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3D Printing Service Gaithersburg, MD

We manufacture high-quality, competitively priced custom prototypes & production parts. Upload a CAD file for an instant 3D printing quote. Order parts in 5 minutes from your desk.

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Over 6 million parts delivered to 35,000+ companies
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Our online 3D printing services

Our online 3D printing services leverage a global network of over 2,400 3D printing machines, which means our customers get both competitive prices and fast lead times. We specialize in four processes, bringing you everything you need for custom 3D printing projects, from rapid prototyping with FDM to small production runs of 3D prints for industrial applications.

FDM
3D printed FDM part
FDM

Fast & affordable prototyping

Learn more 3D printed FDM part
SLS
SLS 3D printing service
SLS

Functional prototyping & low-run production

Learn more SLS 3D printing service
MJF
MJF 3D printing service
MJF

Functional prototyping & low-run production

Learn more MJF 3D printing service
SLA
SLA 3D printing service
SLA

Visual prototyping

Learn more SLA 3D printing service
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Our 3D printing service has been rated 4.9/5

Over 282 customers are satisfied with our 3D printing service.

“Thank you for the very quick order! It came out great”

Leon, Gaithersburg
Standard PLA, FDM

“received quickly and work was high quality”

Peter, Potomac
Carbon filled Nylon, SLS

“Quality is excellent, and customer service was unbeatable--actually turned it around in one day, faster than promised. Highly recommended.”

Matt, Olney
Standard ABS, FDM

“Great job and communication. I am very pleased. ”

AJ, Bethesda
Rubber-like resin, Material Jetting

“The parts look great and arrived very quickly!”

Robyn, Silver Spring
Standard ABS, FDM

“Great work. Excellent print and great communication. Highly recommended.”

Philip, Arlington
Standard PLA, FDM

“Print turned out perfect! Excellent feedback throughout!”

Eric, IJAMSVILLE
Standard ABS, FDM

“This turned out even better than I expected! Excellent work!”

Joe, Washington, DC
Standard PLA, FDM

“fast and excellent quality and customer service. I will order something from you in the future.”

libo, clarksville
Standard PLA, FDM

“Great! Everything came as expected and super fast. I would definitely order from this maker again.”

Megan, Washington
Standard PLA, FDM

“Easy to do business with. Great communicator. Keep me informed during the entire printing process.”

Thomas, Washington
Standard PLA, FDM

“Very friendly, helpful, and insightful. Completed our order quicker than estimated by Hubs.”

Nhat, Fairfax
Standard ABS, FDM

“A++++++++++++++++++++++++++++++++++++++++++++”

Nate, Fairfax
Standard ABS, FDM

“Excellent printer! Great communication, lots of pictures of the work in progress, and he made sure that it was done correctly. Items were shipped quickly once completed and packaged well so there was no breakage of fragile parts.”

Shawn, Fairfax
Standard PLA, FDM

“Great prints, outstanding communication. ”

Jesse, Washington
Standard ABS, FDM

“You did a good job, fast and clear/clean, thank you.”

Emil, Beltsville
Standard Nylon, SLS

“High quality print, and I was able to pick it up the same day I ordered it.”

Lucas, Alexandria
Standard PLA, FDM

“Great quality print and was able to pick it up within 12 hours of placing the order Excellent!”

Demby, Alexandria
Standard PLA, FDM

“Excellent prints, would definitely use again!”

Lex, Washington
Standard PETG, FDM

“Great printer. Knowledgable, happy to help, great to work with. Very fast!”

Nicholas, Washington
Standard ABS, FDM

“Enza3D did an amazing job printing the parts and communicating. The super impressive part though was there turn around time from when they accepted the job till I received the parts.”

Nik, Frederick
Standard PLA, FDM

“Great quality and customer service, as usual.”

Phil, Arlington
Standard TPU, FDM

“Quality parts and quick service. Thank you! I hope yo use your services again.”

