How expensive is a 3d printer


How much does a 3D printer cost? (2022 update)

David Durbin13 January 2022

Guide

3D printer categoryAverage price
Low-cost 3D printers$100 - $400
Hobbyist 3D printers$400 - $1,000
Enthusiast 3D printers$1,000 - $3,000
Professional 3D printers$3,000 - $10,000
Industrial 3D printer price$10,000+

If you're wondering how much a 3D printer costs. Or, if a 3D printer is worth it. You're in the right place.

The good news is this: These days you can find almost any 3D printer for any budget.

And while the average 3D printer price across the market is around $400...

That average is pulled down because of the high volume of low-cost 3D printers sold.

So is it worth it to buy a 3D printer in 2022? If yes, what is the best 3D printer for the price? And are there price range “sweet spots” that you should look out for?

You can prepare yourself to answer these questions by asking yourself:

Am I looking for a hobby or a tool?

And you can get the full answers by reading below.

How much does a 3D printer cost? Low-cost 3D printer prices start from $100 to $400. Then hobbyist 3D printers will set you back by up to $1,000. The next level of enthusiast and professional 3D printer prices range between $1,000 to $10,000. After that, the sky’s the limit – with industrial 3D printer prices starting at $10,000 but quickly reaching $100,000 or $250,000 for specialist technologies.

If you're looking to find out exactly how much Ultimaker printers cost, you can request a quote to find out now.

Request a quote

DIY / Low-cost 3D printer price $100 - $400

Low-cost 3D printers are all about the novelty of the technology. They exist for newbies who want to say, "Hey – check out what I just 3D printed!" Almost all will come as kits that the buyer puts together. And while these machines might have beginner-friendly price tags... It won't be a beginner who can get them to produce a good 3D print. That's because manufacturing problems are too common to overlook. And these lead to a painful setup and user experience. Also, when asking how much does a basic 3D printer cost? This tier can save you money. But expect to pay more for modifications, upgrades, and repairs down the line. That said, if it's a choice between "having a 3D printer" and "not having a 3D printer", this tier offers the biggest bang for your buck.

The Ultimaker Original was sold as DIY 3D printer that you put together yourself

Hobbyist 3D printer price $400 - $1,000

3D printers at this price range can produce some great parts and models. But that's only after you have set them up and dialed in their settings. In this way, they are aimed at hobbyists. (People who are happy to spend time watching tutorials and tweaking settings to improve their prints.) This also limits your flexibility. Over time, you might be able to 3D print well with a basic material like PLA. But don't expect to switch filaments too easily. While these machines are often delivered as kits, manufacturing problems are less common.

Enthusiast / Prosumer 3D printer price $1,000 - $3,000

Up until this price range, almost all the 3D printers will have had an open design. But now you will begin to see more partially and fully enclosed printers that increase safety and print reliability. This also marks the end of the hobbyist range. And the start of 3D printing becoming a useful production tool. Therefore, the enthusiast and prosumer category is great for lower and higher education customers who want to avoid spending time on maintenance. Plus, they present a smart option to 3D print cheaply at home. These machines can 3D print a handful of materials with good reliability. However, these will often be own-brand filaments with carefully tweaked settings. The best enthusiast 3D printers include hardware and software features taken from the professional 3D printer price tier. On which note...

Safer, more reliable, and low maintenance – Enthusiast 3D printers are a great option for schools

Professional 3D printer price $3,000 - $10,000

A lot changes at this price point. Instead of being a technology to tweak and adjust, these 3D printers focus on easy use and adoption. They become one tool among many in an engineer's or designer's toolbox – giving a growing number of businesses a new way to innovate. And that's why, at this price point, FFF 3D printing is at its most disruptive. The only way this can happen is for the 3D printer to work – and for it to work hard. Expect a factory-tested machine that you can leave running over the weekend and come back to a finished part on Monday morning. Plus, prints start being repeatable. For example, if you 3D print the same part on the same printer in two or more locations...the part quality should be almost identical. The user also has more flexibility. You can choose to print with a build material and a support material in the same print (called dual extrusion), offering more design freedom. And you gain a growing range of engineering-grade material options. These can include materials reinforced with carbon fiber or even metal.

Professional 3D printers are workhorse tools for an increasing number of engineers and designers

Industrial 3D printer price $10,000+

3D printers that cost tens or hundreds of thousands are made to do a few things at a high level of quality. This includes production technology for specific materials, like high-temperature polymers or metal. 3D printing these materials with a high success rate often requires you to stay within a manufacturer's material portfolio and software stack. If you are in the market for an enterprise-level machine, this will rarely be the first 3D printer your company buys. And you will know what's required to make the investment: a strong business case, competitor analysis, and a purchase order. You or your company may be happy to pay extra for increased speed, accuracy, and reliability. But also know that, the higher you go in this price bracket, the more you chase diminishing returns.

Is a 3D printer worth it?

These five price tiers cover the majority of 3D printers sold today.

If you consider 3D printing as a hobby, 3D printing successfully will largely be paid for with your time and patience. If 3D printing needs to be a tool for you, then you will pay extra for a user experience that saves time and attention.

But it's also in this second category where 3D printing offers significant business value. And the right 3D printer can end up paying for itself with substantial time and cost savings.

The total cost of 3D printing

Finding the best 3D printer for the price, then, is not only about the machine you buy. The picture is bigger than just the initial price tag.

It's also about the software, accessories, materials, and service that go with it. Together, these contribute to an easy-to-use, time and cost-saving 3D printing experience.

The Ultimaker platform creates a seamless flow between hardware, software, and materials

For example, every Ultimaker 3D printer works seamlessly with Ultimaker Cura, which is updated every few months. They also ship with a suite of free online tools and e-learning courses. Together these resources transform your ability to click-and-print with up to 239 materials.

So it's no surprise that hundreds of leading companies – from Ford to L'Oréal – 3D print day and night with the Ultimaker platform to drive innovation and sustain their competitive advantage.

