Looking for the perfect 3D printer to boost your factory’s productivity? With so many options out there, it’s easy to feel lost—and a wrong choice could mean wasted time, money, and missed opportunities. Finding a reliable manufacturer isn’t just about price; it’s about performance, support, and the freedom to scale your business confidently. The right 3D printer supplier can transform your production line for the better. Curious which brands top the list?

Read on to discover our picks for the best 3D printer manufacturers for factories.

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7 Best Industrial 3D Printers in 2024 – 3DSourced

Product Details:
Industrial 3D printers reviewed include the Ultimaker S7 (professional-grade FDM printer with dual extrusion), Sinterit Lisa (entry-level industrial SLS printer), and Raise3D Pro2 Plus (affordable, versatile FDM printer for small businesses). Other mentioned models are Ultimaker S5, Formlabs Form 3, Intamsys Funmat HT, and Nexa3D QLS 236.

Technical Parameters:
– Ultimaker S7: Build volume 330 x 240 x 300 mm, Weight 30kg, Printing
– Sinterit Lisa: Build volume 110 x 150 x 150 mm, Weight 41kg, Printing
– Raise3D Pro2 Plus: Build volume 305 x 305 x 605 mm, Weight 52kg, Printing

Application Scenarios:
– Product design firms requiring high-quality, professional prints
– Machine shops and mid-range users needing reliable and accurate prototyping
– Small businesses with limited budgets starting industrial 3D printing
– Batch printing complex geometries using SLS technology

Pros:
– Ultimaker S7: Professional-grade print quality, easy setup and operation,
– Sinterit Lisa: Efficient batch printing of complex geometries with SLS
– Raise3D Pro2 Plus: Affordable, high reliability, accuracy, versatile filament

Cons:
– Ultimaker S7: Moderate print speed, significant operational noise, support
– Detailed pricing not always clearly listed for some models
– Sinterit Lisa: Smaller build volume than FDM options

11+ Best 3D Printers for Manufacturing: Industrial, Commercial … – Nexa3D

Product Details:
Nexa3D offers ultrafast resin 3D printers for manufacturers, designers, and engineers, featuring advanced Lubricant Sublayer Photo-curing (LSPc) technology. Key models include the Nexa3D XiP (professional desktop), NXE 400Pro (industrial), and XiP Pro (industrial), each optimized for rapid prototyping and production-grade manufacturing.

Technical Parameters:
– Nexa3D XiP: Desktop size, print speeds up to 180 mm/h, 4.8L build volume, open
– NXE 400Pro: 17L build volume (274 x 155 x 400 mm), 6.5x faster than typical
– XiP Pro: 19.5L build volume, highest production throughput in class, 10″

Application Scenarios:
– Rapid prototyping for engineering, dental, and other professional industries.
– Batch production and final-use parts manufacturing (e.g., acoustic instrument
– Manufacturing scenarios demanding high speed, large build volume, and

Pros:
– Exceptional print speed (up to 10x faster than competitors) without sacrificing
– Large build volumes across desktop and industrial options.
– Open material platform supports third-party resins for broad material
– Advanced self-lubricating membrane reduces delamination and enables high

Cons:
– Aimed at professional and industrial users; not suitable for 3D printing
– Large industrial models may not fit smaller or desktop-focused printing

10 Best Industrial 3D Printers in 2025 for Large-Scale Manufacturing

Product Details:
The Stratasys F900, HP Jet Fusion 5200 Series, and EOS M 400-4 are advanced industrial 3D printers designed for large-scale, high-speed manufacturing using a variety of materials including thermoplastics and metals, enabling production of complex and customized parts for industries such as aerospace, automotive, and healthcare.

Technical Parameters:
– Stratasys F900: Build volume 914 x 610 x 914 mm; supports 15 production-grade
– HP Jet Fusion 5200: Build volume 380 x 284 x 380 mm; full build prints in 9.5
– EOS M 400-4: Build volume 400 x 400 x 400 mm; utilizes four 400-watt lasers for

Application Scenarios:
– Aerospace: Large, complex components like ducting and tooling; metal and
– Automotive: Manufacturing jigs, fixtures, prototypes, end-use parts like
– Healthcare: Custom medical devices, surgical tools, prosthetics and implants
– Consumer Goods: Durable items such as sports equipment and custom production

Pros:
– Large build volumes suitable for big or complex parts.
– Support for a wide range of high-performance materials, including metals and
– High printing speeds and productivity, especially with automation and
– Ideal for both prototyping and end-use industrial manufacturing with consistent

Cons:
– High initial equipment costs and potentially expensive consumables.
– Significant space requirements—large physical footprint may not fit all
– Some models require regular maintenance and complex setup or dedicated
– Certain printers have limited material choices compared to broader market.

