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3860 High Temp

Vat Photopolymerization

Material info

About 3860 High Temp

Rigid resin with outstanding high-temperature resistance and excellent dimensional stability. Ideal for mold tooling applications where high print resolution and resistance to deformation is required.

Technology

  • Vat Photopolymerization

Technical Documents

Material Properties

Tensile Strength X:
37-41 MPa
Tensile Strength Z:
37-41 MPa
Heat Deflection:
180-190°C
Tensile Modulus X:
3000-4000 MPa
Tensile Modulus Z:
3000-4000 MPa
Elongtation at Break X:
1-2%
Elongtation at Break Z:
1-2%

Description

Applications
Functional prototyping with high temperature applications

Design Guidelines

Bounding Box

Bounding Box Max
160x80x 160

Bounding Box Min
2.5x2.5x2.5

The bounding box is a 3D imaginary outline of a box that encloses the smallest area occupied by your model. Your model must be within the minimum and maximum bounding box sizes. If the size of the model is close to the maximum bounding box, then the printing orientation will be restricted.

Walls

Supported Wall Thickness Min
1.5
Unsupported Wall Thickness Min
2
A supported wall is connected at least on two sides of the wall, while an unsupported wall is connected only on one side of the wall. Walls that do not meet the minimum requirements may not survive printing and cleaning processes. Additionally, models may still be rejected based on the wall geometry of the model. Please consider the size of your model and reinforce the walls or add support structures as needed as minimum guidelines will not always be adequate for large models.

Wires

Supported Wires Min
0.7
Unsupported Wires Min
0.8
A wire is a circular, rectangular or even triangular feature that is thinner in its unconnected directions than its length. A supported wire is connected at least on two sides of the model, while an unsupported wire is connected on one side of the model. Wires that do not meet the minimum requirements may not survive printing and cleaning processes. Additionally, models may still be rejected based on the wire geometry of the model. Please consider the size of your model and reinforce the wires or add support structures as needed as minimum guidelines will not always be adequate for large models.

Details

Details Min Embossed
0.5
Details Min Engraved
0.5
For text, the ratio between width and depth, should be 1:1 and sans-serif fonts are preferred for line weight consistency.

Escape Holes

Single Escape Hole Diameter (Min)
6
Multiple Escape Hole Diameter (Min)
3
Escape holes are necessary to empty the support material of a hollow model. Two escape holes at the opposite ends of the model is optimal for the support removal process. Please consider the size of your model and make the escape holes bigger or add more escape holes as needed as minimum guidelines will not always be adequate for large models.
A single escape hole at the end of a cavity will not allow material in the corners near the escape hole to fully escape. So we recommend multiple escape holes at both ends of the cavity.

Clearance

Min
2,5
Clearance is the space between two individual parts in a model. If the space among the individual parts do not meet the minimum clearance, then parts can fuse together or can be difficult to clean. This is important for movable pieces like hinges, gears, etc.

Interlocking & Enclosed Parts

Interlocking
No

Enclosed
No

Parts in File

Max
1

Accuracy

Accuracy +/- 0.100 mm
For example: a product with dimensions of 50x50x100 mm can be 0.15 mm + 0.0015*100 mm = 0.3 mm bigger or smaller in any direction.

Other Materials

Photopolymer, Rigid, DLP
Ultracur3D® RG 35
Low water uptakeVery high stiffnessHigh Accuracy
Application: Functional prototypes, jigs & fixtures and very detailed parts
Single Alloy Stainless Steel 316L (100% Stainless Steel)
Stainless Steel 316L
Application: Manufacturing Heat Exchangers, Medical Tools, Fasteners, Mounting Brackets

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