatibility, Cura is a good choice. If you’re looking for a powerful slicer with a lot of features, PrusaSlicer is a good choice.

Which slicer should I use?

If you’re new to 3D printing, I recommend starting with Cura. It’s easy to use and offers a wide range of features. Once you’ve gotten the hang of 3D printing, you can try out PrusaSlicer to see if you prefer its features.

Conclusion

Cura and PrusaSlicer are both excellent slicers, and the best one for you will depend on your individual needs and preferences. If you’re new to 3D

Introduction

3D printing technology has revolutionized the manufacturing industry by offering a more cost-effective and efficient method of producing parts and prototypes.

3D printing is a process of creating three-dimensional objects from a digital file. The process works by adding material layer by layer until the object is complete. 3D printing can be used to create a wide variety of objects, including toys, tools, medical devices, and even food.

However, calculating the cost of a 3D print can be a complex and challenging task due to various factors such as material, design, and printing time.

The cost of a 3D print is determined by a number of factors, including:

• The type of material used: The cost of 3D printing materials can vary widely, from a few dollars per kilogram to hundreds of dollars per kilogram. The most common 3D printing materials are plastics, metals, and resins.
• The design of the object: The more complex the design, the more time it will take to print and the more material will be used.
• The printing time: The printing time is determined by the size and complexity of the object.
• The cost of the 3D printer: The cost of a 3D printer can range from a few hundred dollars to several thousand dollars.
• The cost of labor: If you are having someone else print your object, you will need to factor in the cost of labor.

This article aims to provide comprehensive information on how to calculate the cost of 3D printing, including the cost per hour, per gram, and per cubic inch, as well as the cost of various 3D printing materials and methods.

In this article, I will discuss the following topics:

• How to calculate the cost of 3D printing
• The cost of various 3D printing materials
• The cost of 3D printing services
• The average price of 3D printing
• Whether 3D printing is a cheap hobby or a profitable business

By using a 3D print cost calculator or 3D printing cost estimator, you can accurately estimate the cost of your next 3D printing project.

There are a number of 3D print cost calculators available online. These calculators can help you estimate the cost of your 3D print based on the type of material, the design of the object, and the printing time.

Calculating 3D Printing Cost

The cost of 3D printing is determined by several factors, including the material, design, and printing time. To accurately calculate the cost of your 3D print, you can use a 3D print cost calculator or 3D printing cost estimator. These tools take into account various factors such as the cost of the 3D printing material, the amount of material used, the printing time, and the cost of electricity.

3D Print Cost per Hour

One of the most common ways to calculate the cost of 3D printing is to determine the cost per hour of printing. This is calculated by dividing the total cost of the 3D print by the total printing time. For technologies with lower speeds, such as FDM, 3D printing pricing based on time is commonly used.

The cost per hour of a 3D printing job will vary depending on several factors, including the type of printer you’re using, the material you’re printing with, and the size and complexity of the model you’re printing. To get an accurate estimate of the cost per hour of a 3D printing job, it’s essential to use a 3D printing cost calculator that takes into account all of these factors.

Some common 3D printing cost calculators include:

• Formlabs
• Prusa cost calculator
• Cura
• Simplify3d

Using these calculators, you can input the parameters of your 3D printing job, including the material you’re using, the size of your model, and the printing speed, and receive an estimate of the total cost, including the cost per hour.

It’s important to note that the cost per hour of a 3D printing job can also be influenced by factors such as the cost of electricity, which can vary greatly depending on where you live and your local energy costs.

In conclusion, calculating the cost per hour of a 3D printing job is a crucial step in determining the total cost of a 3D print. By using a 3D printing cost calculator, you can ensure that you’re getting an accurate estimate of the cost, taking into account all the relevant factors.

3D Print Cost per Gram

Another way to calculate the cost of 3D printing is to determine the cost per gram of the 3D printing material. This is calculated by dividing the total cost of the 3D print by the total weight of the material used. The cost per gram of 3D printing material will vary depending on the type of material you use, the brand, and the vendor you purchase it from.

The pricing of 3D printing services using weight as a factor is a common method in the industry, particularly for resin-based 3D printing technologies. This method takes into consideration the amount of resin material used during the printing process and is seen as a reliable and accurate way to calculate the cost of the final print. The resin material is a key factor in determining the cost, as it is the primary resource used in the printing process, and its cost per gram can vary depending on the type and quality of the resin. Additionally, the weight of the final 3D print is used to estimate the amount of resin material that was used, and this estimate is then used to calculate the cost of the print. This approach is preferred over others as it takes into account the material used in the printing process and helps to ensure that the customer is only paying for what they receive.

One of the most significant factors in determining the cost per gram is the type of material used. Popular materials like ABS and PLA can cost anywhere from $0.05 to $0.15 per gram, while specialty materials like metal and resin can cost upwards of $10 per gram.

The size of the print also plays a role in the cost per gram. Larger prints use more material, so the cost per gram can be lower for larger prints. Printing time also affects the cost, as longer print times use more material and therefore increase the cost per gram.

To determine the cost per gram of a specific print, it’s important to use a 3D printing cost calculator. Many calculators allow you to input the type of material, the size of the print, and the printing time to estimate the cost of the print. Some popular calculators include Prusa’s price calculator, the filament cost calculator, and the 3D printing service cost calculator.

Overall, the cost per gram of 3D printing varies widely and depends on several factors. By using a cost calculator and considering the type of material, the size of the print, and the printing time, you can get a more accurate estimate of the cost of your print.

3D Print Cost per Cubic Inch/Cubic cm

Another way to calculate the cost of 3D printing is to determine the cost per cubic inch or cubic cm of the 3D printed object. This is calculated by dividing the total cost of the 3D print by the volume of the object. The cost per cubic inch or cubic cm will vary depending on the size and complexity of the object, as well as the material used.

It’s important to keep in mind that the cost of 3D printing can also be influenced by additional factors such as shipping, taxes, and any required post-processing, such as sanding or painting. To get the most accurate estimate of your 3D printing costs, it’s best to use a 3D print cost calculator or 3D printing cost estimator. Some popular options include the Prusa Cost Calculator, the Filament Cost Calculator, and the PLA Price Per Gram Calculator.

3D Print Cost Per Cubic Inch/Cubic cm of bounding box volume

A bounding box in 3D printing is a rectangular box that surrounds an object or model and defines the minimum space required to contain it. The size of the bounding box can be used to calculate the volume of material required to print an object and is often used to determine the cost of 3D printing. The bounding box dimensions are typically specified in terms of length, width, and height, and can be used to calculate the cost of printing by multiplying the volume of the box by the cost per cubic inch or cubic cm. This method of cost calculation is commonly used in powder bed 3D printing technology, where the material cost is the main factor affecting the total cost of the print.

Average Price of 3D Printing

Determining the average price of 3D printing can be challenging as there are several factors that can impact the cost, such as the type of material used, the size and complexity of the object, and the printing method. However, there are a few general rules of thumb to consider when estimating the cost of a 3D print.

• For example, Fused Deposition Modeling (FDM) prints made with thermoplastics like PLA typically cost around $0.10 to $0.50 per gram.
• Stereolithography (SLA) and Digital Light Processing (DLP) prints made with resin can range from $0.70 to $3 per gram.
• Metal 3D printing cost anywhere from $10 to $100 per cubic centimeter, depending on the metal and printing method used.

It’s important to note that these are rough estimates and your actual 3D printing costs may vary. To get a more accurate idea of how much your print will cost, you can use a 3D printing cost calculator. These online tools allow you to input specific parameters such as the material, printing time, and object size, and they will provide you with a more detailed estimate of the cost.

3D print cost calculator excel

The use of a 3D print price calculator in excel can greatly help with the cost estimation of 3D printing projects. It is a simple spreadsheet tool that allows users to input various parameters such as the size of the print, material type, and printing time to determine the cost. This tool can be especially useful for those in the manufacturing or design industry as it helps to accurately estimate the cost of a project before committing to it. With a 3D print price calculator in excel, users can easily compare the costs of different materials and printing methods to determine which option is the most cost-effective. Furthermore, this tool can be customized to fit the specific needs of a user, such as incorporating the cost of labor, equipment, and other expenses. Having a 3D print price calculator in excel can help to streamline the process of cost estimation and ultimately lead to more informed and cost-effective 3D printing decisions.

