Options

Analysis

3D Printing Options

Review and modify your settings for 3D Printing

Units

FDM

Fused Deposition Modeling, used for parts requiring moderate strength. Highly economical 3D Printing solution.

Applications: Plastic part replacements, fixtures, ergonomic tools, assembly trays CFR

Continuous Fiber Reinforcement, for highly functional mechanical parts. Parts reinforced with fiber achieve very high strength to weight ratios and are a good alternative to aluminum components. This process must be used with FDM 3D printing.

Applications: High strength tools & fixures, functional prototypes, light weight components SLA

Stereolithography, useful for components requiring tight tolerances and small features.

Applications: Electronic device enclosures, high resolution prototypes, lower strength fixtures

Process

Material

View All Materials

Fiber Reinforcement

Low

Layer height: 0.2 mm, x/y: ±0.25 mm

Standard

Layer height: 0.1 mm, x/y: ±0.25 mm

High

Layer height: 0.05 mm, x/y: ±0.25 mm

Micro

Layer height: 0.025 mm, x/y: ±0.030 mm

Resolution

Let Us Decide

Recomended option. Let our engineers decide how the part is oriented during 3D Printing.

Custom

To use a custom 3D Printing orientation, select this option. To orient the part, select a face to sit on the printer bed's floor, or type in rotation values. Price may increase depending on the orientation.

Orientation

Select a face to place it on the floor

x:

y:

z:

Standard

Supports are removed & part(s) are lightly bead blasted (layer lines near invisible)

Natural

Supports removed

Finish

Quantity

Additional Notes (255 characters left)

Generating Quote

Unit Price:

Total Price:

$

$

Add this part to your order to get an accurate lead time

Part:

Roller Pump.stl


Dimensions:

x:

-

y:

-

z:

-

Mass:   g estimate
Volume:   mm3

DFM Checks

DFM Checks

0

Critical Issues

0

Warnings

0

Passed

5

Analyzing

Part Size

Part Aspect Ratio

Watertightness

Multi Body Detection

Thin Walls

Fiber Reinforced Percentage

What's the issue?

Holes have been detected in the uploaded part and is not watertight.

What's the impact?

We are unable to generate a quote and manufacture this part due to the present hole(s).

How to fix it

Patch the hole in the CAD file. If a hole doesn't look present, it may be because the surfaces are not stitched together (meaning the surfaces are not actually connected). After fixing, re-upload it to recieve an instant quote.

What's the issue?

What's the impact?

This part will not fit inside the build volume of our machines and cannot be made.

How to fix it

Reduce the size of the part, breakdown the part into multiple pieces to be assembled at a later stage, or choose a 3D Printing process with a larger build volume.

What's the issue?

What's the impact?

A large aspect ratio can result in your part warping/deforming after 3D Printing.

How to fix it

Adjust the design to have a lower aspect ratio, or break the part into multiple parts for assembly later on.

What's the issue?

What's the impact?

We are unable to provide an instant quote for this part.

How to fix it

Export the part as a single body, the bodies may need to be merged before exporting/saving the CAD file. Also check to see that all surfaces have been stitched together.

What's the issue?

Thin walls with a thickness under 0.5 mm have been detected in your part.

What's the impact?

These features may be difficult to machine and may not come out properly.

How to fix it

Consider increasing the wall thickness of these features.

What's the issue?

Thin walls were not checked for in your part due to large processing time.

What's the impact?

Thin walls may be present in your part..

How to fix it

Manually check for thin features.

What's the issue?

What's the impact?

How to fix it

Increase the wall thickness of your part to above 3mm to make more room for fibers.

X-Ray

Part View