3D Printing in Manufacturing: Benefits and Challenges – UltiMaker

Product Details:
Ultimaker offers a range of industrial 3D printing solutions utilizing multiple additive manufacturing technologies, including FDM/FFF, SLA/DLP, SLS/MJF, and support for metal 3D printing methods. Their services encompass hardware, materials, and application-specific expertise for manufacturing industries.

Technical Parameters:
– Supports multiple 3D printing technologies: FDM/FFF, SLA/DLP, SLS/MJF, DMLS/SLM
– Compatible with a wide range of materials: ABS, PLA, PEEK, ULTEM, various
– Layer-by-layer additive process offering variable build volumes, high precision
– No need for support structures in SLS/MJF processes; specialized software

Application Scenarios:
– Functional prototypes, jigs, and fixtures in manufacturing
– Low-volume production of industrial parts and aerospace components
– Rapid prototyping and wind tunnel models for aerospace testing
– Production of high-detail models for dental, jewelry, and customized medical

Pros:
– Cost-effective for short runs and low-volume production
– Wide material compatibility, including advanced engineering and metal materials
– Enables complex geometries and lightweight, optimized structures impossible
– Accelerates design iteration, prototyping, and product development cycles

Cons:
– Some technologies (e.g., resin-based or metal) may involve higher costs or
– Material choices and mechanical properties can vary greatly by technology,
– Surface finish and part accuracy may differ across technologies (e.g., FDM vs.
– Not all technologies are suitable for high-volume mass production

HP Industrial 3D printers – From Adoption to Scale: A complete 3D …

Product Details:
HP offers a range of 3D printing solutions, along with industrial, large-format, and specialized printers. Their portfolio includes printers for home, business, and enterprise use, as well as printing services, inks, toners, and related accessories.

Application Scenarios:
– 3D printing for prototyping and manufacturing
– Enterprise-level printing for large organizations
– Printing solutions for government and education sectors
– Home and small business printing needs

Pros:
– Wide range of products covering various printing needs
– Support for different industries including education, government, and
– Comprehensive accessory and supply options such as ink, toner, paper, and care
– Availability of printing plans like Instant Ink and HP All-In Plan to manage

Cons:
– Technical details and parameters for specific 3D printers are not clearly
– May require navigating multiple product categories to find exact 3D printing

Explore Industrial 3D Printing Solutions | Stratasys Additive Printing

Product Details:
Industrial 3D printing solutions for various sectors, with guidance provided to match customer knowledge, industry, and interests in additive manufacturing.

Application Scenarios:
– Aerospace
– Automotive
– Medical
– Dental
– Other industrial sectors

Pros:
– Personalized guidance based on user knowledge and industry
– Supports a wide range of application industries
– Offers exploration of printer options, materials, and industry case studies

Best Industrial 3D Printer: Top Picks for Manufacturing in 2025 – PC Guide

Product Details:
The website reviews and recommends four key industrial 3D printers: JG MAKER A9 Pro (Editor’s Pick), Raise3D Pro2 Plus (Best for Different Filaments), Dremel DigiLab 3D45 (Best Budget), and JG MAKER 800SE (Best Large Printer), each targeting different industrial needs and budgets.

Technical Parameters:
– JG MAKER A9 Pro: Build Volume 500mm x 400mm x 600mm; Filament: PLA, ABS, PETG,
– Raise3D Pro2 Plus: Build Volume 305mm x 305mm x 605mm; Filament: PLA, PETG, ABS
– Dremel DigiLab 3D45: Build Volume 254mm x 152mm x 170mm; Filament: PLA, ABS,
– JG MAKER 800SE: Build Volume 800mm x 800mm x 500mm; Filament: Silicone;

Application Scenarios:
– Manufacturing processes requiring large or high-precision parts
– Architectural modeling and engineering prototypes
– Organizations or businesses needing material versatility (especially Raise3D
– Budget-conscious businesses seeking industrial-grade capability (Dremel DigiLab