Ross, Columbia
Standard PLA, FDM

“very fast, no trouble at all, and a great result -- thank you!”

Tim, Alexandria
Standard TPU, FDM

“Absolute first rate service. Communication was excellent and print was perfect.”

Jason, Burke
Standard PLA, FDM

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Our experience in numbers
Engineers
145,000 engineers served
Businesses
35,000 businesses
Mps
240 manufacturing partners
Parts
6M+ parts & prototypes produced
Large building
27% of Fortune 500 companies
Machines
4200+ machines

We use powerful automation to make custom 3D printing easy

We’re eliminating slow and antiquated processes with automated engineering tools to help you reduce development cycles and increase the speed at which projects are delivered.

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Instant 3D printing quotes

Upload a CAD file, receive a 3D printing quote in seconds. No more back and forth with suppliers or long email chains.

Automated DfM feedback

You automatically receive manufacturability feedback on all 3D prints. No more waiting for a technician before knowing you can proceed to production.

Online order management

Easily manage orders online, track deliveries and share important details with others on your team.
Instant 3D printing quotes

Upload a CAD file, receive a 3D printing quote in seconds. No more back and forth with suppliers or long email chains.

Automated DfM feedback

You automatically receive manufacturability feedback on all 3D prints. No more waiting for a technician before knowing you can proceed to production.

Online order management

Easily manage orders online, track deliveries and share important details with others on your team.

Comparison of our 3D printing services

Need help choosing? See our guide to selecting the right 3D printing process.

3D printing process

FDM SLA SLS MJF
Available materials 10 11 2 2
[US] Lead time in days From 1 From 2 From 3 From 3
[EU] Lead time in days From 1 From 2 From 3 From 3
[US] Maximum build size 19.68'' x 19.68'' x 19.68'' 5.7" x 5.7" x 6.8" 16.5" × 19.7" × 16.5" 14.9'' x 11.2'' x 14.9''
[EU] Maximum build size 500 x 500 x 500 mm 145 × 145 × 175 mm 400 x 480 x 400 mm 380 x 285 x 380 mm
[US] Dimensional accuracy ± 0.5% with a lower limit on ± 0.0196'' ± 0.5% with a lower limit on ± 0.006" ± 0.5% with a lower limit on ± 0.012'' ± 0.5% with a lower limit on ± 0.012''
[EU] Dimensional accuracy ± 0.5% with a lower limit on ± 0.5 mm ± 0.5% with a lower limit on ± 0.15 mm ± 0.5% with a lower limit on ± 0.3 mm ± 0.5% with a lower limit on ± 0.3 mm
Prototyping applications Low-fidelity, proof-of-concept prototyping and visual design verification. Detailed visual prototypes (especially of injection molded parts). Functional and high-fidelity prototypes. Similar to MJF. Functional and high-fidelity prototypes. Similar to SLS.
End-part applications Non-visual end parts, such as jigs and fixtures. Small, smooth, non-functional end parts. Small batches of functional plastic parts. Similar to MJF Small batches of functional plastic parts. Similar to SLS.

Choose from a broad range of 3D printing materials

Need help choosing? We have a whole range of resources on selecting the right 3D printing material for your application

