Quick Look
| Density(g/cm³) | Tensile Strength | Young's Modulus | Elongation at Break | Heat Deflection Temperature |
|---|---|---|---|---|
| 1.3 | 43 MPa | 3235 MPa | 1.50% | 150℃ |
About the Material
Advantages:
High Heat Resistance: The material can withstand temperatures up to 150°C, making it suitable for high-temperature testing and applications.
Dimensional Accuracy: High-temp Resin provides excellent dimensional accuracy, ideal for detailed and complex parts.
Smooth Surface Finish: The material provides a smooth surface finish, reducing the need for extensive post-processing.
Rigidity and Strength: High-temp Resin offers good rigidity, making it suitable for parts that need to maintain their shape under stress.
Limitations:
Brittleness: The material may be brittle under certain conditions, which can limit its use for parts requiring high impact resistance.
UV Sensitivity: Parts made with High-temp Resin may degrade over time if exposed to UV light without proper finishing.
Limited Flexibility: The resin lacks flexibility, which may restrict its use in applications requiring elastic properties.
Chemical Composition Table for High-temp-150D Resin
| Component | Composition |
| Epoxy-based Resin | Proprietary |
| Photoinitiators | Proprietary |
| Additives | Proprietary |
Mechanical Machining Properties Table for High-temp-150D Resin
| Property | Value |
| Machinability Rating | Moderate |
| Cutting Speed (m/min) | 10-20 |
| Tool Wear Resistance | Moderate |
| Coolant Requirement | Optional |
| Surface Finish Quality | High |
Design Parameters Table for SLA Printing with High-temp-150D Resin
| Maximum Bulid Size(mm) | Minimum Wall Thickness | Minimum Drill Size | Minimum Assembly Gap | Tolerance |
| 600*600*400 | 1mm | 1mm | 0.2mm | ±0.1% *length(lower limit of ±0.15 mm) |
Industry Applications and Case Studies for SLA Printing with High-temp-150D Resin
Automotive Industry:
Application: Production of high-temperature resistant prototypes and engine components.
Case Study: An automotive company used High-temp Resin to create engine bay prototypes for thermal testing, benefiting from the material's heat resistance.
Aerospace Industry:
Application: Manufacturing of components exposed to high temperatures during operation.
Case Study: An aerospace manufacturer used High-temp Resin to produce air duct prototypes, leveraging the material's thermal stability.
Consumer Electronics:
Application: Production of heat-resistant casings and components.
Case Study: A consumer electronics company used High-temp Resin to produce casings for testing electronic devices under thermal stress.
Frequently Asked Questions (FAQs) about SLA Printing with High-temp-150D Resin
What are the benefits of using High-Temp Resin in 3D printing?
High-temp Resin offers high heat resistance, dimensional accuracy, and a smooth surface finish, making it ideal for high-temperature testing and functional prototypes.
Is High-temp Resin suitable for functional parts?
Yes, High-temp Resin is suitable for functional parts that require rigidity, heat resistance, and accuracy.
What industries benefit from SLA printing with High-temp Resin?
Industries such as automotive, aerospace, and consumer electronics benefit from the properties of High-Temp Resin.
How accurate is SLA printing with High-temp Resin?
SLA printing with High-temp Resin can achieve tolerances of ±0.1 mm, suitable for high-precision prototypes and models.
What post-processing is required for High-temp Resin-printed parts?
Post-processing may include sanding, polishing, and UV curing to improve mechanical properties and surface finish.
Can High-temp Resin be used in high-temperature environments?
High-temp Resin has a maximum operating temperature of 150°C, making it suitable for high-temperature applications.
How strong are High-temp Resin-printed parts?
High-temp Resin-printed parts are strong and rigid, making them suitable for functional testing and high-temperature applications.
Finishing Options
Parts Made by AutofabX