If you would like to do the same, click below to find out more.

Discover Ultimaker 3D printers

How Much Does a 3D Printer Cost?

In-house 3D printing is a versatile solution for a wide range of applications, from high-resolution models to rapid prototyping, rapid tooling for traditional production processes, manufacturing aids, and even end-use parts in manufacturing.

When you consider investing in a 3D printer, however, viability typically boils down to a simple question: does it make economic sense for your business? How much does a 3D printer cost and how much time and cost can you actually save with it for your business?

3D printer prices range from about $200 to $500,000+ depending on the printing process, materials, and the level of sophistication of the 3D printing solution.  

In this guide, we’ll walk you through the 3D printing costs for different technologies, compare outsourcing with in-house production, lay out the various factors you should account for to calculate cost per part, and look at considerations beyond cost when comparing various 3D printing solutions and other production methods.

Interactive

Try our interactive ROI tool to see how much time and cost you can save when 3D printing on Formlabs 3D printers.

Calculate Your Savings

The three most established plastic 3D printing processes today are fused deposition modeling (FDM), stereolithography (SLA), and selective laser sintering (SLS). 

Each 3D printing technology has its pros and cons—here's an infographic for a quick comparison:

Download the high-resolution version of this infographic here. Would you like to learn more about FDM, SLA, and SLS 3D printing technologies? Check out our in-depth guide.

3D printer prices have dropped significantly in recent years, and today, all three technologies are available in compact, affordable systems.

As a rule of thumb, FDM 3D printers will create the cheapest parts if you’re printing only relatively simple prototypes in limited numbers. SLA resin 3D printers offer higher resolution, better quality, and a wide variety of 3D printing materials at a slight premium, but the difference quickly diminishes when you print complex designs or larger batches due to the less labor-intensive post-processing. Lastly, SLS 3D printing is the most cost-effective process for producing medium to large volumes of high-quality functional parts.

Comparing the overall cost of different 3D printers goes beyond sticker prices -- these won’t tell you the full story of how much a 3D printer costs and how much your printed part will cost. 3D printing material and labor costs have a significant influence on cost per part, depending on the application and your production needs.

Let’s look at all the different factors and costs for each process.

FDM, also known as fused filament fabrication (FFF), is a printing method that builds parts by melting and extruding thermoplastic filament, which a printer nozzle deposits layer by layer in the build area.

FDM is the most widely used form of 3D printing at the consumer level, fueled by the emergence of hobbyist 3D printers. Professional and industrial FDM printers are, however, also popular with professionals.

The lowest cost 3D printers are almost exclusively FDM printers. Prices for the cheapest entry-level DIY FDM 3D printer kits start at around $200. However, most of these models are more like toys or DIY projects themselves that require you to spend a considerable amount of time assembling, tweaking, and calibrating the printer. Print quality is highly dependent on the success of these steps and still, these machines will require you to do repairs and regular maintenance to keep them running, so they are only recommended for anyone with an (in progress) engineering degree and lots of time and patience.

Hobbyist FDM 3D printers which cost around $500-$1,500 might come as a kit or assembled, require slightly less tweaking, but they still share much of the same disadvantages as the lowest-cost 3D printers. Some models closer to the top of this range will offer bigger build volumes and also more material options beyond low-temperature materials like PLA.

Professional FDM 3D printers start around $2,500, and large-format professional FDM printers start around $4,000, while the most advanced industrial FDM printers can easily cost more than $10,000. Most of these printers will come assembled and calibrated out of the box, or they can auto-calibrate themselves. Printers in this category offer better print quality, a wider range of materials, larger build volumes, better reliability, and are easier to use and maintain. Unlike lower-cost printers, manufacturers of professional 3D printers also offer customer support to troubleshoot issues.

Regarding materials, FDM 3D printing material costs range from around $50 to $150/kg for most standard and engineering filaments and $100-200/kg for support materials. Cheaper alternatives might be available, but once again, with a trade-off in terms of quality.

Lastly, FDM printing can be highly labor-intensive. Many designs, especially complex models, require support structures for successful printing, which need to be removed manually or by dissolving the structures in case of soluble supports. To obtain a high-quality finish and remove layer lines, parts require lengthy manual post-processing, such as sanding.

SLA 3D printers use a laser to cure liquid resin into hardened plastic in a process called photopolymerization. SLA is one of the most popular processes among professionals due to its high resolution, precision, and material versatility.

SLA parts have the highest accuracy, the clearest details, and the smoothest surface finish of all plastic 3D printing technologies, but the main benefit of SLA lies in its versatility. SLA resin formulations offer a wide range of optical, mechanical, and thermal properties to match those of standard, engineering, and industrial thermoplastics.

SLA 3D printing offers a wide range of materials for a variety of applications.

While SLA technology used to be available only in large, complex industrial 3D printers that cost more than $200,000, the process has become much more accessible. With the Formlabs Form 3+ printer, businesses now have access to industrial-quality SLA for just $3,750. Large-format SLA with the Form 3L starts at just $11,000.

SLA 3D printers will come assembled and calibrated out of the box. They’re professional tools that are reliable also for production and require barely any maintenance. Customer support is also readily available to troubleshoot issues in the unlikely event that something goes wrong.

In terms of material costs, SLA resins cost around $149-$200/L for most standard and engineering resins.

SLA printers are easy to use and many steps of the workflow like washing and post-curing can be mostly automated to reduce labor needs. Printed parts have a high-quality finish right off the printer and require only simple post-processing to remove support marks.

White Paper

In this free report, we look at how in-house large-format 3D printing with the Form 3L stacks up against other methods of production, chiefly outsourcing and using FDM printers. We also compare costs between methods, and review when it would be best to bring the Form 3L in-house.

