Quick Look
Density(g/cm³) | Tensile Strength | Young's Modulus | Elongation at Break | Heat Deflection Temperature |
---|---|---|---|---|
1.3 | 47.2 MPa | 2373 MPa | 10.40% | 40℃ |
About the Material
Advantages:
High Precision: Black Standard Resin provides high dimensional accuracy, ideal for detailed prototypes and complex geometries.
Smooth Surface Finish: The material offers a smooth surface finish, reducing the need for extensive post-processing.
Cost-Effective: The material is affordable, making it a good choice for rapid prototyping and visual models.
Ease of Post-Processing: The resin is easy to paint and finish, making it suitable for presentation and visual validation.
Limitations:
Limited Heat Resistance: Black Standard Resin has moderate heat resistance, which may limit its use in high-temperature environments.
Brittleness: The material can be brittle, which limits its use for functional parts that require high impact resistance.
UV Sensitivity: Parts made with Black Standard Resin may degrade over time if exposed to UV light without proper finishing.
Chemical Composition Table for Black Standard Resin
Component | Composition |
Epoxy-based Resin | Proprietary |
Photoinitiators | Proprietary |
Additives | Proprietary |
Mechanical Machining Properties Table for Black Standard 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 Black Standard Resin
Maximum Bulid Size(mm) | Minimum Wall Thickness | Minimum Drill Size | Minimum Assembly Gap | Tolerance |
600*600*400 | 0.6mm | 0.5mm | 0.2mm | ±0.1% *length(lower limit of ±0.15 mm) |
Industry Applications and Case Studies for SLA Printing with Black Standard Resin
Consumer Goods:
Application: Production of concept models and ergonomic prototypes.
Case Study: A consumer goods company used Black Standard Resin to create detailed product prototypes for visual and ergonomic testing.
Automotive Models:
Application: Manufacturing of detailed automotive models and components for visual inspection.
Case Study: An automotive design firm used Black Standard Resin to produce scale models, benefiting from the material's high detail and smooth finish.
Architecture Models:
Application: Production of architectural models for client presentations.
Case Study: An architecture firm used Black Standard Resin to create scale models for client presentations, taking advantage of the material's precision and visual appeal.
Frequently Asked Questions (FAQs) about SLA Printing with Black Standard Resin
What are the benefits of using Black Standard Resin in 3D printing?
Black Standard Resin offers high detail, smooth surface finish, and a rich black color, making it ideal for prototypes and presentation models.
Is Black Standard Resin suitable for functional parts?
Black Standard Resin is more suitable for visual and presentation purposes rather than functional parts that require high strength or impact resistance.
What industries benefit from SLA printing with Black Standard Resin?
Industries such as consumer goods, automotive, and architecture benefit from the properties of Black Standard Resin.
How accurate is SLA printing with Black Standard Resin?
SLA printing with Black Standard Resin can achieve tolerances of ±0.1 mm, suitable for high-precision prototypes and models.
What post-processing is required for Black Standard Resin-printed parts?
Post-processing may include sanding, polishing, and painting to improve mechanical properties and surface finish.
Can Black Standard Resin be used in high-temperature environments?
Black Standard Resin has a maximum operating temperature of 50°C, making it suitable for moderate-temperature applications but not for high-heat environments.
How strong are Black Standard Resin-printed parts?
Black Standard Resin-printed parts are strong enough for visual models and prototypes but may not be suitable for load-bearing or impact-resistant applications.