In this video, Austen Hartley discusses how to calculate 3D print prices using Excel.

 

You can also download Austin’s 3D print calculator excel file.

 

Is 3D Printing Business Profitable?

The profitability of a 3D printing business depends on a number of factors, including:

• The cost of the materials: The type and quality of materials used will affect the cost of the final product.
• The cost of the 3D printer: The price of 3D printers can vary widely, from a few hundred dollars to several thousand dollars.
• The cost of electricity: The amount of electricity used to power the 3D printer will also affect the cost of production.
• The cost of labor: If you are hiring someone to operate the 3D printer, this will also add to the cost of production.
• The selling price of the final product: The final product must be priced high enough to cover the cost of production and make a profit.

While entry-level desktop 3D printers can be relatively affordable, the cost of filament and other supplies can add up over time.

The cost of filament, the material used to create 3D prints, can vary depending on the type and quality of filament. For example, PLA filament is typically less expensive than ABS filament. Other supplies that may be needed for 3D printing include print beds, glue, and lubricants.

Additionally, high-end 3D printers and materials can be quite expensive.

High-end 3D printers can cost several thousand dollars, and the materials used in these printers can also be expensive. For example, metal 3D printing can be very expensive, as the materials used are typically very expensive.

As a result, 3D printing can be either a cheap or an expensive hobby depending on your budget and the level of investment you are willing to make.

If you are just starting out with 3D printing, it is a good idea to start with an entry-level desktop printer. This will allow you to learn the basics of 3D printing without having to invest a lot of money. Once you have gained some experience, you can decide if you want to upgrade to a more expensive printer.

However, compared to other hobbies such as woodworking or metalworking, 3D printing is relatively accessible and can provide a lot of value for your money if you’re interested in design, prototyping, or product development.

3D printing is a great way to create custom objects, prototypes, and even functional parts. It is also a relatively safe hobby, as there is no risk of injury from sharp tools or hazardous materials.

There are several ways to increase profitability in 3D printing, such as:

• Reducing material waste: One way to reduce the cost of 3D printing is to reduce material waste. This can be done by using efficient slicing software and by printing parts that are designed to minimize waste.
• Using cost-effective materials: Another way to increase profitability is to use cost-effective materials. There are a variety of materials available for 3D printing, and the cost of these materials can vary widely.
• Streamlining production processes: By streamlining production processes, you can reduce the time and cost of producing 3D prints. This can be done by automating tasks, such as slicing and printing, and by optimizing your workflow.
• Offering a unique and high-demand product: One of the best ways to increase profitability is to offer a unique and high-demand product. This will allow you to charge a premium for your products.

Ultimately, 3D printing can be a profitable business, but it requires careful consideration of costs and the market demand for the products being produced.

A 3D print cost calculator or 3D printing cost estimator can help determine the potential profitability of a particular project. It is also important to conduct market research to determine if there is a demand for the products you plan to offer.

3D printing can be a profitable business venture for those who are skilled in design, engineering, and marketing.

If you have the skills and knowledge to design and create high-quality 3D prints, and you are able to market your products effectively, then you can be successful in the 3D printing business.

Charging for a 3D Design

When it comes to charging for 3D designs, there is no set rule or formula. The price you charge for your 3D design depends on a number of factors, including:

• The complexity of the design: The more complex the design, the more time and effort you will need to put into creating it, which will increase the overall cost. For example, a simple 3D model of a coffee mug might cost $50 to create, while a complex 3D model of a human heart might cost $500 or more.
• The materials used: The cost of the materials used in 3D printing also affects the overall cost. Consider the cost of the filament or resin, as well as any additional materials such as support structures or other parts that may be needed. For example, a 3D model printed with ABS filament might cost $10 to print, while a 3D model printed with metal might cost $100 or more.
• The time and effort: The amount of time and effort you put into a 3D design also affects the overall cost. Consider factors such as the amount of research and development time, the number of iterations you went through to get the design right, and the time spent on post-processing and finishing. For example, a 3D model that took you 10 hours to create might cost $50 to print, while a 3D model that took you 50 hours to create might cost $250 to print.
• Your level of experience and expertise: Your level of experience and expertise in 3D design can also affect the price you charge. If you are a new 3D designer, you may need to charge less than a more experienced designer. However, if you have a lot of experience and expertise, you can charge more for your services.
• The value of your designs: The value of your designs to your clients is also a factor to consider when pricing your services. If your designs are highly valuable to your clients, you can charge more for them. However, if your designs are not as valuable, you may need to charge less.

When pricing your 3D designs, it is important to be realistic and take into account all of these factors. You should also consider the level of competition in your field and the demand for your services. A good starting point is to research what others in your field are charging and adjust your pricing accordingly.

Here are some additional tips for pricing your 3D designs:

• Be clear about your terms and conditions. This includes the number of revisions you will provide, the turnaround time, and the payment terms.
• Offer discounts for bulk orders or repeat customers.
• Provide value-added services, such as 3D printing or post-processing, to increase your profits.
• Be flexible and willing to negotiate.

By following these tips, you can price your 3D designs competitively and make a profit from your work.

Conclusion

3D printing is a rapidly growing industry that has numerous applications and benefits. From prototyping to mass production, 3D printing has made the creation of physical objects more accessible and cost-effective. The cost of 3D printing varies depending on the size, complexity, material, and other factors. However, it’s possible to estimate the cost of a 3D print using a 3D print cost calculator or a 3D printing cost estimator.

It’s also important to consider the cost of 3D printing per hour and per gram, which can greatly affect the overall cost of a print. On average, the cost of 3D printing is around $0.10 to $0.50 per cubic centimeter, with the most affordable method being FDM (Fused Deposition Modeling).

For those who offer 3D printing services or create 3D designs, it’s important to consider factors such as the cost of materials, machine maintenance, and hourly rate to determine the right price for your work. Ultimately, 3D printing can be a profitable venture if you have the right skills, equipment, and pricing strategy.

In conclusion, 3D printing is an exciting and constantly evolving technology that has the potential to transform the way we create and produce physical objects. Whether you’re a hobbyist, manufacturer, or designer, there are numerous resources available to help you calculate the cost of 3D printing and make informed decisions about your next project.

Branding in 3D printing is as important as it sounds. In this blog post, I tried to explain different definitions and steps that could help you in branding your 3D printing service.

Also in the post How to market for 3D printing business? we talked about how to attract new customers for your 3D printing service business that we suggest you read.

What is a brand?

A brand is a combination of activities, the service you provide or produce that distinguishes you from the rest of businesses and attracts a specific target market. It includes your website design, logo, even the color of your brand, how you interact with customers, and your mission.

Why Invest in brand identity

The brand identity is what differentiates you from other companies. Your brand identity makes your brand recognizable and unique. It also makes it easier for your customers to buy your service or product as they know what makes your brand different from the others and what features and benefits it has. Defining a value for your brand and what it stands for are important advantages leading to more awareness, customer loyalty and results in more sales.

Branding Essentials

Use every opportunity to stay in your customers’ minds.

Spread your brand ideas over and over.

Understand the customer’s values and needs.

Identify the touchpoints (situations where a customer needs 3D printing service in his/her business.)

To do all these in a regulated manner, you need to educate yourself or your marketing team in different branding areas; we try to convey the most important parts of the process for a 3D Printing company in this article.

Major steps for creating your brand

Specify your target market

The first step for branding is to specify your target market: Who are you planning to provide service for? Automobile industry or medical equipment providers?

Afterward, get into more details and specify which parts of this business you aim to provide service for; e.g. if you are trying to provide service for the medical equipment industry you have to specify what is your field of expertise, is it orthopedics or dentistry, dental implant or orthopedic?

Next, determine what kind of companies are predicted to be your major target market, is it the small to medium size medical equipment companies or you are aiming for large companies?

One of the strong technics in this process is creating a persona(s) for your customer.

What is a persona?

A persona is a profile of your typical customer. This persona helps your customer managers know your possible customers’ characteristics, needs, behavior, and goals of a specific type of user and client. Since 3D printing is usually a B2B kind of business, you can create different personas of the businesses you aim to provide service for.

Pick up a proper name

Choosing a name for a brand might not seem very important at first sight, but it is one of the important elements that can make your brand stick into the minds of your audience and also depict your brand’s mission.

