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    We are the largest maker of 3D printers in Europe and the United States.

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Industrial 3D Printing for Manufacturing & R&D

Accelerate functional rapid prototyping, custom jigs and fixtures, and end-use part production with secure, offline-capable B2B 3D printing.

Original Prusa CORE One professional enclosed CoreXY 3D printer for secure industrial polymer manufacturingOriginal Prusa CORE One professional enclosed CoreXY 3D printer for secure industrial polymer manufacturing

Engineering

Validate complex CAD prototypes in under 12 hours

Production Support

Custom assembly jigs and fixtures with zero tooling cost

Materials

Print with industrial polymers, carbon-fiber composites, and flame-retardants

HSE & Security

Secure, fully offline operation with CE, FCC, and UL 2904 compliance

Request Manufacturing Quote

No commitment, practical deployment advice

Browse 3D printers

Large installations at

Volkswagen
Knorr-bremse
Siemens
Boeing
Shark
Seco

Trusted by leading engineering, aerospace, and manufacturing teams worldwide

Measurable Impact of Prusa Industrial 3D Printing

Proven B2B efficiency: Verified performance outcomes from global manufacturing, automotive, and R&D deployments.

13,000
Car delays prevented
Škoda Auto bypassed parts shortages with printed covers to keep lines moving.
50%
Sensor costs cut
Knorr-Bremse halved costs by printing durable replacement cases for train sensors.
100 hours
Labor saved per aircraft
SHARK.AERO cut manual assembly by printing over 100 functional parts per airplane.
10–15%
Printed end-use parts
Up to 15% of components in Lyotrade's freeze-drying machines are 3D-printed.
2 Days to Hours
Machining time bypassed
EDS Robotics replaced days of machining with same-day testing of printed parts.
€10k+
Annual savings
A rapid 3D-printed prototype unlocked over €10,000 in annual savings for Škoda Auto.

A Phased Strategy for In-House Additive Adoption

Successful additive manufacturing deployment is a gradual process. Prove the business case first with rapid prototypes, integrate it into daily shop-floor support, then scale up throughput.

Phase 1: Prove the Value Quickly

Start with the lowest-hanging fruit: rapid prototypes and simple jigs. Eliminate engineering wait times and demonstrate immediate ROI without disrupting your existing processes.

Phase 2: Support Daily Operations

Once the first wins are clear, expand into a dependable daily workflow. Give maintenance and production teams on-demand access to custom parts to cut reliance on external suppliers.

Phase 3: Scale for Continuous Production

When internal demand outgrows a single machine, shift your focus to throughput. Transition to a structured print farm to make output repeatable, centralized, and ready for continuous 24/7 production.

Manufacturing Story: CERNHow CERN uses 3D printing to accelerate R&D support

Learn how mechatronics engineers and R&D teams at CERN integrate Prusa 3D printing farms to rapidly prototype custom sensors, safety hardware, and structural elements for particle accelerators.

Source: Prusa Stories - CERN

R&D CASE STUDY

CERN Uses 3D printing Where Off-the-shelf Solutions Do Not Exist

At CERN, teams build and maintain highly specialized scientific equipment. Because custom parts are the rule rather than the exception, they operate several print farms of Prusa 3D printers. It helps engineers turn one-off requirements into physical components quickly, without waiting on external suppliers.

Custom polycarbonate sensor brackets and alignment tools printed on-site at CERN

Custom parts for technical workflows

Engineers at CERN design and produce specialized sensors, control systems, and accelerators to measure and adjust the positions of large magnets. Because even minor geological movements can disrupt the alignment of the collider, the team relies on stretched wires and highly precise sensor arrays. 3D printing enables the rapid creation of these complex, customized components, including polycarbonate parts installed directly in the tunnel, which would be difficult or impossible to produce using traditional machining methods.

Faster iteration for research support

When a component needs to be tested in context, in-house printing facilitates rapid prototyping and iterative design improvements. It is crucial during the testing phase to ensure the reliability of tools, reducing costs by minimizing the need for expensive materials.