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${ el.name }

${ materialSelected.name }

${ materialSubsetSelected.name }

${ materialSubsetSelected.shortDescription }

  • ${ i18nSubsetsTensile }

    ${ materialSubsetSelected.ultimateTensileStrength }

  • ${ i18nSubsetsModulus }

    ${ materialSubsetSelected.youngsModulus }

  • ${ i18nSubsetsMagnetism }

    ${ materialSubsetSelected.magnetism }

  • ${ i18nSubsetsHardness }

    ${ materialSubsetSelected.hardness }

  • ${ i18nSubsetsCorrosion }

    ${ materialSubsetSelected.corrosionResistance }

  • ${ i18nSubsetsWeldability }

    ${ materialSubsetSelected.weldability }

  • ${ i18nSubsetsTemp }

    ${ materialSubsetSelected.maximumServiceTemperature }

  • ${ i18nSubsetsElongation }

    ${ materialSubsetSelected.elongationAtBreak }

  • ${ i18nSubsetsEsd }

    ${ materialSubsetSelected.esdSafety }

  • ${ i18nSubsetsUv }

    ${ materialSubsetSelected.uvResistance }

${ i18nSubsetsApplications }

• ${ a }

${ i18nFdm }

${ el.name } (${ fdmSubsetsNylon.length } ${ i18nTypes }) (${ el.subsets.length } ${ i18nTypes }) (${ el.subsets.length } ${ i18nType })

${ i18nSls }

${ el.name } (${ slsSubsetsNylon.length } ${ i18nTypes }) (${ slsSubsetsNylon.length } ${ i18nType })

${ i18nMjf }

${ el.name } (${ mjfSubsetsNylon.length } ${ i18nTypes }) (${ mjfSubsetsNylon.length } ${ i18nType })

${ i18nSla }

${ el.name } (${ el.subsets.length } ${ i18nTypes }) (${ el.subsets.length } ${ i18nType })

Standard 3D printing post processing

FDM

Standard (no additional post-processing)
  • All surfaces must have a consistent visual appearance
  • Support structures are removed
  • Excess support/build material are removed
  • All parts are printed with 3 outline / perimeter shells or a wall thickness of 1.2 mm
  • Top and bottom layers will have a minimum thickness of 0.6 mm (6 layers at 100 um)

SLA

Standard (no additional post-processing)
  • All support material is removed and support nibs are sanded smooth
  • For clear resins, a polishing oil is applied
  • Formlabs materials are cured in a Form Cure using the following settings which follow the official Formlabs "Recommended Cure" settings

Formlabs Cure settings
Resin Post-cure time (mins) Post-cure temperature
Standard clear 15 60 °C
Standard black 30 60 °C
Standard white 30 60 °C
Standard grey 30 60 °C
Tough 2000 30 70 °C
Durable 60 60 °C
Grey pro 15 80 °C
High temp 120 80 °C
Flexible 15 60 °C
Rigid 15 80 °C

SLS/MJF

Standard (no additional post-processing)
  • All unfused powder is removed via bead blasting (first) and air blasting (second)
  • Air pressure range of 2 - 5 bar or 29 - 72.5 psi
  • Glass beads with diameter 70-110 microns
  • No additional post-processing

How we ensure high-quality 3D printed parts

Every order includes our standard inspection report. Further reports and certifications are available on request, submit an order to begin.

Standard
  • Quantity of parts
  • Number of parts inspected
  • Surface finish
  • Tolerances
Standard
On request
  • Quantity of parts
  • Number of parts inspected
  • Surface finish
  • Tolerances
Download our full capabilities sheet
Founded
2015
Number of machines
63
Capabilities
MJF, FDM, SLS

3D printing resources for engineers

Handbook sample-cover

The 3D Printing Handbook by Hubs

Our founders literally ‘wrote the book’ on 3D printing.

Read article
3D Printing vs. CNC machining

3D printing vs. CNC machining: Which is better for prototyping and end-use parts?

Is 3D printing or CNC machining better for your custom part applications? Learn the practical differences between CNC machining and 3D printing and how to select the right technology for manufacturing prototypes, end-use parts and everything in between.

Read article
PLA vs. ABS: What's the difference?

3D printing with PLA vs. ABS: What's the difference?

PLA and ABS are two essential materials for 3D printing with FDM. They are also two of the most popular materials on our platform. This comparison will help you choose which material to use for your 3D-printed custom parts.

Read article
Dimensional accuracy of 3D printed parts

What is dimensional accuracy in 3D printing and how do you achieve it?

What is dimensional accuracy in 3D printing and how do you know which technology will yield the most accurate results? This article compares the expected dimensional accuracy of various 3D printing technologies to help designers and engineers choose the right solution for their application.