There are different ways you can choose a name for a 3D printing business. One new way is using AI-Powered tools that suggest names based on your preferences. One of these tools is “namelix”, click on the link to start the process:

https://namelix.com/

Either using an automated tool like “namelix”, choosing it yourself, or a mix of the two, you have a few strategies in generating a brand name.

Strategies to choose a brand name

• Coining: Making up a new word like Coca-cola
• Use a metaphor, like Desktop Metal
• Describe it literally (caution: easy to imitate), like 3D Systems
• Create a new word by removing letters, adding letters, or using Latin endings, like Tumblr (Tumbler) or Activia.
• Create an acronym from a longer name, like HBO
• Combine two words, like Autodesk

Characteristics of a proper brand name

keep it short

A short name makes it easier for people to remember. Most successful brands have short names. This is the same with 3D printing with we are living in a branded world and it is harder than ever to keep a long name in mind.

Be original

Originality is one of the important factors in choosing a brand name. Search before finalizing your brand name and make sure it does not represent other brands or services.

Make sure it’s easy to spell

Spelling is another important factor for choosing a name. Avoid using names that can be written in different ways or are not written the way they are pronounced; these spelling complications will have negative effects on your website or socialƒvoxejl media views. For e.g. “materialise” which is a very well-known brand in the field of 3D printing service is mistakenly written as “materialize” by many clients.

Doesn’t restrict growth

Choose a name that does not restrict you so you have to change it later. A good example for this is 3dhubs which later had to omit “3D” from the beginning of its brand and now the brand name is simply “hubs”.

Easy to pronounce

Say the word loud to see if it is easy to pronounce.

Your chosen name should sound good on the phone or in verbal conversations. In addition, if you are planning to build an international brand, find out if you can pronounce the name you have chosen in other languages as well. Voxeljet is a very successful additive manufacturing service provider, but the pronunciation of the brand name might seem difficult for people other than Germany/North Europe.

Memorable

Choose a name that is memorable and easy to remember.

Related to the service you provide

Think about famous brands in 3D printing including materialise, proto labs ( leaving an impression for prototypes)., etc. They all leave an impression on 3D printing in their own way. It is better than the name you choose is related to the 3D printing service.

One of the things that help you pick up the right name for your brand is creating a list of the names you have in mind and giving scores for each item on a scale of 1 to 10. Then you can choose the ones which have the highest rate and decide more easily. Below is a sample list that follows this pattern for choosing a name.

Create your slogan

A slogan is a short descriptive statement that is catchy and leaves a strong impression. Slogans can communicate your values, your mission, and they can also be used in advertisement and marketing. There are different characteristics that a good slogan must have :

• Well-remembered and short: The slogan you use should be as short as possible and easy to remember. Avoid using complicated statements the more simple it is the more it will be remembered.
• Catchy: You probably know about the importance of an eye-catching slogan, take your time and choose a catchy one.
• Eccentric: The name you choose should be unique in terms of selling your product. It does not necessarily mean nobody has ever used it before it is more about paying attention to what makes you different from other 3D printing services. The speed or accuracy of the 3D printing service you offer can be mentioned in your slogan.
• Addressing your target market: You should always have your target audience in mind, write your slogan while taking the audience’s needs in mind. E.g, if you are working more with the airplane industry the accuracy of the prints is very important so you can mention it in your slogan.

Choose a color for your brand

Each and every color evokes different emotions. It also tells a lot about your brand’s personality.The brain reads the color after shape and before the content and it is instantly stimulated by that. In order to choose a suitable color, you should know color theory and what message or feeling each color has and and what “you” want to convey to your customers.

Color psychology

Researchers found out each color has different effects on people’s moods, feelings, and behaviors. Although your feelings are mostly personal and affected by your personal experience and culture, below are some of the connations that each color give to a large number of people and what they are colors are known for.

Black

Positive connotations: Elegance, attractiveness and sophistication.

Negative connotations: Aggression, fear, and despair.

Red

Positive connotations: Excitement and Energy, passion, desire, power

Negative connotations: Aggression, Danger, warning

White

Positive connotations: purity, innocence, simplicity, minimalism, freshness

Negative connotations: boring, cold, isolated

Blue

Positive connotations: Reliability, calmness, stability, security

Negative connotations: sadness, loneliness, gloominess

Green

Positive connotations: representing nature, motivating, calming

Negative connotations: jealousy, physical illness

There are many other colors you can use naturally; regarding the formal essence of additive manufacturing these colors are used more by fellow brands.However, it is always up to you, and sometimes a less common color sticks in the customer’s mind because of its uniqueness and vibrant entity.

Questions to ask yourself before choosing the color

• Does the color have positive connotations in the target markets?

Any color has a different connotation in different contexts and countries and cultures. It might seem impossible to literally have everyone and each country in mind, but paying attention to your major target audience’s needs can help you a lot in choosing the right one.

• Did you consider a formulated color?
• Is it in line with your strategies?
• Is it challenging to get the right color?
• Have you tested that on different monitors PCs and Mac?
• Have you developed both a web palette and a print palette?
• Can they be reproduced?

Design a logo

“The logo is the gateway to the brand.” Milton Glaser, Designer.

Your brand logo matters a lot, you can recruit a professional graphic designer or use different platforms which offer you AI-powered logo designs. Your brand logo tells a lot about your brand; designers try to process meaning into visual form and expression and impress the audience and also convey the brand’s message to the customers. Note that these messages should be explained so they could be understood.

Characteristics of suitable 3D printing brand logo

The right shape

Choosing the right shape is very important, certain emotions are evoked by certain shapes. A triangle lives a different impression from a rectangle; so choose the right shape based on the feeling you want to give to the possible customers. For 3D printing business note that many 3D printing brands such as 3D Systems and Voxeljet brought the 3D entity of their business into their logo designs by adding 3D cubes in their logos.

 

The right color

In the last section about colors, the basics of color theory and its effect on customers were discussed. Here, you have to take it into account when designing your logo. Light or navy blue-black and green are the dominant colors used in 3D printing brand logos.

The right typography

The way texts look affects the customers’ perception of your brand. Typography contains all the visual choices of the name including font, size, boldness the writing format, etc. Most 3D printing companies have medium-sized non-cursive typographies.

The right tone

It is important to set the tone of your brand before launching your logo. You can see how the logo brand for M&Ms is different from The Guardian newspaper. M&M uses a mascot while guardian’s design is minimal and formal. Regarding the fact that in 3D printing business you mostly offer a b2b service , the tone is usually formal and the logo designs are suggested to be minimal.

Take social media and online platforms seriously

Now that you created your brand and defined your mission, you should launch it on social media. Online platforms and social media have dramatically altered branding in recent years; the customers are now active participants in brand building with “sharing”, tagging, etc; this way, they remain active in the process. Moreover, the pandemic deprived many people and businesses to market their brand other methods like meeting and reaching their probable customers through exhibitions and seminars, so the role of social media has increased even more.You can use many platforms. Contacting and staying with your possible customers is an important step of your 3D printing branding pathway. There are platforms like LinkedIn, Pinterest, YouTube, Twitter, Instagram, meetup(meetup.com),etc. in which you can share your designs, products, and videos and there is also a platform which is exclusively designed for 3D printing businesses named treatstock (www.treatstock.com)

3D printing service Touchpoints

Brand touch is interactions that a customer has with a brand. Note that each touchpoint is a brand experience so enhancing touchpoints results in a better brand experience.

These touchpoints include Websites, blogs, news releases, FAQs, Call centers, Sales, youtube videos, presentations, announcements, emails advertising, and packaging which are all very important in a 3D printing service.

pre- and post-sale touchpoints

The pre-touch points are touchpoints before you make the sales and post-sales are touchpoints after you make the sales. Below is a table showing touchpoints in different parts of making sales.

Packaging

Packaging is one of the important touchpoints especially in a 3D printing service; probably most of your clients printed objects are packed and sent to them. These packages also mean that this is the brand that the customer trusted enough to bring to their address. The packaging shapes, box sizes, graphics, and colors comfort and persuade customers if they made the right decision.

Brand voice

Brand voice is the personality of your brand, the way you communicate with your customers, the language you use, etc. in order to create a memorable experience. Your brand voice makes you distinctive and different from your competitors. Invest in your brand voice and keep it consistent throughout your branding.