A fit for rapid problem-solving

The technology allows teams to quickly solve operational bottlenecks. For instance, in the CLEAR accelerator project, a 3D printed robotic solution was developed to enable efficient, safe sample swapping without interrupting the radiation beam.

““3D printing makes complex tasks much simpler.””
Jonas Kampp
Jonas KamppMechatronics engineer at CERN

Real Manufacturing Problems Solved by 3D Printing

Start with the use cases that deliver the fastest payoff: prototyping, tooling, end-use parts, and spare parts.

Engineer reviewing a rapid prototype printed with carbon-fiber reinforced polymer for functional fit checking

Rapid Prototyping

Turn CAD designs into physical parts on the same day. Engineers validate form, fit, and assembly function instantly, bypassing external machine shop backlogs and vendor lead times.

Custom lightweight assembly jigs and production floor holding fixtures 3D printed with tough PETG

Jigs, Fixtures, and Tooling

Fabricate lightweight, ergonomic, and low-cost manufacturing aids in a matter of hours. Custom 3D-printed templates, jigs, and fixtures streamline manual assembly, reduce worker fatigue, and optimize QC.

High-strength end-use parts and functional components mounted directly on active production equipment

End‑use and Production Parts

Avoid high tooling fees and injection molding MOQs. For low-to-medium volume production, 3D print end-use parts with complex internal geometries, integrated channels, or personalized specifications.

A digital library of on-demand spare parts printed on a Prusa 3D printer to eliminate machine downtime

On‑demand Spare Parts

Replace physically stocked replacement parts with a secure, instant digital inventory library. Print spare brackets, gears, and enclosure covers on-demand to safeguard against equipment downtime.

Key Criteria for Selecting an Industrial-Grade 3D Printer

Do not choose a printer by specs alone. Choose one your team can run reliably, support internally, and justify as part of day-to-day operations.

Can it run reliably under daily manufacturing workloads?

A manufacturing printer should produce consistent results without constant tuning, supervision, or unpredictable downtime.

Does it support the materials you actually need?

Look for practical material coverage for your real jobs: everyday prototypes, stronger engineering parts, heat-resistant parts, or safety-oriented applications.

Does it fit your IT and security requirements?

Many teams need to keep CAD files, slicing, and production data in-house. Offline-capable workflows matter in real manufacturing environments.

Can your team maintain it without drama?

Low downtime depends on documented maintenance, replaceable wear parts, and support that understands business-critical urgency.

Can engineers and technicians use it quickly?

A good business setup should help non-specialists get useful parts fast, without needing a dedicated additive expert from day one.

Will the economics make sense on the shop floor?

The printer has to work operationally as well as technically: reasonable material costs, low running costs, and a clear ROI on the first useful applications.

Choose Your Next Step

The right setup depends on what you need first. Start with what solves your most immediate problem, then move into larger systems, tougher materials, or structured farm workflows when real demand requires it.

Deploy the Prusa CORE One

A fully enclosed, high-speed CoreXY system designed for advanced engineering materials. It brings industrial-grade reliability, active chamber temperature control, and secure offline-capable operation directly to your workshop.

Original Prusa CORE One professional enclosed 3D printer setup in an engineering office

Scale with the Prusa Pro Line

Step up to our dedicated industrial tier. Whether you need to print high-temperature engineering polymers with thermal and chemical resistance on the HT90, or microscopic resin precision on the SLX, we match your exact application.

Prusa Pro HT90 industrial delta 3D printer for advanced engineering materials like PEI and carbon fibers
Explore Prusa Pro line

Automated Farm Systems

The Automated Farm System (AFS) is Prusa's automated smart farm for teams that need structured 24/7 output, centralized print management, and a highly scalable, hands-off additive workflow.

Prusa Automated Farm System (AFS) smart cluster of automated 3D printers for high-volume custom production
Talk to an AFS specialist

The ROI of In-House 3D Printing

Most B2B buyers do not need a perfect spreadsheet first. They need a clear way to estimate when in-house printing will pay back.