Download Now

SLS 3D printers use a high-powered laser to fuse small particles of polymer powder. The unfused powder supports the part during printing and eliminates the need for dedicated support structures, which makes SLS ideal for complex geometries, including interior features, undercuts, thin walls, and negative features. 

Parts produced with SLS printing have excellent mechanical characteristics, with strength resembling that of injection-molded parts. As a result, SLS is the most common plastic 3D printing process for industrial applications.

SLS nylon parts are ideal for a range of functional applications, from engineering consumer products to healthcare.

Just like SLA, SLS used to be only available in large-format, complex 3D printing systems starting at about $200,000. With Formlabs’s Fuse 1 SLS printer, businesses can now access industrial SLS starting from $18,500, and $29,743 for a complete setup that includes a post-processing and powder recovery system.

Also similar to SLA printers, SLS printers will come assembled and calibrated out of the box. They are reliable and developed for 24/7 production, and come with advanced training and fast customer support.

Nylon materials for SLS printing cost around $100/kg. SLS requires no support structures, and unfused powder can be reused, which lowers material costs.

SLS is the least labor-intensive plastic 3D printing process in a production setting as parts have great quality right out of the printer and require only simple cleaning to remove excess powder.

Beyond plastics, there are multiple 3D printing processes available for metal 3D printing. 

  • Metal FDM

Metal FDM printers work similarly to traditional FDM printers, but extrude metal rods held together by polymer binders. The finished “green” parts are then sintered in a furnace to remove the binder. 

SLM and DMLS printers work similarly to SLS printers, but fuse metal powder particles together layer by layer using a laser instead of polymers. SLM and DMLS 3D printers can create strong, accurate, and complex metal products, making this process ideal for aerospace, automotive, and medical applications.

While metal 3D printer prices have also begun to decrease, with costs ranging from $100,000 to $1 million, these systems are still not accessible to most businesses.

Alternatively, SLA 3D printing is well-suited for casting workflows that produce metal parts at a lower cost, with greater design freedom, and in less time than traditional methods.

White Paper

Get design guidelines for creating 3D printed patterns, walk through the step-by-step direct investment casting process, and explore guidelines for indirect investment casting and sand casting.

Download the White Paper

The various plastic and metal 3D printing processes have unique qualities that make them suitable for different applications. Here's a quick breakdown. 

Fused Deposition Modeling (FDM)Stereolithography (SLA)Selective Laser Sintering (SLS)Metal FDMSelective Laser Melting (SLM) and Direct Metal Laser Sintering (DMLS)
Resolution★★☆☆☆★★★★★★★★★☆★★☆☆☆★★★★☆
Accuracy★★★★☆★★★★★★★★★★★★★☆☆★★★★★
Surface Finish★★☆☆☆★★★★★★★★★☆★★☆☆☆★★★★☆
Throughput★★★★☆★★★★☆★★★★★★★★☆☆★★★★☆
Complex Designs★★★☆☆★★★★☆★★★★★★★★☆☆★★★★★
Ease of Use★★★★★★★★★★★★★★☆★★★★☆★☆☆☆☆
Build VolumeUp to 300 x 300 x 600 mm (desktop and benchtop 3D printers)Up to 300 x 335 x 200 mm (desktop and benchtop 3D printers)Up to 165 x 165 x 300 mm (benchtop industrial 3D printers)Up to 300 x 200 x 200mmUp to 400 x 400 x 400 mm
Price RangeDIY printers 3D printer kits start around $200, hobbyist printers range from $500-$1,500. Professional FDM 3D printers start around $2,500, and large-format professional FDM printers start around $4,000.Professional desktop printers start at $3,750, large-format benchtop printers offer a bigger build volume for $11,000.Benchtop industrial SLS systems start at $18,500, and traditional industrial printers are available from $100,000.Metal FDM printers start from $100,000, but the full solution that includes a furnace goes well beyond that.DMLS/SLM solutions start around $200,000. These printers also come with stringent facility requirements which may increase the costs further.
Material Costs$50-$150/kg for most standard and engineering filaments, and $100-200/kg for support materials.$149-$200/L for most standard and engineering resins.$100/kg for nylon. SLS requires no support structures, and unfused powder can be reused, which lowers material costs.Depends on the material and the technology. Significantly higher than plastics.Depends on the material and the technology. Significantly higher than plastics.
Labor NeedsManual support removal (can be simplified in some cases with soluble supports). Lengthy post-processing is required for a high-quality finish.Washing and post-curing (both can be mostly automated). Simple post-processing to remove support marks.Simple cleaning to remove excess powder.Washing and sintering (both can be mostly automated). Optionally machining and other surface treatments.Stress relief, support removal, heat treatment, as well as machining, and other surface treatments.
MaterialsStandard thermoplastics, such as ABS, PLA, and their various blends.Varieties of resin (thermosetting plastics). Standard, engineering (ABS-like, PP-like, silicone-like, flexible, heat-resistant, rigid), castable, dental, and medical (biocompatible).Engineering thermoplastics, typically nylon and its composites (nylon 12 is biocompatible + compatible with sterilization). Stainless steel, tool steel, inconel, copper, titanium.Stainless steel, tool steel, titanium, cobalt chrome, copper, aluminum, nickel alloys.
Ideal applicationsBasic proof-of-concept models, low-cost prototyping of simple parts.Highly detailed prototypes requiring tight tolerances and smooth surfaces, molds, tooling, patterns, medical models, and functional parts.Complex geometries, functional prototypes, short-run or bridge manufacturing.Strong and durable parts, tooling, and manufacturing aids.Strong, durable parts with complex geometries; ideal for aerospace, automotive, and medical applications.

Calculating cost per part requires accounting for the costs of equipment ownership, material, and labor. It’s helpful to understand the factors that influence each of these cost components, and the questions to ask to evaluate alternative production methods and uncover hidden costs.

Fixed costs, such as the 3D printer cost, service contracts, installation, and maintenance, together make up the equipment ownership cost. These expenses occur regardless of whether your 3D printer stands idle or produces dozens of parts a week.