Now you know enough about 3D printing branding and the steps you have to take. Remember that 3D printing business is a growing market and you can expect a rising profit in the upcoming years. Good luck and enjoy the business!

 

What is a business model?

The most basic explanation for a business model is “the model your business has to make money”. It explains four things:

1. The product or service that a company sells
2. Marketing technics
3. Predicted expenses
4. How the business will make a profit

Following are several 3D Printing related business categories, for each of these segmentations several business models can be defined:

On-demand manufacturing

This way, you will only manufacture products that are demanded and you do not face the problem of extra and unnecessary production. In an on-demand manufacturing business model, the speed and ability to produce are so important. In this business model, customers are more satisfied as the actual product is exactly what they want.

Manufacturing as a service (MaaS)

In today’s digital world, new paradigms are needed to be applied in order not to fall behind in the market. This way, Services, and products are integrated into one product-service system. In 3d printing business, customers can upload their files get a price quotation, and then place an order, as the digitalization of the world and marketplace enables you to provide your customers with a service-oriented way of manufacturing. 3D printing is one of the major industries following this business model since 3D printing directly manufactures unique parts based on 3D models.

This way production becomes more efficient as all components are networked to create a more efficient final product.

Mass Customization

Mass customization is the process of delivering market goods and services that are modified to satisfy a specific customer’s needs.

Mass customization is delivering services and products based on each customers’ needs. A good example of this business model is dental implants. Dental implants should all be exclusively designed for each person.; using 3D printing these customizations would be completely done without any additional cost unlike traditional manufacturing and all complicated geometrical shapes and designs can be produced.

Direct to consumer business model

In the direct consumer business model or d2c, the businesses provide the customer with the service or their product instead of retail or wholesome sales.3D printing companies tend to stay in touch with their customers using different platforms which made it easier than ever before to reach their clients and customers and to provide them with the ordered product.

Mass variety

Mass variety is when the manufacturers create different varieties of a product. They offer a wide variety of options to their customers. This business model is used in the fashion industry and jewelry design. e.g. in jewelry design, there is a basic design and make hundreds of variations. The display version( in the website or the store )is hollow and made with gold and silver until customers demand the actual piece. This way they are assured that they don’t produce something that wouldn’t be sold.

Mass segmentation

This model limits variety, and it is proper to b2b businesses in which the customers’ needs are predictable. Each version serves a single segment and differs from the others enough that conventional manufacturers would need costly new machine tools to make all of them, so additive manufacturing can produce them at a lower cost.

Mass modularization

In this business model, the body of the product is printed, and the other segments are interchangeable. This business model is mainly applicable to electronic devices.

The major issue with this model is to find which body and modules to place.

Mass complexity

Additive manufacturing makes it possible to produce a variety of product versions at a low cost. In this business model, various complex prototypes are produced until they reach the intended product.

Mass standardization

Mass standardization is used for small-scale production which does not make sense in traditional manufacturing. For example, Conventional manufacturing processes for OLED screens waste a lot of expensive light-emitting electrochemical materials but using additive manufacturing, the materials are handled more precisely so the final cost is a lot lower.

Startups in 3D Printing

There are many active startups in the field of 3D printing. Below are some of the most well-known ones in this field:

Layers

Layers is a platform designed to help you manage your 3D printing business. You can easily create your online shop and access it with your sub-domain or your own domain name. Using this shop, your customers can upload their 3D models, get price quotations, and place orders.

 

Shapeways

Shapeways is a dutch company and start-up which tries to make world-class 3D printing more accessible to everyone through automation, innovation, and digitization.

 

Hubs(3D hubs)

3D hubs is also a dutch platform that is now owned by protolabs. Hubs is an online manufacturing platform that offers businesses on-demand access to a global network of manufacturing partners. It provides other services such as CNC machining and injection molding well as 3D printing.

 

Xometry

Xometry is an American platform that provides an on-demand industrial parts marketplace.

 

Shopify for 3D printing

Shopify is a platform that enables people to start their online shop. Using Shopify they can create a 3d printing shop and offer online payment to their clients. However, Shopify is not designed exclusively for 3D printing so customers can not get an idea of the printability of their objects or check its illustration, define different factors that affect the final price, etc. However, it provides customers with a minimum service in which they can offer a 3D printing service.

3d printing quotation software

A website is one of the most important prerequisites for starting a 3D printing business.
Setting up a 3D printing website that allows users to upload 3D files and price them online, requires skills such as coding and designing a professional interface.
Layers is a platform designed to help you manage your 3D printing business. You can easily create your online shop and access it with your sub-domain or your own domain name. Using this shop, your customers can upload their 3D models, get price quotations, and place orders.

What is a 3D Printing Business Model Canvas?

A business model canvas is a template showing the business model using a visual chart. A business model enables people to understand the business model in a structured way. It gives information about who your customers are, what service you provide, and how your business makes money.

3D printing value propositions

The quality of production might be a 3D printing value proposition. Consider your team and company. Customers who use 3D printing services do not have 3D models, so companies that offer design services can offer more value to their customers.

Below is the Sample business canvas of a 3D printing company:

 

If you are a 3D artist or designer and you are looking for a reliable way to protect your designs or sell them and share them with your possible clients, a non-fungible token mostly known as NFT is the perfect solution for you.

What is NFT?

To understand the concept of NFT, you need to first know what cryptocurrencies are. Cryptocurrencies are digital or virtual currencies that are secured through cryptography; this way it is almost impossible to counterfeit or double-spend these cryptocurrencies are decentralized networks based on blockchain technology (blockchains are distributed database that is shared among the nodes of a computer network. In other words it is a database in which information is stored electronically and in digital format.) NFT is a digital property that accounts for various items from paintings to videos or photos. It is growing as a very smart and down-to-earth solution for copyright in the fast web market in which everything is at stake for being stolen or copied, this token is bought and sold online through Cryptocurrency. These tokens are encoded mostly using the same underlying software used in Cryptocurrency. How These files are usually traded through Ethereum which is one of the most well-known blockchains in this field.

NFT 3D Art

As a 3D artist, (besides any other forms of art like video art, painting, photography, etc.) you can start creating a software wallet in which 3D files are stored and owed by you. You can sell these files online and create your collections. Lately, a digital artist called Michael Joseph Winkelmann sold an NFT file of a collage of images from his “Every day” series, for $69,400,000 on March 12, 2021. That means there are quite some opportunities for you as an artist. Adding to that, NFTs secure your files and prevent them from being copied or stolen. Data shows that the following items are amongst the best-selling and most favorite artworks:

• Collectors are often drawn to futuristic, retro, and sci-fi themes
• Crypto art is viewed as having higher selling points when it comes to “3d” art, perhaps a reflection of a different ‘medium’
• A high number of views correlates with a high price: the hype machine is real
• NFTs tagged with “drawing” tend to sell for less in the traditional art world
• Typical NFT color palettes tend to be purple, reinforcing a technostalgic aesthetic.

How to generate NFT metadata for your 3D model?

Blend my NFTs is a tool that generates images, animation, and 3D objects to help you create your NFT collection. You can visit the website through: https://discord.gg/UpZt5Un57t

Features of this 3D generator:

• 3D models are exported and generated individually
• The possibility to generate all combinations of NFT
• Making a “RAR” export and reducing the size of your inputs ?
• Previewing the data of your NFT collections, being able to render the possible combinations
• There is an inbuilt metadata template generation for cryptocurrencies such as Ethereum, Cardano, or Solana

NFT generation step-by-step guide

First of all go the github webpage. https://github.com/torrinworx/Blend_My_NFTs

Then search “blend my NFT” in the search box

Then click on the green code bottom and click on “download the zip file”.

Unzip the file using Winrar (or any other software you use to unzip your files)

Then open the example file. Then format all the files previously added on the right side?

Press on the scripting tab in the first bar and it will open a blank text file, delete that and click on open and it will open a file view and open your intended file.

“NFT per batches” defines NFT per batches so type your intended number and beside “render batch” you have to specify which batch will be rendered so type e.g. 1 which means you will render batch.

Copy and paste your intended location in which you prefer to save the render and paste it in save-path-mac if you use Mac or save-path-windows if you use windows. Then add another backslash and copy and paste your intended filename

Then open your blender program and press the play button in the toolbar and you get your batches that were made.

There is also a YouTube video tutorial published by “crazy studio” which published this practical generator itself.