  • Target the parts you outsource most often: prototypes, jigs, fixtures, and spare parts.
  • Compare external spend, lead times, and downtime costs against in-house materials.
  • Seco Tool's rapid 3D-printed prototype unlocked €10,000 in annual savings for Škoda Auto.
Software

PrusaSlicer is free and open-source.

More details

No per-seat licenses, no annual renewals, and no cloud requirement to prepare print files.

$0/year
Electricity

Power use is modest compared to traditional shop equipment.

More details

For many teams, electricity is negligible next to labor and supplier delay costs.

~$45/year
Consumables

One spool of industrial PETG or ASA can replace multiple outsourced prototype revisions or custom brackets.

More details

Even advanced engineering materials cost a fraction of machined equivalents.

$20-30/kg
Maintenance

Prusa systems are designed to be serviceable in-house.

More details

Common wear items can be swapped quickly without waiting for a technician visit.

Low
A simple model works:monthly outsourcing savings + downtime avoided + engineering hours saved - monthly in-house printing cost. For many teams, one avoided supplier delay can justify the printer, and one successful tooling optimization creates a much clearer business case than a generic ROI spreadsheet.

Interactive Part Cost & 3D Printing ROI Calculator

Upload your 3D models (STL, OBJ, or 3MF) to calculate exact print time, material weight, and production costs on Prusa industrial systems.

Your file is processed entirely in your browser and never uploaded to our servers.

Try a sample model

Upload custom STL, OBJ or 3MF part
“I see more and more people in the railway industry looking into 3D printing. And for good reason!”

Knorr-Bremse Rail Systems Denmark reduces obsolescence by using 3D printing to repair or replace train parts that are no longer available. By printing durable cases for oil burner sensors using self-extinguishing Prusament PETG V0, the team successfully meets strict safety certifications and cuts overall component replacement costs by half.

LA
Lasse Dampe HardöAdditive Manufacturing Specialist at Knorr-Bremse
Knorr-Bremse global transportation systems company logo

Match the Material to Your Manufacturing Application

A targeted selection of industrial polymers proven to handle real shop-floor applications: from everyday fixtures to heat-resistant functional parts.

PETG

Easy to print

A versatile default for shop-floor parts, housings, and general-purpose tooling. Good durability and easy processing.

fixturesprototypeschemical resistant
Nozzle230-250 °C
Bed70-90 °C

ASA

Moderate

Great for functional parts exposed to heat, sunlight, or more demanding workshop environments.

outdoorheatUV resistant
Nozzle250-265 °C
Bed100-110 °C

PC Blend CF

Advanced

For stronger engineering parts where stiffness and thermal resistance matter more than print simplicity.

stiffnessheatfunctional parts
Nozzle270-280 °C
Bed100-110 °C

PETG V0

Moderate

Useful for regulated or safety-sensitive applications where self-extinguishing behavior matters.

flame retardantsafetyrail
Nozzle240-260 °C
Bed80-90 °C

PA11 Carbon Fiber Black

Advanced

A strong option for lightweight but stiff functional parts where durability and a more engineering-oriented material profile matter.

nyloncarbon fiberstiff functional parts
Nozzle285-305 °C
Bed100-115 °C

TPU 95A

Moderate

Useful for seals, protective pads, compliant fixtures, and parts that need impact absorption or controlled flexibility in day-to-day manufacturing use.

gasketsgripsdampersflexible parts
Nozzle220-240 °C
Bed50-60 °C

Download the Industrial 3D Printing Starter Kit

Case studies, 3D printing fundamentals, and the Prusament portfolio in one practical starter kit for manufacturing teams evaluating in-house additive workflows.

  • Real-world manufacturing case studies
  • Basics of 3D printing e-book
  • Prusament materials portfolio
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Front cover of the Industrial 3D Printing for Manufacturing Starter Kit ebook

Manufacturing Story: EDS RoboticsSmart manufacturing with in-house 3D printing

Learn how EDS Robotics deploys Original Prusa 3D printers to fabricate custom end-use parts, sensor mounts, and automated robotic gripper claws for complex factory lines.