Distribute equipment ownership costs over individual parts by adding up all of the forecasted fixed costs over the lifetime of the machine and divide the sum by the number of parts that it is expected to produce. As a rule of thumb, the higher the productivity and utilization of your 3D printer, the lower the equipment ownership cost on a per-part basis.

Desktop 3D printers have achieved tremendous progress in recent years in lowering equipment ownership costs. With a price point 10-100 times lower than traditional industrial 3D printers and the capability to produce thousands of parts over their lifetime, the equipment ownership cost can become negligible.

Questions to ask:

  • Are there installation, training, or further initial expenses beside the cost of the machine?

  • Is there a (mandatory) service contract? What does it include?

  • Beyond the machine, what accessories and tools are required to create final parts?

  • What are the maintenance needs of the machine within the normal range of activity? What’s the expected annual cost of maintenance? How does it change if production levels rise?

Raw 3D printing materials and other consumables required to create parts are variable costs. These costs are highly dependent on the number of parts you’re producing.

Measure material cost by calculating the amount of 3D printing material that’s required to create a single part, and multiply it by the cost of the material. Calculate in waste and any other consumables that are needed. While equipment ownership costs decrease as production grows, material costs for 3D printing tend to flatten out quickly.

Make sure to clarify what materials you’ll need to create the given parts, as the cost of consumables for 3D printing varies. Also note that some 3D printers only work with proprietary materials, and thus limit your third-party material options.

Questions to ask:

  • What is the cost of each type of 3D printing material?

  • How much material is required to create a given part, including waste?

  • What’s the shelf life of the materials?

  • Are there other consumables required to create the parts?

  • Can the machine work with third-party materials?

While 3D printing can replace the complex workflows of traditional manufacturing methods and lead to substantial time savings, depending on the 3D printing technology, it can still be a fairly labor-intensive process.

Professional desktop 3D printers are generally optimized for ease of use. DIY 3D printers and hobbyist printers often require more tinkering to get the settings dialed in, whereas regular maintenance or changing materials on traditional industrial machines can involve time-consuming tasks that require a skilled operator.

Post-processing workflows vary by 3D printing process, but in most cases include cleaning parts and removing supports or excess material. There are solutions to automate some of these tasks; for example, Formlabs Form Wash and Form Cure simplify the washing and post-curing workflow for Formlabs SLA 3D printers, and Fuse Sift offers a turnkey post-processing and powder recovery system for the Fuse 1 SLS printer.

To achieve high-quality parts, more advanced processes like SLA and SLS don’t require time-consuming steps, but FDM parts will need lengthy manual post-processing to improve the quality and remove layer lines.

Questions to ask:

  • What is the entire workflow for producing parts? What are the specific steps required to set up a print, change materials, and post-process parts?

  • How much time does it take to post-process a given part?

  • Are there any tools or devices available to automate some of these tasks?

Outsourcing production to service bureaus or labs is recommended when you require 3D printing only occasionally, and for parts that are large or call for non-standard materials. Bureaus generally have several 3D printing processes in-house such as SLA, SLS, FDM, and metal 3D printers. They can also provide advice on various materials and offer value-added services such as design or advanced finishing.

The main downsides of outsourcing are cost and lead time. One of the greatest benefits of 3D printing is its speed compared to traditional manufacturing methods, which quickly diminishes when an outsourced part takes multiple days or even weeks to arrive. With growing demand and production, outsourcing also rapidly becomes expensive.

Desktop 3D printers are great when you need parts quickly. Depending on the number of parts and printing volume, investment into a professional 3D printer can break even within months.With desktop and benchtop machines, you can pay for just as much capacity as your business needs, and scale production by adding extra units as demand grows without making a significant investment in a large-format 3D printer. By using multiple 3D printers, you also get the flexibility to print parts in different materials simultaneously. Service bureaus can still supplement this flexible workflow for larger parts or unconventional materials.

Try our interactive 3D printing ROI calculator to see how much time and cost you can save when 3D printing on Formlabs 3D printers compared to outsourcing.

Investment, materials, and labor costs are relatively easy to calculate. But what about indirect costs and factors that are hard to quantify, but still influence your business? Let’s look at some of the key considerations when comparing desktop 3D printing to outsourcing or other production methods.

Time savings: What if you could bring products to market months faster? Or cut the lead time for your products by days or weeks? 3D printing simplifies traditional prototyping and production workflows, helping you to save time and outpace the competition.

Better results: 3D printing allows you to create more iterations, fail faster, and achieve better end products. Finding and fixing design flaws early also helps to avoid costly design revisions and tooling changes in production.

Communication: Having high-quality prototypes and parts allows you to better communicate with customers, clients, suppliers, and other stakeholders. Avoid confusion and costly mistakes.

IP protection: Do you work with sensitive information? Creating parts in-house means you won’t have to give away intellectual property (IP) to third parties, reducing the risks of leaks or IP theft.

Calculating cost per part, lead time, and comparing alternatives to figure out if a solution makes sense for your business would normally be the strenuous task of creating an elaborate spreadsheet and trying to gather all of the—often hidden—information from a manufacturer. 

To skip this hassle, try our simple, interactive 3D printing cost calculator to calculate 3D printing cost and lead time on Formlabs 3D printers, and to compare time and cost savings to other production methods.

Calculate Cost and Time Savings

How much does a 3D printer cost?

3D printing is a one-stop solution for a wide range of applications, from high-resolution model production to rapid prototyping, rapid tooling for traditional manufacturing processes, production of aids and end-use models.

However, when you consider investing in a 3D printer, the viability of a solution usually boils down to a simple question: Is it cost-effective for your business? How much does a 3D printer cost and how much time and money can it save your business? nine0003

3D printer prices range from $200 to $500,000 depending on the printing process, materials, and complexity of the solution.