Can NFT be 3D?

Cryptocurrencies are digital currencies in which cryptography is used to make them secure and exclusive. You can create your own NFT using different platforms. OpenSea and Rarible are the leading platforms for NFT creation. Rarible has records more sales while OpenSea provides you with a more relatable service, like the possibility to create your own web store through OpenSea exchange. You can upload your designed piece and create collections, without having any background in this field.

Here, I will explain how you can get started as a newcomer.

If you want to generate images go to generators and sorters and click image generator.pi

Now you have that file open and it will render the image.

Other platforms include:

SuperRare

Superrare is another interactive platform that enables you to display your artworks in NFT.

Foundation

Foundation is also another popular platform amongst indie artists. You need to get an invitation and You will get 85% of the sale price and 10% of any future sales as a creator.

First step: Set up a wallet

Different wallets that open sea supports include Metamask, Coinbase wallet, wallet connect and format.

The first thing you have to do is create a software wallet.

You can keep your NFTs in this wallet and you also need this to pay blockchains gas fees.

Tokenize your art

When you have a digital wallet (meta mask, coin base, you can create your NFT. (Using a sample platform which is opensource in here.)

Go to opensea.io and click the Create button in the menu bar, this way, you can connect to your wallet.

You then have to name your collection, then click on “add new item bottom”. You are now ready to upload the file you want to tokenize and give it certain properties and stats to distinguish it from the rest of your collection.

Specify the number of copies you want of each item, then set a retail price.

Step 3: List on the marketplace

There are different platforms, which enable you to sell and buy your NFTs as a 3D artist and designer.

The most known platforms include:

Smart MFG

MFG is one of the first NFT marketplace in which 3D artists, engineers, or game designers can sell crypto collectible digital assets. https://smartmfg.io/nft-marketplace/

Airnft

Using this platform you can create NFT files for less than $1 and sell them online. This platform works with BSC blockchain( a blockchain network built for running smart contract-based applications.) and allows users to create designs like on dribbble or Behance. https://www.airnfts.com/nft/art-nft

Opensea

Open sea is one of the major platforms to create nft files it is also a very good marketplace as people can sell and buy their NFT files. https://opensea.io/collection/3d-models

 

Last but not least, NFTs might seem complicated at first sight but it is the future of art and design and if you learn it and create your collections, you will be able to earn money.

How much am I charged when trying to sell my NFT?

The charges include the costs related to your digital wallet, which is usually a fixed rate on all of the transactions.

The platform gas fee is charged when Ethereum is processed in a transaction and it can change dramatically from time to time based on the time of the day. There is also a platform service fee that ranges from 5 to 30 percent and goes to the marketplace as a fee.Remember to check the terms and conditions of each platform.

As a result of 3D printing’s easy-to-use phenomenon and its reasonable prices, more and more people and businesses are using this tool for different purposes. You may want to add a 3D printing service to your company as well. Here is some basic information you need to know before you get started. First of all, you need to know about the themes and plugins needed to do this job:

What is WordPress?

WordPress is an open-source website maker and you can easily create your own web address using different available templates. WordPress has different themes and plugins that are customizable and are developed to help you add new features to your web address and website. Below we can explain what these features are and get you familiar with different available themes and plugins useful in changing your WordPress into an online 3D printing shop.

WordPress 3D Printing theme vs plugin

WordPress themes and plugins are two completely different tools. Themes are usually associated with the appearance of your website. For example, a 3D printing theme can help you create the pages needed for a 3D printing website, such as a materials page, a 3D printing technologies page, and etc.

Plugins, on the other hand, are more concerned with the functions of your WordPress site. For example, a WordPress 3D printing plugin helps your users to upload their 3D files and calculate the price of 3D printing. So plugins and themes are very different in terms of usage.

What is a WordPress 3D printing theme?

Each and every website has a theme that should be relatable to the unique content and service it provides; with 3D printing also, there are specific typography and designs that suit you best. The theme for these kinds of websites should be creative and illustrate the modern entity of this business.

There are various websites offering the proper theme and template for your WordPress to make it suitable for offering 3D printing services to your clients. These themes enable your WordPress to offer high-resolution photos of the products and the service you tend to offer. You can choose between different backgrounds, color blends, and signs depicting different currencies and services.

TriPri – 3D Printing Services WordPress Theme

The TriPri is a premium WordPress theme for 3D printing services with eye-catching imagery and clean typography. You can easily create new pages with the Elementor page builder, an integrated drag-and-drop page builder that comes with the theme. Existing pages can also be customized. What makes this theme special? It doesn’t require any coding. 

https://www.templatemonster.com/wordpress-themes/63387.html

ThreeD Business

ThreeD business is an appropriate premium theme that provides you with the structure, layout, and custom content suitable for 3D printing. The link above is the address of a website that sells this theme and other different related themes.

https://themeforest.net/item/threed-wordpress-theme-for-architects-studios-agencies/15699841

3D Side WordPress Theme

You can build a project-focused website with the print shop WordPress theme and be sure that it is properly visible. This is achieved through the use of SEO optimization, usable functionality, and a simple yet attractive design. The use of polygon headers can enhance your site’s appearance, whereas blurred backgrounds are meant to highlight your content. A full pack of essential features is included in this responsive theme, including online chat, contact forms, drop-down menus, scroll-to-top buttons, gallery scripts, audio, and video options, and more. In addition, your company will be promoted within social networks by way of sharing buttons on blog pages and icons on the home page.

https://www.templatemonster.com/wordpress-themes/55771.html

Print Shop Responsive WordPress Theme 

Virtually all components of the framework can be easily installed using the built-in Wizard plugin. With the Shortcode Template Editor, tailor-made shortcodes can be created. Several blog site and webpage styles are built into the framework.

https://www.templatemonster.com/wordpress-themes/49286.html?aff=wptemplate

Print Shop Responsive WordPress Theme 

Virtually all components of the framework can be easily installed using the built-in Wizard plugin. With the Shortcode Template Editor, tailor-made shortcodes can be created. Several blog site and webpage styles are built into the framework.

https://www.templatemonster.com/wordpress-themes/49286.html?aff=wptemplate

PRINTONIC – 3D PRINTING CORPORATE WORDPRESS THEME

Have a look at “Printonic” if you want to share your 3D designs with the world but do not have a proper WordPress theme. You can get a website that reflects the work you do with this stylish one page theme for 3D printing businesses. Your printing services should include a description of your printing technologies, the various types of printing you offer, and the details your clients need to know.

https://www.inkthemes.com/market/3d-printing-wordpress-theme/

3D Printing Technologies WordPress Theme

Many entrepreneurs use 3D printers to create effective prototypes of their products. The theme exhibited here was designed to help their manufacturers boost sales. Using its elaborate design, companies can present information about themselves, their products, and upcoming events prominently on their homepage. The combination of a modern slider, a light background, and a gray background will give a sophisticated touch to the website and, therefore, the image of the company being promoted. The company will appear to produce high-tech devices, which will encourage potential customers to place an order. Manufacturers will be able to get a large profit out of their business by advertising 3D printers on platforms built with this theme.

https://www.templatemonster.com/wordpress-themes/52268.html?aff=wptemplate

3DPrint Lite

This plugin is for you if you have a 3D printer and would like to charge for model printing.

In the admin area, the site administrator configures printers, materials, and pricing. The customer uploads their models, chooses the printer and material, sees a price estimate, inputs their email address and comments, then presses the “Request a Quote” button.

An administrator receives the request notification by email and sends the quotes through the Price Request Manager or discards the request.

https://wordpress.org/plugins/3dprint-lite/

Woo 3D Viewer

Another integrated WooCommerce plugin is Woo 3D Viewer. The plugin enables customers to change settings for their models and scenes, background colors, and shadows. Transparency and shine can also be changed. Alternatively, they can make payments directly from the website and request a quote if the estimated price matches their budget. There is a free and a pro version of Woo 3D Viewer, just like 3D Print. With the free version, WooCommerce is integrated along with STL and OBJ support. In contrast, the Pro version offers multiple product support functions and model repair features. As an option, Pro version users can also choose to show a WEBM or GIF instead of a 3D model in order to speed up loading on mobile devices, as well as protect their models from unwanted downloads.

