Produce as fast as 5 business days

Stratasys FDM 3D Printing Online

STRATASYS PRODUCTION FDM

ABS M30, NYLON, PC, ULTEM, PEKK

Engineering Grade & Extensive Variety

CONTACT AN EXPERT

ABS M30|ESD7

STIFF & ACCURATE

NYLONCF

TOUGH & DURABLE

PCABS

ULTRA STIFF

ULTEM9085|1010

FLAME RETARDANT

PEKK800NA

AEROSPACE GRADE

Ultem FDM 3D Printing Online

ENGINEERING GRADE & EXTENSIVE VARIETY

Our Production FDM engineering grade thermoplastics are produced by Stratasys FDM industrial 3D Printing process. We can supply a portfolio of stiff, strong, tough, flame retardant, chemical resistance, ESD thermoplastic material upon request. Some of our Production FDM materials includes, ABS M30, ABS ESD7, PC, PC ABS, NYLON CF, ULTEM and PEKK. We highly recommend these materials for industrial applications. These materials can be produced at large format up to a meter in length. These are on demand 3D Printing materials, they will not be available for instant quote online, please contact our sales support directly for assistance.

INDUSTRIAL QUALITY

Right out of production, all Production FDM materials have inherent visible 3D Print layer lines. Unlike common desktop grade FDM materials, you can expect Production FDM materials to have more consistent layer adhesion and far superior overall mechanical properties. For more aesthetic demanding applications, we can also provide further post processing to attain full gloss, near injection moulded aesthetic under our 2K spray painting services.

FDM 3D Printing Close Up

INDUSTRIALLY CRAFTED

Our Production FDM materials are industrially crafted by Stratasys Production FDM equipment. Production Grade FDM process construct parts by extruding melted thermoplastic layer by layer until the build process completes. During the build process, overhang regions are supported by dissolvable support materials, allow creation of features with mid-level complexity. Unlike desktop FDM process, production FDM process uses only certified engineering grade thermoplastic and produces parts in a highly controlled environment. This enables production of many automotive and aerospace grade materials with mechanical properties consistency batches after batches.

EXAMPLE APPLICATIONS

FDM Enclosure 3D Printing

PRODUCT ENCLOSURE

Pekk FDM Jigs 3D Printing

JIGS & FIXTURES

Ultem fdm 3D Printing

FUNCTIONAL PARTS

Large ABS M30 FDM 3D Printing

LARGE PARTS

LEAD TIME

  • Standard Lead Time: Produce in about 5-7 business days

SPECIFICATION

  • Build Size: 910L x 610W x 910H (mm)
  • Minimum Wall Thickness: 1mm (may vary)
  • Minimum Detail: 0.8 mm
  • Estimated Accuracy: +/- 0.2-0.3 mm (0.25% of longest side)

 

 

BENEFITS

  • Large Build Size
  • Good Mechanical Properties
  • Good Thermal Properties
  • Good Chemical Properties
  • ESD Material
  • Flame Retardant Material
  • Wide Range of Engineering Plastics

DESIGN FOR PRODUCTION FDM PLASTIC

Wall thickness for 3D Printing

Minimum Wall Thickness

We recommend the following minimum wall thickness:

  • 1 mm (parts ≤ 10 cm)
  • 2 mm (parts between 10 cm to 30 cm)
  • 3 mm (parts ≥ 30 cm)

Parts with Sufficient wall thickness is crucial to ensure successful print.

Embossed and Engrave Details for 3D Printing

Embossed and Engraved Details

For Embossed Details: Recommended minimum thickness of 0.5mm and height of 0.5mm

For Engraved Details: Recommended minimum thickness of 0.5mm and depth of 0.5mm

Clearance for 3D Printing

Clearance for Fitting

It is very important to allow clearance between the space of 2 objects, so as to give a freedom of movement between the gap. We recommend:

  • 0.3 mm (tight fit), 0.4 mm (standard fit) and 0.5 mm (loose fit).

You are advised to test out several iterations to attain a perfect fit.

Hollow 3D Printed Parts

Hollowing Model

One benefit of FDM process is that it allows production in various infill setting without additional design intervention. Parts will be hollowed using honeycomb structure, which will reinforced the hollowed structure. Resulting in high strength to weight ratio.

Warp 3D Printed Parts

Reduce Warpage

Production FDM has the lowest risks of warpage out of all 3D Printing process when producing large flat parts.

Still, it is always a good practice to avoid, large flat planes, sharp corners and consider adding ribs as reinforcement to reduce warpage.

Multiple Parts in Single File

Avoid Multiple Parts in a single file

Uploading multiple parts within a file may cause unnecessary delay in your order due to processing issues. Simply upload each part file separately for a smooth transaction.