Pros:
– Large build volumes for producing sizable prints (notably JG MAKER A9 Pro and
– Wide filament compatibility for diverse industrial applications (Raise3D Pro2
– High print resolution and precise controls (JG MAKER A9 Pro)
– Some models offer features like automatic leveling and magnetic printheads

Cons:
– Slower print speed may not be suitable for all high-throughput industrial uses
– Some printers may offer limited filament compatibility for certain use-cases (e

3D Printing Guide: Types of 3D Printers, Materials, and Applications

Product Details:
Formlabs offers professional-grade 3D printers utilizing stereolithography (SLA) and selective laser sintering (SLS) technologies for precise and high-quality part production. Their product line includes the Form 3, Form 3B, Form 3L, Form 3BL (SLA printers), and the Fuse 1 (SLS printer), accompanied by post-processing units such as Form Wash, Form Cure, and Fuse Sift.

Technical Parameters:
– Print technologies: Low Force Stereolithography (LFS) and Selective Laser
– Build volume: up to 335 x 200 x 300 mm for SLS (Fuse 1) and up to 33.5 × 20 ×
– Layer thickness as fine as 25 microns
– Material compatibility: wide selection of proprietary resins and nylon powders,

Application Scenarios:
– Rapid prototyping of functional parts and prototypes
– Dental and medical modeling, including biocompatible applications
– Engineering, product design, and industrial manufacturing (low-volume
– Education and research

Pros:
– High resolution and surface quality suitable for end-use parts and prototypes
– Automated, easy-to-use workflow with integrated software and post-processing
– Broad material range including specialty, engineering, and biocompatible options
– Cost-effective compared to traditional manufacturing and other industrial 3D

Cons:
– Proprietary material ecosystem limits third-party material use
– Post-processing (washing, curing, powder recovery) required and adds extra steps
– Initial investment may be relatively high for small businesses or hobbyists

Manufacturing 3D Printer | Raise3d 3D Printers for the Manufacturing …

Product Details:
Raise3D offers a range of 3D printers tailored for manufacturing, including models with FFF, SLS, and DLP technologies. The lineup covers dual-extrusion printers, high-speed and high-precision options, large-format machines, and systems compatible with specialty materials such as fiber-reinforced filaments and carbon fiber composites. The company also provides printing services, compatible materials, and a software ecosystem.

Technical Parameters:
– FFF, SLS, and DLP printer technologies
– Dual extrusion and IDEX capabilities
– Printing speeds up to 300mm/s (Pro3 HS Series)
– Large-format printing up to 500 × 500 × 500 mm (RMF500)
– Support for high-strength, flexible, and fiber-reinforced materials
– Enclosed build chambers, HEPA filters, RFID traceable workflow

Application Scenarios:
– Rapid prototyping for manufacturing and product development
– Low-volume production of end-use parts and components
– Production of jigs, fixtures, and tooling for industrial uses
– Printing specialty items for automotive, aerospace, medical, architectural, and

Pros:
– Wide range of printer options covering different technologies and applications
– High-speed, high-precision, and large-format printing available
– Support for diverse and advanced materials, including fiber-reinforced and
– Integrated software solutions and traceable workflows (RFID, ideaMaker,

Cons:
– No specific mention of disadvantages or limitations on the web page
– Potentially higher complexity and cost for industrial-focused features
– Large machines may require significant workspace and investment

On the Use of 3D Printers in Lean Manufacturing

Product Details:
3D printing (additive manufacturing) solutions, primarily using fused deposition modeling (FDM)/fused filament fabrication (FFF) machines, focused on creating customized tools, prototypes, and aids for lean manufacturing environments, especially for shop floor use.

Technical Parameters:
– Fused Deposition Modeling (FDM) technology used for shop floor printers
– Industrial-grade FDM/FFF machines cost a few thousand dollars; consumer models
– Builds objects layer by layer from a digital model using heated plastic filament
– Alternative methods (laser sintering/melting, stereolithography) are more

Application Scenarios:
– Production of customized assembly aids and fixtures (e.g., cleaning frames for
– Rapid prototyping and testing of parts and tooling
– Creation of end-use parts for small quantities or highly customized products
– Shop floor use for making tools by frontline operators to improve workflow

Pros:
– Enables rapid creation of complex, custom shapes without the need for
– Reduces material waste compared to traditional subtractive processes
– Improves production efficiency and quality, particularly when used for shop
– FDM/FFF printers are relatively safe, clean, easy to use, and financially