This plugin is a visual shortcut builder with adjustment features for background light, shadows,etc. This plugin can be used alongside calculation plugins to modify your WordPress into a 3d printing shop.

https://wordpress.org/plugins/woo-3d-viewer/

Phanes 3DP Calculator

Using the Phanes 3DP plugin, you can convert your WordPress or WooCommerce website into an online store that sells 3D printing services. A number of features are provided by the easy-to-use plugin, which includes both free and paid modules. Instant Quotes and Checkout Options are available to customers, to begin with. Clients can upload only STL files for viewing the final 3D product on the website. There is no commission taken by the makers of the plugin for the products you sell through it. Unfortunately, the free module only accepts payments through PayPal. Besides, it only supports the USD, EUR, Yen, British Pound, Chinese Yuan, and Australian Dollar. If you want to accept Stripe payments as well, you can upgrade to a premium subscription that costs $14.95 per month. In addition, it allows you to receive all major currencies, including the Hong Kong dollar, New Zealand dollar, and Thai baht.

https://wordpress.org/plugins/3d-printing-quote-calculator-by-phanes/

How is layers different from the provided plugins?

Layers is a platform that is exclusively designed to aid you in your 3d printing business. You can have an exclusive web address or have a dedicated subdomain on Layers and provide your customers with a variety of options like getting instant quotes, placing orders, and different payment methods all in a single integrated web platform designed for 3dprinting businesses.

1. Layers provide you with a Customizable user journey; it means customers do not need to necessarily know about coding nor do they need to use a translation method to help them with translating codes. Any client regardless of their background can use this as it is very simple and easy to use
2. It helps you manage your projects: You can have numerous projects and manage their details and developments simultaneously
3. Supply chain management tools enable you to maximize your product value and remain as sustainable and efficient as possible 
4. You can manage discounts; this way you can define a discounting system based on different order parameters to remain successful in the competitive job market  
5. Most plugin services only support basic currencies while our team designed a system that provides service of each and every currency. No matter where your clients are, they can easily access their preferred currency 
6. Your clients  can easily get an instant quote and you do not have to calculate the price in-house like many other platforms; we try to keep a user-friendly experience for all of your users
7. Layers is exclusively designed to help you build a user-friendly experience with your customers; it is not an added plugin but a unique platform for this purpose as a result it is quicker and much more practical
8. Using layers, your customers can add multiple different models at the same time for price quotation.

Layers is a user-centered platform with an agile team releasing new features with every update regularly based on user feedback and needs.

It’s no surprise that metal 3D printing has been a hot topic for some time now, considering the technology’s potential. What factors affect the price of 3D printed metal orders? It’s understandable that part size and geometry affect metal 3D printing prices, but there are other factors that can affect them as well. Metal additive manufacturing (AM) is sometimes misunderstood by designers and engineers, dissuading them from pursuing the technology.

Industrial production is being transformed by additive manufacturing. There are various methods and materials for 3D printing metals. In general, metal 3D printers make up most of the costs of 3D printing, and the rest is split between raw materials, labor, preparation, and post-processing.

A Brief History of Metal 3D Printing

In the late 1980s, Dr. Carl Deckard of the University of Texas developed the first laser-sintering 3D printer of plastics. Through this development, 3D metal printing was made possible.
The first patent for laser melting of metals was filed in 1995 by the Fraunhofer Institute in Germany. Companies like EOS and many Universities lead the development of this process.
In 1991, Dr. Ely Sachs of MIT introduced a 3D printing process that is today better known as Binder Jetting. Binder Jetting of metal was then licensed to ExOne in 1995.
3D printing of metal saw slow but steady growth in the 2000s. This changed after 2012 when the original patents started expiring and large investments were made by companies like GE, HP, and DM.
Today, Wohler’s report estimates metal 3D printing to be a $720 million market and growing rapidly. Metal 3D printer sales grew by 80% in 2017.

Metal 3D printing vs traditional manufacturing

When deciding between metal 3D printing and a subtractive (CNC machining) or formative (metal casting) technology, always conduct a Cost vs Performance analysis. A manufacturing cost is generally determined by the production volume, while the performance of a part is largely determined by its geometry.

Metal 3D printing is best suited for parts with complex & optimized geometries. In other words, it is ideal for manufacturing high-performance parts. However, it does not scale as well as CNC machining or metal casting at higher volumes.

Generally speaking:

The high cost of metal 3D printing can only be justified financially if it results in an increase in performance or operational efficiency.

Various industrial requirements are met by different metal 3D printing processes. Below are some general guidelines to help you decide which process is right for you:

DMLS/SLM: In order to increase the efficiency of the most demanding applications, DMLS/SLM is the best solution for parts with high geometric complexity (organic, topology optimized structures).

Binder Jetting: For small and medium-sized batches, Binder Jetting makes the most economic sense for parts with geometries that cannot be efficiently manufactured by subtractive methods and for small parts, binder jetting provides the best alternative.

Metal extrusion: Metal extrusion is the best option for prototyping and manufacturing one-off metal parts with complex geometries that would otherwise require a 5-axis CNC machine.

Benefits & Limitations of Metal 3D printing

Understanding that 3D metal printing has a lot of unique benefits is essential. However, its limitations do not always make it the best option when it comes to manufacturing metal parts.

Benefits of Metal 3D Printing

 

Geometric complexity at no extra cost

Its exceptional design flexibility is the greatest advantage of metal 3D printing compared to “traditional” manufacturing. Geometries that cannot be manufactured by other means (such as a mold or cutting tool) can easily be 3D printed since no specific tooling is needed. Moreover, if a part has increased geometric complexity, the cost of manufacturing it hasn’t increased. As a result, organic, topology-optimized structures can be printed on metal parts to greatly improve their performance.

Optimized lightweight structures

Design flexibility and lightweight structure go hand in hand with metal 3D printing. By following best design practices for metal 3D printing, lightweight solutions are always possible. Advanced CAD techniques, such as topology optimization and generative design, are typically used for this purpose. As a result, parts are both lighter (typically by 25% to 50%) and stiffer. This is important for high-end applications in industries like aviation and aerospace.

Increased part functionality

Parts with internal structures can be made with metal 3D printing since tool access is not an issue. Internal channels for conformal cooling, for example, are a great way to increase the performance of a part. DMLS/SLM – manufactured injection molding cores with conformal cooling – can reduce injection cycles by up to 70%. Adding metal extrusion to a component’s functionality is another way to increase its functionality. This process enables custom jigs and fixtures to be created when needed, increasing the efficiency of other industrial processes on the production floor.

Merging assemblies into a single part

A third strength of metal 3D printing is its ability to merge an assembly into a single piece. This eliminates the need for fasteners and creates parts that can perform multiple functions at the same time. Labor costs and lead times are also reduced, as well as maintenance and service requirements. Another way to create lightweight structures is to reduce the number of parts.

Simpler manufacturing supply chains

It can take 20 or more processes to manufacture a complex geometry part using “traditional” methods, even when it can be manufactured using “traditional” methods. Metal 3D printing is a viable manufacturing option in these cases. Binder jetting, for example, can reduce the total number of steps to five or less (including post-processing and finishing). In this way, the manufacturing supply chain is simplified.

Excellent material properties

In contrast to 3D printing of plastics, parts manufactured with DMLS/SLM or Binder Jetting have a more isotropic mechanical behavior. In addition, their material strength is comparable to that of wrought metal (and in some cases even better). Therefore, metal 3D printed parts have found applications in the most demanding industries, such as aerospace. It is important to note, however, that 3D printed parts generally have a lower fatigue strength. Surface roughness and internal porosity (typically, DMSL/SLM parts have * 0.2% porosity and Binder Jetting parts have * 2% porosity) play a role in this.

Limitations of Metal 3D printing

 

Higher cost than traditional manufacturing

The cost of metal 3D printing today is very high when compared to traditional manufacturing methods. A typical DMLS/SLM part will cost you approximately $5,000 to $10,000 to 3D print and finish. The use of metal 3D printing makes economic sense only if it is associated with substantial improvements in performance. However, affordable metal 3D printing solutions are in demand. In the near future, the new benchtop Metal Extrusion systems and production Binder jetting systems could fill this gap.