In this guide, we'll break down 3D printing costs by technology, compare outsourcing versus in-house manufacturing, list factors to consider when calculating the cost of each model, and look at what else to look for when comparing different solutions. for 3D printing and other production methods. nine0003

Interactive

This interactive ROI tool will help you find out how much time and money you can save by 3D printing with a Formlabs 3D printer.

Calculate Your Costs

The three most well-known plastic 3D printing technologies today are Fused Deposition Modeling (FDM), Stereolithography (SLA), and Selective Laser Sintering (SLS).

Each technology has its advantages and disadvantages - take a look at the infographic:

Download this high resolution infographic here. Interested in learning more about FDM, SLA and SLS 3D printing technologies? Check out our detailed guide.

Prices for 3D printers have dropped significantly in recent years, and today all three technologies are available in compact, low cost systems.

FDM generally produces models at a lower cost if you only print relatively simple prototypes in limited numbers. SLA technology offers higher resolution and quality, as well as a wide choice of 3D printing materials at a slightly higher price. But this difference is quickly offset when you print complex designs or larger batches due to the less labor-intensive post-processing process. Finally, SLS technology is the most cost effective for medium to high volume production of high quality functional models. nine0003

Comparing the total cost of different 3D printers by price tags alone will not give you a complete picture of how the cost of a 3D printer and a printed model will compare. The cost of 3D printing materials and labor significantly affects the cost of a model, depending on the application and your production needs.

Let's look at the different factors and costs for each process.

FDM, also known as Fused Filament Manufacturing (FFF), is a printing method where the parts of a model are made by melting and extruding a thermoplastic filament, which the printer's nozzle applies layer by layer onto the model being made. nine0003

FDM is the most popular form of consumer grade 3D printing, fueled by the proliferation of hobbyist 3D printers. However, professional and industrial FDM printers are also popular among professionals.

The cheapest 3D printers are FDM printers. DIY kits for FDM 3D printers start at $200. However, most of these models are more like toys or DIY projects that require a significant amount of time to build, set up and calibrate. The quality of the print largely depends on the success of these operations. In addition, machines require repairs and regular maintenance to keep them working, so they are more suitable for people with a higher engineering education who have a lot of time and patience. nine0003

Hobbyist FDM 3D printers cost between $500 and $1,500, come pre-assembled or unassembled, require less setup, but have the same disadvantages as the cheapest 3D printers. More expensive models are capable of large print volumes and work with a wide variety of materials besides low temperature ones such as PLA.

Professional 3D FDM printers start at $2,500 and large format professional FDM printers are available from $4,000. The cost of the most modern industrial FDM printers can exceed 10,000 US dollars. Most of these printers come pre-assembled and calibrated in the box, or they can be automatically calibrated. Printers in this category offer better print quality, a wider range of media, higher print volumes, improved reliability, and ease of use and maintenance. In addition, professional 3D printer manufacturers offer customer support services for troubleshooting. nine0003

Material costs for FDM 3D printing range from $50 to $150/kg for most standard and engineering filaments, and $100 to $200/kg for auxiliary materials. There are also cheaper alternatives, but they are of lower quality.

In addition, FDM printing can be very labor intensive. Successful printing of complex models requires support structures that must be removed manually or dissolved in water. To obtain a high quality surface and remove layer lines, lengthy manual post-processing of models, such as sanding, is necessary. nine0003

SLA 3D printers use the process of photopolymerization, that is, the conversion of liquid polymers into hardened plastic using a laser. SLA is one of the most popular processes among professionals due to its high resolution, accuracy and material versatility.

Models printed on SLA printers have the highest precision, sharpest detail and smoothest surface possible of any plastic 3D printing technology. But the main advantage of the SLA method is its versatility. SLA polymers have a wide range of optical, mechanical and thermal properties that match those of standard, engineering and industrial thermoplastics. nine0003

SLA 3D printers can handle a wide range of resin materials for a wide variety of applications.

SLA used to be used only in large and complex industrial 3D printers costing over $200,000, but the process is now much more affordable. With the Formlabs Form 3+ Printer, businesses can now use industrial quality SLA printing for as little as $3,750. With Form 3L, large format SLA printing starts at just $11,000. nine0003

Stereolithographic 3D printers will be shipped in a box assembled and calibrated. These are professional tools that are highly reliable and require virtually no maintenance. Technical support is also always available. It provides troubleshooting in a critical situation (but its probability is extremely small).

Most standard and engineered polymers for SLA technology cost between $149 and $200 per liter. nine0003

SLA printers are easy to use and many workflow steps such as rinsing and final curing can be automated to reduce labor costs. Printed models have a high quality surface immediately after printing and require only simple post-processing to remove supporting structures.

Selective Laser Sintering (SLS) 3D printers use a high power laser to sinter fine polymer powder particles. The unsprayed powder supports the model during printing and eliminates the need for special support structures. This makes SLS ideal for complex geometries, including internal features, grooves, thin walls, and negative taper. nine0003

Models produced using SLS printing have excellent mechanical characteristics - their strength can be compared with the strength of injection molded parts. As a result, SLS technology is the most popular plastic 3D printing process for industrial applications.

SLS printed nylon models are ideal for a range of functional applications, from consumer product design to healthcare applications.

Like SLA, SLS was previously only available in large format, complex 3D printing systems costing $200,000 or more. With the Formlabs Fuse 1 stereolithography printer, businesses can now solve industrial-scale tasks with SLS technology starting at $18,500. The complete kit, which includes the post-processing and powder recovery system, costs $31,845.

As with SLA printers, stereolithographic printers are shipped assembled and calibrated in the box. They are reliable and can operate 24/7. The package includes in-depth training and fast technical support. nine0003

SLS nylon print materials cost about US$100/kg. SLS does not require supporting structures and unused powder can be reused, reducing material costs.

SLS is the least labor-intensive plastic 3D printing process in the production environment, because the printed models are of high quality right away, and to remove excess powder, they simply need to be cleaned.