Source: Prusa Stories - EDS Robotics

INDUSTRIAL AUTOMATION CASE STUDY

EDS Robotics: Integrating 3D Printing into Every Automation Project

EDS Robotics builds specialized automation systems for sectors where downtime is not an option. By integrating Prusa 3D printers directly into their development and production workflows, they have shifted from waiting on external machine shops to validating functional elements in real-time.

Reducing Production Time from Days to Hours

Components that previously required at least two days to create via traditional machining are now produced as 3D-printed models for functional testing in just a few hours.

Custom 3D printed robotic gripper claw handling products on an automated EDS Robotics assembly line

End-Use Parts on the Assembly Line

3D printing is used to produce final functional parts in every single automation project. These components include customized robotic gripper claws designed to handle diverse products carefully and gently, versatile camera holders, and protective covers that shield critical elements like wiring during robot movement. Depending on the application requirements, these end-use parts are manufactured from varied materials, including PLA, flexible filaments, and, more recently, carbon fiber to achieve high performance and long service life.

Specialized Food-Processing Calibration

To calibrate machines for food shapes without using real food that deteriorates, the team prints realistic plastic props (e.g., donuts, broccoli, salmon) to ensure handling precision.

“We start printing in the morning, and in the afternoon, we are already testing the parts on the machine.”
Alberto Pradas Martinez, CEO at EDS Robotics
Alberto Pradas MartinezCEO at EDS Robotics

Industrial Safety, ISO Compliance, and Data Security Standards

Our systems are built to meet the rigorous safety and security standards of modern industrial and research environments.

What teams ask first

Before deployment

These are the operational topics that usually need sign-off from engineering, HSE, or IT departments.

  • Manufacturing Excellence

    Prusa Research is ISO 9001, 14001, and 45001 certified. Our headquarters and production facilities operate under global standards for quality management, environmental responsibility, and occupational health.

  • Offline and Secure Operation

    Protect your intellectual property with hardware designed for high-security environments. Our systems offer fully offline operation via USB or secure, encrypted local network protocols with no mandatory cloud connection.

  • Serviceability and Uptime

    Minimize operational risk with high-availability hardware. We provide extensive documentation, readily available spare parts, and a design philosophy that allows for fast, in-house maintenance without proprietary lock-in.

  • Certified Product Safety

    Compliance is built-in with CE, FCC, and RoHS certifications. Furthermore, our systems meet the UL 2904 standard for low particle and chemical emissions, supporting safe use in labs, offices, and schools.

Explore More Industry Applications

See how in-house 3D printing is transforming production and solving specific engineering challenges across other specialized sectors.

Automotive & Transportation

Transportation and Logistics

From custom assembly jigs and fixtures to spare parts for heavy rail and specialized aircraft components.

Industrial workspace with engineers testing 3D printed aerospace components

Architecture & Scale Modeling

Architecture and Construction

Move from CAD to physical site models faster. Iterate on structural designs with precise, durable scale prototypes.

Detailed architectural building layout and topography models 3D printed with tough polymers

Movie & Special Effects

Entertainment and Arts

High-detail props, durable costume elements, and complex set design for the world’s leading film and VFX studios.

Vibrant movie props and high-detail physical special effects 3D printed for entertainment production

Healthcare & Dental

Medical and Life Sciences

Produce patient-specific anatomical models, surgical guides, and biocompatible dental appliances with high precision and certified medical-grade materials.

Medical professionals examining highly precise 3D printed anatomical heart models for surgery prep

Education & Research

Academic and Scientific

Empower the next generation of engineers or accelerate scientific breakthroughs with reliable hardware for complex laboratory equipment and rapid R&D prototyping.

University engineering laboratory setup with students using a suite of Prusa 3D printers for research projects

Questions Manufacturing Teams Ask

Before you scale: Practical answers for engineering and procurement teams.

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