Cons:
– Certain 3D printing methods (laser, stereolithography) are too expensive or
– FDM/FFF consumer-grade printers may lack sufficient performance for industrial
– Printed tools, such as plastic molds, may have lower durability compared to

Comparison Table

Company	Product Details	Pros	Cons	Website
7 Best Industrial 3D Printers in 2024 – 3DSourced	Industrial 3D printers reviewed include the Ultimaker S7 (professional-grade	Ultimaker S7: Professional-grade print quality, easy setup and operation,	Ultimaker S7: Moderate print speed, significant operational noise, support	www.3dsourced.com
11+ Best 3D Printers for Manufacturing: Industrial, Commercial … – Nexa3D	Nexa3D offers ultrafast resin 3D printers for manufacturers, designers, and	Exceptional print speed (up to 10x faster than competitors) without sacrificing	Aimed at professional and industrial users; not suitable for 3D printing	nexa3d.com
10 Best Industrial 3D Printers in 2025 for Large-Scale Manufacturing	The Stratasys F900, HP Jet Fusion 5200 Series, and EOS M 400-4 are advanced	Large build volumes suitable for big or complex parts. Support for a wide range	High initial equipment costs and potentially expensive consumables. Significant	3dprinteddecor.com
3D Printing in Manufacturing: Benefits and Challenges – UltiMaker	Ultimaker offers a range of industrial 3D printing solutions utilizing multiple	Cost-effective for short runs and low-volume production Wide material	Some technologies (e.g., resin-based or metal) may involve higher costs or	ultimaker.com
HP Industrial 3D printers – From Adoption to Scale: A complete 3D …	HP offers a range of 3D printing solutions, along with industrial, large-format	Wide range of products covering various printing needs Support for different	Technical details and parameters for specific 3D printers are not clearly	www.hp.com
Explore Industrial 3D Printing Solutions	Stratasys Additive Printing	Industrial 3D printing solutions for various sectors, with guidance provided to	Personalized guidance based on user knowledge and industry Supports a wide
Best Industrial 3D Printer: Top Picks for Manufacturing in 2025 – PC Guide	The website reviews and recommends four key industrial 3D printers: JG MAKER A9	Large build volumes for producing sizable prints (notably JG MAKER A9 Pro and	Slower print speed may not be suitable for all high-throughput industrial uses	www.pcguide.com
3D Printing Guide: Types of 3D Printers, Materials, and Applications	Formlabs offers professional-grade 3D printers utilizing stereolithography	High resolution and surface quality suitable for end-use parts and	Proprietary material ecosystem limits third-party material use Post-processing	formlabs.com
Manufacturing 3D Printer	Raise3d 3D Printers for the Manufacturing …	Raise3D offers a range of 3D printers tailored for manufacturing, including	Wide range of printer options covering different technologies and	No specific mention of disadvantages or limitations on the web page Potentially
On the Use of 3D Printers in Lean Manufacturing	3D printing (additive manufacturing) solutions, primarily using fused	Enables rapid creation of complex, custom shapes without the need for	Certain 3D printing methods (laser, stereolithography) are too expensive or	www.allaboutlean.com

Frequently Asked Questions (FAQs)

What key features should I look for in a 3D printer for manufacturing?
Focus on print speed, build volume, material compatibility, accuracy, and reliability. Also, consider ease of maintenance, software compatibility, and whether the printer supports industrial-grade filaments or resins suited to your applications.

How do I determine the right supplier for my 3D printing needs?
Look for suppliers with experience in industrial-grade printers, good technical support, extensive warranty options, and readily available spare parts. Request client references and inquire about post-sale training or installation services.

What certifications or standards should a manufacturing 3D printer meet?
Ensure the printer complies with relevant safety standards (like CE, UL), and industry-specific certifications if needed. For aerospace or medical applications, check for ISO certifications and compliance with sector guidelines.

Can I test or see sample outputs before purchasing?
Yes, reputable suppliers often provide sample parts, printing demonstrations, or even short-term equipment trials. This helps you evaluate print quality, speed, and suitability for your production environment before committing.

How do I estimate the total cost of ownership for an industrial 3D printer?
Factor in not just the purchase price, but also the costs for materials, maintenance, spare parts, software licenses, and any required upgrades. Discuss ongoing support fees and expected consumable life with the supplier to avoid surprises.