There are several processes for 3D printing not only plastics but also metals. nine0003

Metal FDM printers are similar in design to traditional FDM printers, but use extruded metal rods held together by a resin binder. The finished parts of the model are sintered in an oven to remove the binder.

SLM and DMLS printers are similar to SLS printers, but instead of polymer powders, they fuse metal powder particles layer by layer using a laser. 3D printers based on SLM and DMLS technologies can create strong, precise and complex metal products, making this process ideal for the aerospace, automotive and medical industries. nine0003

Prices for metal 3D printers have also begun to decline, ranging from $100,000 to $1 million today. However, these systems are still out of reach for most businesses.

SLA 3D printing is available as an alternative for casting workflows that allow metal models to be produced cheaper and faster than traditional methods and provide greater design freedom.

Technical report

Get design guides for 3D printing samples, see the step-by-step direct investment casting process, and study guides for indirect investment casting and sand casting.

Download white paper

Different plastic and metal 3D printing processes have unique qualities that make them suitable for different applications. Below is a comparison of different printing technologies.

Fused Deposition Modeling (FDM) Stereolithography (SLA) Selective Laser Sintering (SLS) Metal FDM Printing Selective Laser Melting (SLM) and Direct Metal Sintering (19008) 9008
Permission ★☆ ★ opa ★ ution ★ opa ★ opa ★ opa ventary
Surgery ★ opa ☆ 1111111 ☆☆☆ 1 ☆ ★ opa
Ease of use x 300 x 600 mm (Desktop and Workshop 3D printers) Up to ~300 x 335 x 200 mm (Desktop and Workshop 3D printers) Up to 165 x 165 x 300 mm (3D - workshop printers) Up to 300 x 200 x 200 mm Up to 400 x 400 x 400 mm
Price range DIY kits for 3D printers start at $200 and hobby printers cost $500-1500. Professional 3D FDM printers start at $2,500, while large format professional FDM printers are available from $4,000. Professional desktop printers start at $3,750 and high-volume large format desktop printers are available from $11,000. nine0112 Workshop industrial printers start at $18,500 and traditional industrial printers start at $100,000. Metal FDM printers start at $100,000, but complete solutions including an oven are much more expensive. DMLS/SLM solutions start at around $200,000. These printers require special infrastructure conditions, which can further increase costs.
Cost of materials US$50-150/kg for most standard and engineering yarns and US$100-200/kg for auxiliary materials. US$50-150/L for most standard and engineering polymers. US$100/kg for nylon. SLS does not require supporting structures and unused powder can be reused, reducing material costs. Depends on material and technology. Significantly higher than plastic. Depends on material and technology. Significantly higher than plastic. nine0112
Labor Manual removal of support structures (soluble support structures may be used in some cases). Long post-processing is required to obtain a high quality surface. Washing and final polymerization (both can be automated). Simple post-processing to remove supporting structures. Easy cleaning to remove excess powder. Washing and sintering (both can be automated). It is possible to use mechanical processing and other types of surface treatment. nine0112 Stress relief, support structure removal, heat treatment, and mechanical and other surface treatments.
Materials Standard thermoplastics such as ABS, PLA and their various blends. Various polymers (thermosetting plastics). Standard, engineering (similar to ABS and PP, similar to silicone, flexible, heat resistant, rigid), injection molding, dental and medical (biocompatible). nine0112 Engineering thermoplastics - typically nylon and its composites (nylon 12 biocompatible + sterilizable). Stainless steel, tool steel, inconel, copper, titanium. Stainless steel, tool steel, titanium, cobalt-chromium, copper, aluminium, nickel alloys.
Applications Basic experimental models, low cost rapid prototyping of simple parts. Prototypes with a high level of detail requiring close tolerances and smooth surfaces: molds, tooling, templates, medical models and functional parts. nine0112 Complex geometries, functional prototypes, low volume production or limited trial production. Strong and durable models, tools and production aids. Strong and durable models with complex geometries; ideal for the aerospace, automotive and medical industries.

When calculating the cost of one model, the cost of ownership of equipment, material costs and labor costs are usually taken into account. It is important to understand the factors that affect each of these cost components, as well as the questions to ask in order to evaluate alternative production methods and uncover hidden costs. nine0003

Hardware ownership costs are fixed costs: 3D printer price, service contracts, installation and maintenance. These amounts must be paid whether your printer is idle or produces dozens of models per week.

Add up all projected fixed costs over the lifetime of the equipment, then divide by the number of models you plan to make. As a rule, the higher the performance and efficiency of your 3D printer, the lower the cost of ownership of equipment per model. nine0003

In recent years, desktop 3D printers have shown excellent results in reducing the cost of ownership of equipment. With a price 10 to 100 times lower than traditional industrial 3D printers and the ability to produce thousands of models over a lifetime, the cost of ownership can be negligible.

Questions:

  • Are there installation, training or additional initial costs other than the cost of the machine itself? nine0003

  • Do I need to sign a (mandatory) service contract? What does it include?

  • What accessories and tools are needed to make the final models?

  • What kind of maintenance is required for the machine to function properly? What is the expected annual maintenance cost? Will it change with an increase in production volumes?

The 3D printing raw materials and consumables you need to create models at an affordable price. These costs largely depend on the number of models you produce. nine0003

When calculating the cost of materials, determine how much material is required to create one model, and multiply this figure by the cost of the material. Count the amount of waste and any other consumables. As production grows, the cost of ownership of equipment decreases, and the cost of 3D printing materials tends to become more balanced.

Be sure to check what materials you need to create specific models, as the cost of 3D printing consumables can vary greatly. Please note that some 3D printers only work with their proprietary materials and thus limit your ability to use third party materials. nine0003

Questions:

  • What is the cost of each type of 3D printing material?

  • How much material is required to create one particular model, including waste?

  • What is the shelf life of the materials?