Read article
Key design considerations for 3D Printing

What are the key design elements for 3D printing?

Are you new to designing parts for 3D print manufacturing or need a refresher on essential design elements? This article provides the key design elements for creating digital models for 3D printing, no matter the additive manufacturing process.

Read article
How to design Snap-fit Joints for 3D Printing

How do you design snap-fit joints for 3D printing?

What are snap-fit joints and how do they work? This in-depth guide discusses the benefits of 3D printing snap-fit connectors and clips and gives design and material recommendations for designing custom parts with snap-fit joints.

Read article
SLA 3D Printing materials compared

What’s the right resin for SLA? 3D printing materials compared

What are the different materials available for SLA 3D printing? This article compares the main printing resins, including standard, tough, durable, heat resistant, rubber-like, dental and castable, by material properties. Find the best material option for your application.

Read article
3D Printing STL files: A step-by-step guide

3D printing STL files: A step-by-step guide

Learn how to avoid low quality prints or unnecessarily large 3D files by exporting your STL file in the correct resolution.

Read article
Selecting the optimal shell and infill parameters for FDM 3D Printing

Selecting the optimal shell and infill parameters for FDM 3D printing

Shell and infill properties impact the performance and cost of FDM 3D printing. Learn how to optimize these features for your 3D printed part

Read article
Handbook sample-cover

The 3D Printing Handbook by Hubs

Our founders literally ‘wrote the book’ on 3D printing.

Read article
3D Printing vs. CNC machining

3D printing vs. CNC machining: Which is better for prototyping and end-use parts?

Is 3D printing or CNC machining better for your custom part applications? Learn the practical differences between CNC machining and 3D printing and how to select the right technology for manufacturing prototypes, end-use parts and everything in between.

Read article
PLA vs. ABS: What's the difference?

3D printing with PLA vs. ABS: What's the difference?

PLA and ABS are two essential materials for 3D printing with FDM. They are also two of the most popular materials on our platform. This comparison will help you choose which material to use for your 3D-printed custom parts.

Read article
Dimensional accuracy of 3D printed parts

What is dimensional accuracy in 3D printing and how do you achieve it?

What is dimensional accuracy in 3D printing and how do you know which technology will yield the most accurate results? This article compares the expected dimensional accuracy of various 3D printing technologies to help designers and engineers choose the right solution for their application.

Read article
Key design considerations for 3D Printing

What are the key design elements for 3D printing?

Are you new to designing parts for 3D print manufacturing or need a refresher on essential design elements? This article provides the key design elements for creating digital models for 3D printing, no matter the additive manufacturing process.

Read article
How to design Snap-fit Joints for 3D Printing

How do you design snap-fit joints for 3D printing?

What are snap-fit joints and how do they work? This in-depth guide discusses the benefits of 3D printing snap-fit connectors and clips and gives design and material recommendations for designing custom parts with snap-fit joints.

Read article
SLA 3D Printing materials compared

What’s the right resin for SLA? 3D printing materials compared

What are the different materials available for SLA 3D printing? This article compares the main printing resins, including standard, tough, durable, heat resistant, rubber-like, dental and castable, by material properties. Find the best material option for your application.

Read article
3D Printing STL files: A step-by-step guide

3D printing STL files: A step-by-step guide

Learn how to avoid low quality prints or unnecessarily large 3D files by exporting your STL file in the correct resolution.

Read article
Selecting the optimal shell and infill parameters for FDM 3D Printing

Selecting the optimal shell and infill parameters for FDM 3D printing

Shell and infill properties impact the performance and cost of FDM 3D printing. Learn how to optimize these features for your 3D printed part

Read article

Show more resources

Show less resources

Our other manufacturing services

cnc v2
CNC machining

Milling (3-, 4- & full 5-axis), turning & post-processing

Learn more cnc v2
sheet metal v3
Sheet metal

Laser cutting, bending, post processing

Learn more sheet metal v3

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