Limited economies of scale

In terms of large volumes, metal 3D printing is not yet able to compete with traditional manufacturing. The lack of custom tooling leads to a low start-up cost, but also means that the total manufacturing costs are not significantly affected by the volume of production. This means that the unit price remains nearly unchanged at higher quantities, and economies of scale cannot be realized. Still, the industry is working towards metal 3D printing systems that can streamline production. Currently, DMLS/SLM machines with multiple lasers and Binder Jetting systems capable of continuous production are being introduced to the market.

A unique set of design rules

Designing metal 3D printed parts follows a different set of rules than “traditional” manufacturing. As a result, existing designs often have to be re-designed. Moreover, the tools provided by older CAD software may not be sufficient to fully benefit from the advantages of metal 3D printing. In the last section of this guide, you’ll find a detailed description of the main design considerations, advanced CAD tools, and design rules for metal 3D printing.

Post-processing is almost always required

Metal 3D printed parts will almost always need some post-processing before they are ready for use. This will increase the overall cost and delivery time. To produce the final part, thermal treatments, machining, polishing, and other finishing methods are almost always required irrespective of the technology selected. In later sections, we’ll see more details on the post-processing steps required for each technology.

 

Metal Powder Bed Fusion 3D Printing

The most popular metal 3D printing method is metal powder bed fusion.   Selective laser sintering is known as SLS. A high-powered laser is used to sinter metal powder into a solid structure.

First, the machine will dispense a thin layer of metal powder onto the build platform. By heating the powder just below its melting point, the laser will be able to create a solid model from it.  After a long process of layering, your prototype is finally complete! Any leftover powder will support the structure as it is built and can be reused for future projects. Upon completion, the structure will cool down within the machine to prevent warping and optimize its mechanical properties.

Post-processing is of course necessary. The excess powder must be removed and the part must be separated. To further process the piece, you can use media tumbling or blasting.  Direct metal laser sintering (DMLS) or selective laser melting (SLM) are other names for this process. Regardless of the name, this technique selectively bonds the metal particles one by one using lasers.  The average cost of an SLS or SLM printer is $550,000, but it can cost as much as $2,000,000 depending on the features you choose!

Directed Energy Deposition (DED)

Directed energy deposition, also known as DED, is another type of metal 3D printing.  Since the metal powder is pushed through a special nozzle, this method can be compared to filament extrusion. Metal in wire form can also be used, as it can also be pushed through the nozzle.  In contrast to SLS, which sinters the material on the print bed, DED solidifies the material as it is being deposited with a laser. It also holds a laser that melts the material on the print bed while the robotic arm lays it down. SLS machines are known for their large amount of material waste, so this process increases the speed and efficiency of 3D printing.

To prevent unwanted oxidation and to maximize control, the entire process must also take place in a sealed chamber that is filled with inert gas. DED machines are ideal for repairing parts or building large objects made of metal. As well, its high printing speed makes it ideal for manufacturing large volumes of parts. However, it sacrifices surface quality and finish.It is not necessarily a cheap option, since most DED machines cost upwards of $500,000!

 

Metal Filament Extrusion

A metal 3D printer that uses filament extrusion is also an option. Heating up the metal material, or filament, enables it to be processed through nozzles.  Instead of the dangerous metal powder used in the previous options, this filament is made of metal particles mixed with a binding agent. In other words, it is easy to handle and safe to use, but requires additional post processing steps.  To reach its final form, it must undergo de-binding and sintering.

An average machine of this type costs around $140,000 with post-processing tools included. Although the price of a larger, more advanced machine can creep much higher, like with any choice.

 

Material Jetting and Binder Jetting

You can think of these machines as inkjet printers – they spray metal onto the build surface, and once it hardens, another layer of metal “ink” is added. Binder jetting uses the same principle, except that a liquid binder is also applied to the metal materials. The process is layer-by-layer, so it takes time to complete. As a result, the prototype you construct will be very fragile until all post-processing steps are completed. Sintering and infiltration will transform it from its green state into a stronger metal part. With this process, you can use more materials than just metal because of the unique technology. Sand or ceramics are great options for those who are interested in these subjects.

You can expect to spend $400,000 or more on a metal binder jetting system.

What is DMLS/SLM 3D printing?

Two powder bed fusion metal 3D printing technologies are DMLS (Direct Metal Laser Sintering) and SLM (Selective Laser Melting). SLM and DMLS have very few practical differences. Therefore, they can be treated as one technology.

Layer-by-layer, they use high-power lasers to bond metal powder particles together. Due to the extremely high temperatures, SLM reaches a complete melt, while DMLS causes the metal particles to fuse together on a molecular level. Metal alloys can be used in DMLS, but only certain (pure) metal materials can be used in SLM.

How does DMLS/SLM work?

Steps involved in 3D printing with DMLS and SLM are as follows:

First, the build chamber is filled with inert gas and then heated to the optimal temperature for printing. The build platform is covered with a thin layer of metal powder (typically 50 microns). The laser scans the cross section of the part and selectively bonds the metal particles.

After the entire area is scanned, the build platform moves down a layer and the process repeats until the entire build is complete.

After printing, the built-up needs to cool down before the loose powder can be extracted. The 3D printing step is just the beginning of the DMLS/SLM process. After the print is complete, additional (compulsory or optional) post-processing steps must be performed before the parts can be used. Required post-processing steps include:

Stress relief: As a result of the very high processing temperatures during printing, internal stresses develop. Prior to any other operation, these need to be relieved through a thermal cycle.

Removal of the parts: SLM/DMLS basically welds parts to a build platform. Here, band saws or wire cutters are used.

Removal of the support: To mitigate the distortion and warping that may occur during printing, DMLS/SLM support is always required. This support is either manually removed or CNC machined.

Additional post-processing steps are often required to meet engineering specifications. This may include the following:

CNC machining: In order to meet tighter tolerances than the standard * 0.1 mm, machining is used as a finishing step. Very little material is removed this way.

Heat treatments: Heat treatments or Hot Isostatic Pressing (HIP) can be used to improve the material properties of a part.

Smoothing/Polishing: A smoother surface than the standard RA 10 *m of as-printed DMLS/SLM is required for certain applications. CNC machining, manual polishing, electropolishing, and chemical polishing are all available options.

Metal powders for 3D printing

Powder is the raw material used in DMLS/SLM and many other 3D printing processes.

For the final result, the characteristics of the metal powders are very important. In order to ensure a good flow and close packing, metal particles should be spherical and between 15 and 45 microns in size. In order to meet these requirements, methods such as gas or plasma atomization are commonly used. A key factor contributing to the overall cost of metal 3D printing is the high cost of producing these metal powders.

Benefits and limitations of DMLS/SLM

The main strength of DMLS/SLM is the ability to create highly optimized, organic structures from high-performance metal alloys. When DMLS/SLM is used to manufacture parts, complex, organic shapes can be created that maximize stiffness and minimize weight. In addition, they can have internal geometries that cannot be produced by any other method.

DMLS/SLM parts have excellent material properties. Parts with almost no internal porosity can be made from a variety of metal alloys, from aluminum and steel to superalloys. DMLS/SLM have high costs, as we saw in a previous section. Because of this, these processes are only economically viable for high-value engineering parts. Technically, DMLS and SLM are limited by the requirement for extensive support structures. To avoid warping and anchor the part to the build platform, these are necessary. Additionally, out of the printer, the surface roughness of the produced parts is high for most engineering applications, so post-processing is required.

Advantages:

Excellent design freedom

High accuracy & fine details

High-performance materials

Disadvantages:

High manufacturing & design cost

Extensive need for support structures

High surface roughness

Materials for Metal 3D printing

Metal 3D printing materials are becoming increasingly common. Engineers today can choose from alloys such as:

• Stainless steels
• Tool steels
• Titanium alloys
• Aluminum alloys
• Nickel-based superalloys
• Cobalt-chrome alloys
• Copper-based alloys
• Precious metals (gold, silver, platinum…)
• Exotic metals (palladium, tantalum…)

The speed of metal 3D printing

It takes at least 48 hours and an average of 5 days to manufacture and finish a metal 3D printed part, regardless of the process. About half of the total production time is dedicated to printing. Obviously, this is dependent on the volume of the part and the need for support structures. As a reference, the current production rate of metal 3D printing systems ranges between 10 and 40 cm3/h.

Post-processing and finishing requirements account for the remainder of production time. The thermal treatments contribute significantly to the total production time: a typical thermal cycle takes 10 to 12 hours. Mechanical surface finishes require expert input (5-axis CNC machining) or manual labor (hand polishing).