  • Do I need other consumables to create models?

  • Can the machine work with third-party materials?

While 3D printing can replace complex traditional manufacturing methods and provide significant time savings, depending on the 3D printing technology, it can still be quite labor intensive. nine0003

Professional desktop 3D printers are generally optimized for ease of use. DIY kits for 3D printers and hobby printers often require additional effort to adjust settings, while regular maintenance or material changes on traditional industrial machines can involve time-consuming tasks that require the assistance of a skilled operator.

Post-processing workflows vary depending on the 3D printing process, but in most cases include cleaning up models and removing support structures or excess material. However, there are solutions to automate some specific tasks. For example, Formlabs Form Wash and Form Cure simplify the wash and finish process for Formlabs SLA 3D printers, while Fuse Sift offers a turnkey post-processing and powder recovery system for the Fuse 1 SLS printer. nine0003

More complex processes such as SLA and SLS do not take long to achieve high quality models, while FDM models require lengthy manual post-processing to improve quality and remove layer lines.

Questions:

  • What is the whole model production workflow? What specific steps are required to set up printing, change materials, and post-process models?

    nine0298
  • How long does it take to post-process one specific model?

  • Are there any tools or devices available to automate some of these tasks?

Outsource production orders to 3rd party service bureaus or labs when you use 3D printing only occasionally or to produce large models in non-standard materials. Typically, the bureau has several in-house 3D printing processes such as SLA, SLS, FDM, as well as metal 3D printers. They can also provide advice on a variety of materials and offer additional services such as design or improved finishes. nine0003

The main disadvantages of outsourcing are the high cost and duration of production. One of the main advantages of 3D printing is its speed compared to traditional production methods. But it is noticeably reduced if the delivery of the model produced by the involved organization takes several days or even weeks. And as demand and capacity grow, the costs of outsourcing are rising rapidly.

Desktop 3D printers are the perfect solution for fast model production. Depending on the number of parts needed and the volume of prints, the investment in a professional 3D printer can pay for itself in just a few months. nine0003

With desktop and workshop printers, you can pay for the capacity that matches your business needs and scale your production by adding more devices as demand grows, without the heavy investment of a large format 3D printer. Using multiple 3D printers also allows you to print models from different materials at the same time. But if there is a need for the production of large parts or the use of non-standard materials, service bureaus can come to the rescue. nine0003

Investment, material and labor costs are relatively easy to calculate. But what about indirect costs and hard-to-calculate factors that affect your business? Let's look at some of the main considerations when comparing a desktop 3D printer to outsourcing or other manufacturing methods.

Save time: What if you could get products to market a few months faster? Or reduce the delivery time of your products by a few days or weeks? 3D printing simplifies traditional prototyping and manufacturing workflows, helping you save time and stay ahead of the competition. nine0003

Top results: 3D printing allows you to create more iterations, overcome failures faster, and produce better end products. Troubleshooting a design early on also helps avoid costly redesign and the use of additional tools.

Interaction: Having high-quality prototypes and models allows you to communicate more effectively with customers, clients, suppliers and other stakeholders. Avoid misunderstandings and costly mistakes. nine0003

Intellectual Property Protection: Do you work with confidential information? Making your own models means you don't have to transfer intellectual property (IP) to third parties, reducing the risk of IP leakage or theft.

Usually, calculating cost per part, lead time, and comparing alternatives to see if a solution is right for your business is a tedious task of creating a complex spreadsheet in an attempt to collect all of the often hidden information from a manufacturer. nine0003

Use our simple online tool to calculate cost per model and order lead time when printing with a Formlabs stereolithographic 3D printer and compare time and cost savings with other manufacturing methods.

Calculate cost and time

How much does a 3D printer cost?・Cults

How much does a 3D printer cost? This question is asked by many beginners, hobbyists and enthusiasts. While the answer may be a little complicated, our goal is to simplify the process and help you choose the right printer for your skill level. There are many different 3D printers on the market. Some are small, cheap, and designed for do-it-yourselfers, others are full of features and cost much more. nine0003

However, this does not mean that you have to spend a fortune to get a good printer. The cost of 3D printers has come down a lot over the years and you can now find good 3D printers for under $300. While they may not have some of the features found on a $20,000 printer, you can still use them to create interesting projects. Many of these cheap printers are for beginners, hobbyists, or those who want to learn how to 3D print. nine0003

So how much does a 3D printer cost? Basically, you can find starter models for $200. Mid-range consumer models start at around $700, while commercial or high-end consumer models will set you back thousands of dollars. In this article, we will answer some questions about 3D printers and provide you with an informative guide to choosing the best printer for your skill level.

If you're an engineer, artist, inventor, hobbyist, or just a tinkerer, a 3D printer is definitely worth it. 3D printers are very useful for creating models of machines, parts, fixtures, gears, and other complex shapes. This technology is used in many areas, including aerospace, medicine, all kinds of mechanical engineering, etc. nine0003

If you love building, fixing and fiddling with things, a 3D printer can be a great addition to your equipment. However, if you're not into any of the above areas or hobbies, getting a 3D printer might not be worth it. In addition, before purchasing a printer, you need to make sure that you are technically literate enough to operate it. This is because such printers require regular updates/upgrades and the learning curve can be quite steep. nine0003

You will need to regularly buy filaments, learn how to design in 3D CAD or use other modeling software. Also, you may have to fiddle with your machine settings before you find the right fit. If you are completely new, using a 3D printer will take you a lot of time and you may end up spending a lot of money on filaments and other materials. However, once you get the hang of it, 3D printing can quickly turn into one of the most enjoyable activities or hobbies one can indulge in. nine0003

In addition to the initial purchase cost, the cost of using a 3D printer can quickly increase depending on the model you purchase. For the cheapest models, you will have to constantly buy printer upgrades. Therefore, it is recommended to purchase a high-quality printer with better specifications so that you do not have to upgrade from time to time.

Another item that can increase the cost of a 3D printer is filaments. They usually sell for around $25 per kilo, so beginners are advised to buy them in small quantities. This is because you will need multiple colors to create models, and buying a kilo of each can quickly add up to hundreds of dollars. Another thing you will waste is time. If you're just getting started, you'll have to take the time to learn about your printer, how to make great 3D prints, the right software and updates, color combinations, material composition, and many other important factors. nine0003

Definitely yes. In fact, there are many different ways to make money with 3D printers. Below are the top four ways to make money with these printers:

  • Prototyping and selling : You can make money by offering to prototype for local engineering firms. Since 3D printing involves learning how to create 3D designs, you can sell your designs or create designs for engineering firms.
  • Sell your prints : You can sell your printed objects online. Create a website or social media campaign and sell your designs. You can also create custom prints for your clients; they will provide you with the design and you will print it for them.
  • Sell your designs : You don't have to print to make money. You can just sell your 3D designs and skip the whole printing process.
  • Educate others : Many people are interested in the knowledge you have about printing. Engineers, students, DIYers and hobbyists will be happy to learn from you. You can simply charge them and teach them how to use and set up their own printers, what materials to use, how to print, and so on. nine0298

As we noted above, the cost of 3D printers has dropped significantly as there are now models that have few features but are cheaper. Basically, there are five different types of 3D printers based on price. These are entry-level printers for hobbyists, enthusiasts, professional and industrial printers. The price of machines in each category depends on the functions, size and capabilities of the machine. Let's take a closer look at each of these categories:

Entry level 3D printers

Entry-level 3D printers designed for beginners. They are mainly used to climb the learning curve. You can buy these to learn how to 3D print before moving on to higher models. While you won't be able to create complex prints, you will be able to understand how a 3D printer works.

This type of printer has its limitations. First, you won't be able to print more than 3-4 inches in any dimension, be it height, width, or length. Also, many of these printers do not allow you to use more than one media at a time. In addition, they are slow and noisy, and the quality of their products is not as beautiful as that of expensive models. Also, the highest resolution that most entry-level printers offer is 100 microns. nine0447 In addition, entry-level printers are not very durable. However, they are a great learning tool and can serve as a good stepping stone to dive deeper into the world of 3D printers. Now to answer the question, how much does a 3D printer cost? A typical entry-level printer will cost between $200 and $400.

3D printers for hobbyists

Hobbyists are those who have plunged into the world of 3D printing a little, fell in love with it and were carried away by it. They just want to improve their 3D printing skills by making models just for fun. Although 3D printers in this category are slightly better than entry-level models, they still cannot offer a result that goes beyond fun creativity. Their build volume is larger and you will be able to make more models with these printers. 3D printers for hobbyists allow you to create designs as small as 5-6 inches. Prints are thinner than entry-level printers and usually have better software. nine0003

They are faster than entry-level models and allow more flexibility in material selection. This means that with machines in this category you can be even more creative. However, it is important to note that while they may be better than entry-level models, they are not very durable and their performance is not reliable. This means that they may not be able to withstand too much load, and you will not be able to use them for a long time. So how much does a 3D printer cost? They usually cost between $300 and $1500. There are many different products on the market in this price range and choosing the right one can be a daunting task. We recommend taking a look at this guide to 3D printers under $500 from HotRate. nine0003

Enthusiast 3D printers

Becoming a 3D printing enthusiast means you've decided to level up and now consider it more than just a hobby. This is a big leap that requires better and more powerful hardware than those in the hobbyist category. Printers in this category are known for their reliability and high build volume. They are quieter and slightly faster than hobbyist machines. In addition, they can print up to 12 inches in any dimension and allow for a wider choice of materials. nine0003

However, they also have their downsides. Some of them only work with branded media, which means you can't just buy any type of media and run it into the printer. Also, while their prints and output are usually better than hobbyist printers, they cannot be used for production. This is because they are not professional machines and cannot be used for a long time.
You will need regular maintenance and repairs. Enthusiast 3D printers are ideal for regular use, but can break down with constant use. How much does a 3D printer in this category cost, you ask? Be prepared to spend $1500 to $3500. nine0003

Do you consider yourself experienced enough and would like to monetize your 3D printing skills? Or maybe you just want to take your hobby to the next level by creating professional models? Be that as it may, a professional 3D printer is one that is capable of working for you. The print quality on them is first class and they are capable of printing up to 12 inches in any dimension. In addition, they are flexible regarding materials. You can use a variety of media in the machine without worrying about color or texture. They can also print faster than the categories we talked about earlier without sacrificing quality. nine0003

The price of a printer for a professional printing press is quite high. Therefore, to ensure that you are purchasing the best 3D printing machine, be sure to read real user reviews. Consider the pros and cons of the machine you want to purchase. Read up on how to maintain it, what materials to use, how best to set it up, etc. Make a list of important factors and go through them one by one.
The price of a printer for machines in this category is expensive, so checking all the right boxes before making a purchase decision is very important. So back to our original question, how much does a 3D printer cost in this category? A typical professional 3D printer costs between $3,500 and $6,000. They are commonly used by robotics clubs, schools, and businesses large and small. nine0003

Industrial 3D printers designed for serious print businesses. They are simply the best and fastest cars in all categories. Their characteristics are at the highest level, they are very durable, as they are made of metal. In addition, their interfaces are user-friendly and they are very efficient. Industrial 3D printers are large and can accommodate many different types of custom prints. They also come with a hefty price tag, but that's to be expected given the fact that they're made for businesses and their construction is top-notch. nine0003

Industrial 3D printers are large and heavy, which can be a problem if you don't have enough space. In addition, the cost of 3D printing with these machines can run into the thousands of dollars over time. Obviously, these machines consume more electricity, materials and require a high level of maintenance than printers in other categories. That is why they are recommended only for enterprises and manufacturers.


Learn more