Prices of metal 3D printers

A laser powder-bed fusion system (10 x 10 x 12 inches) can cost between $400,000 and $800,000. It will cost $400,000 to buy HP’s metal 3D printer. A company called Desktop Metals, which has BMW, Ford and Google Ventures among its investors, announced last year that it will offer a metal 3D printer capable of printing a variety of shapes and sizes. Prices for businesses that need to 3D print metal are expected to become increasingly competitive as more companies enter the metal 3D printer market. You should also consider the licensing costs of generative design, an iterative design process used in conjunction with metal 3D printing.

Labor costs

Currently, metal 3D printers require human intervention in order to operate. Depending on the machine, labor rates can range from low to high. Safety aspects should also be considered depending on the printing system used. Using powerful lasers or metallic powders, for example, requires safety measures. Nevertheless, safety is heightened in the case of metal binder jetting, a method in which the industrial printhead deposits a liquid binding agent onto a layer of powder particles. The cost of implementing safety measures will be minimal.

Costs of post-processing printed parts

In post-processing, parts are cleaned, support structures are removed, coatings are added, or other enhancements are performed. The associated costs vary depending on the process. For example, powder bed fusion (PFB) requires support structures, and because they also require more material, the parts can be expensive.

How much does metal 3d printing really cost?

You can expect to pay between $15 per piece up to $800 for larger models. Similar to the cost of a 3d printing service, the price for metal 3d printing also depends on factors including the volume of your 3d model, its complexity, and the type of finishing you use, in this case metal.

 Things to Consider Before 3D Printing Metal

Material Costs

You must first purchase the materials needed for the machine to function before you can 3D print metal! You will need different types of metal and materials for various machines, but this will continue to be an ongoing expense.  A kilogram of this powder costs between $300 and $600, and is used by most metal printers to create metal objects.  However, if you are using an SLM or DMLS 3D printer, you can expect material costs to range from $2,000 to $4,000. You can use one single build plate to accommodate up to 12 parts.

If you plan to make objects with a 3D printer, your material costs will vary, so make sure you price them into your calculations in advance!

Post-Processing

Metal parts or prototypes are only the beginning of the 3D printing process. In the post-processing process, the object needs to be cleaned, coated, and support structures removed. Depending on the type of machine you buy, you will manage this differently. The objects for sintering must be heated in an oven if you choose to use a metal binder machine. Support structures are built to anchor powder bed parts to build plates, so when the part is completed, they must be removed.

These are some examples of standard post-processing techniques and their costs:

 

• Stress Relief: $500 to $600 per build
• Heat Treatment: $500 to $2,000 per build
• Support Removal: $100 to $200 per part
• Surface Treatment: $200 to $500 per part
• CNC Machining: $500 to $2,000 per part

Operation & Maintenance

Lastly, you need to consider the cost of operating and maintaining the metal 3D printer. These devices cannot be turned on and off. They require extensive setup and skill to operate, so you will have to hire someone to manage them. This means you would need a full-time operator if you planned to run the printer full-time. Metal 3D printers have a variety of costs associated with them, as it is evident!

Design for Metal 3D printing

Metal 3D printing demands a new mindset and a specific set of design rules and best practices. This section introduces you to the principles and tools that will help you make the most of your designs, including topology optimization.

Key design considerations

Additive manufacturing follows a different set of rules than traditional manufacturing. Due to both the unique set of design freedoms and limitations, the designer must shift their mindset.

Existing designs may not be directly transferable

It is rarely feasible to manufacture parts that have been designed for a traditional process using metal 3D printing because of its high cost. It is often technically impossible to reproduce these geometries. Sections thicker than 10 mm, for example, are prone to warping or other manufacturing defects and should be avoided.

Geometric complexity is as asset

Complexity is often considered harmful, since it leads to higher costs. With metal 3D printing, this is not the case. The key to fully utilizing the benefits of metal 3D printing is to maximize the added value that geometric complexity brings to a system.

Start by defining the basic requirements

When you begin to redesign a part or assembly for metal 3D printing, it is usually a good idea to start from scratch. By doing so, you can avoid being limited by preconceived notions. Clearly defining the design requirements (loads, boundary conditions, part weight, etc.) is essential. In the next section, we will see how modern CAD software uses them to create structures with organic forms.

Always use minimum support structures

Having a clear vision of how the part will be oriented in the machine is a good practice. The orientation of the print determines the position and need for support structures. It is the designer’s responsibility to create self-supporting features, minimizing the need for support and ensuring build success.

Post-processing is always required

With metal 3D printing, post-processing is always necessary regardless of the process. These can be mandatory (such as support removal in DMLS/SLM or sintering in Binder Jetting and Metal extrusion) or optional (such as a CNC machining step to achieve tighter tolerances or a heat treatment to improve material properties). Designing a part for metal 3D printing requires you to keep in mind the post-processing requirements and available options.

 

Design optimization tools & software

CAD packages offer tools for taking full advantage of metal 3D printing’s geometric freedom. You can create organic-like structures with these algorithm-driven design tools that outperform parts constructed using traditional methods. Today, three main strategies can be used. Depending on the design requirements, these strategies can optimize the performance of existing designs or be used to design completely new structures.

Lattice structures

An existing design can be optimized by using a lattice pattern. In addition to creating lightweight parts, lattice structures can increase the surface area of heat exchangers, reduce manufacturing costs, or improve the printability of existing designs.

Topology optimization

Maximizing stiffness and minimizing mass can be achieved by using simulation-driven optimization of topology. In topology optimization, areas from which material can be removed are determined by analyzing the user-defined design space and the load cases. Based on the simulation results, parts can be designed for optimal performance under these loading scenarios.

Generative design

Simulation-driven topology optimization is a variation on generative design. Rather than a single output, generative design produces multiple design options. The resulting designs are all capable of being manufactured and meet the design requirements. By exploring different solutions, the designer can find the most suitable one (for example, according to secondary trade-offs).

Is It Worth it to Buy a 3D Metal Printer?

Can you say for sure whether you should spend the money on a 3D metal printer? It depends on what your goals are. To find out what works, you should survey your peers and research your options.

By printing metal 3D parts, you can bring complex designs to life and support on-demand production. It improves your control and flexibility on the production line, in other words! As well, metal 3D printing generates less waste than CNC milling processes, thereby reducing costs over time. 3D metal printers have the obvious drawback of being costly to use. Obtaining a positive return on investment may take a considerable amount of time, so determine the value of your throughput before investing. Post-processing is almost always required as well, as printing is not perfect. It doesn’t matter if you are sintering or de-binding; you will still need to add some finishing touches to the final product.

How to bring down 3D metal printing costs

There are a number of ways you can reduce the costs involved in 3D metal printing, even though it will never be a ‘cheap’ method. Here are some:

Cutting the CNC finishing costs of 3D metal printing

Several emerging techniques are helping to reduce the amount of time your teams spend on CNC finishing. Studies show that using supports that can dissolve in acid can reduce post-processing time from days to just a few hours. You can also design a way to remove support structures with greater ease with some SLM editing software.

Reducing design time through automation

The beauty of 3D printing metal parts is that they can be completely customized and unique. It would require a designer to build each design from scratch in the software – which could take many hours. However, today’s 3D metal printing software can help you automate many steps of this process to increase the volume of parts you can print.

With 3D metal printing, you might be able to create dental parts that are unique to each patient. This process can be sped up significantly if you use software that automates design. Almost all of the fundamental geometry of a dental part is identical; you will still have to customize certain elements for the patient’s mouth, but most of the work has already been done for you. The part’s orientation, support structure generation, placement, and slicing and matching can be repeated from one design to the next. The designer can then make a few tweaks to an existing design file without having to restart each time.

By using 3D editing software that has automation capabilities, you can reduce the amount of routine work your 3D designers need to do. Machine libraries and predefined support structures enable you to speed up data preparation, design more parts, and therefore boost your profits while reducing your costs.

Optimize 3D metal printing

You can save your company significant amounts of money and boost productivity by optimizing your 3D metal printing processes.

Layers.app‘s mission is to help you automate and improve your 3D printing processes. By using our software, you can automate many aspects of design, bringing you powerful and easy-to-use 3D metal printing tools. It frees up skilled workers from repeating work, allowing them to manufacture more parts more quickly.