Unlock the Secrets of Accura 60 Material Properties: A Comprehensive Guide

Unlocking the secrets of any material's properties can be a daunting task, but it doesn't have to be. For those interested in delving deeper into the characteristics of Accura 60, we've compiled a comprehensive guide to help you navigate this popular material.

Accura 60 is a highly versatile plastic that is widely used in the additive manufacturing industry. Its properties make it ideal for producing a wide range of objects, from prototypes to end-use parts. But what makes Accura 60 stand out from other materials on the market?

In this guide, we'll explore the unique properties of Accura 60, including its mechanical, thermal, and optical characteristics. From its high tensile strength to its low moisture absorption rate, you'll gain a better understanding of how to manipulate and optimize Accura 60 for your specific application.

Whether you're a seasoned engineer or a newcomer to the world of plastic materials, this guide is packed with information that will help you unlock the full potential of Accura 60. So, stick with us and delve deeper into this fascinating material that has revolutionized the 3D printing industry.

"Accura 60 Material Properties" ~ bbaz

Introduction

When it comes to additive manufacturing, the quality and properties of the material used are crucial in determining the success of a project. Accura 60 is one such material that has been gaining popularity in recent times, owing to its excellent mechanical and thermal properties. This comprehensive guide aims to unlock the secrets of Accura 60's material properties, making it easier for readers to understand and use this material.

What is Accura 60?

Accura 60 is a proprietary material developed by 3D Systems specifically for use in their SLA (Stereolithography) printers. It is an acrylic-based material that is known for its high tensile strength, impact resistance, and ability to withstand high temperatures. Accura 60 is ideal for creating functional prototypes, jigs, and fixtures, and has been extensively used in various industries, including automotive, aerospace, and healthcare.

Mechanical Properties

Accura 60 has exceptional mechanical properties that make it suitable for use in a wide range of applications. It has a tensile strength of 9,900 psi, which is significantly higher than other plastic-based materials used in SLA printing. Additionally, it has a high impact resistance, meaning that it can withstand significant physical stress without fracturing or breaking.

Table 1: Comparison of Accura 60 Mechanical Properties

Property	Value
Tensile Strength	9,900 psi
Elongation at Break	4.5%
Flexural Strength	14,300 psi
Flexural Modulus	430,000 psi

Thermal Properties

Accura 60 is known for its excellent thermal properties, which make it suitable for use in high-temperature applications. It has a glass transition temperature (Tg) of 103°C, which is higher than most other SLA materials. Additionally, it has a low coefficient of thermal expansion, which means that it can maintain its shape and dimensional stability even at high temperatures.

Table 2: Comparison of Accura 60 Thermal Properties

Property	Value
Glass Transition Temperature (Tg)	103°C
Coefficient of Thermal Expansion	96 x 10^-6/°C
Heat Deflection Temperature (HDT)	66°C @ 0.455 MPa

Post-Processing Methods

Like all SLA materials, Accura 60 requires post-processing after printing. Some commonly used post-processing methods include sanding, polishing, and painting. Accura 60 can be sanded and polished to achieve a smooth finish, making it ideal for creating high-quality prototypes. Additionally, it can be painted using various techniques, including spray painting and airbrushing.

Design Considerations

When designing parts using Accura 60, there are some key considerations that should be kept in mind. Firstly, this material is highly sensitive to the orientation of the part during printing, with parts printed in the vertical orientation tending to have better mechanical properties. Secondly, care should be taken to avoid areas with sharp angles or corners as they may crack or break under stress. Finally, it is essential to ensure that the part is designed with sufficient wall thickness to avoid warping or distortion during printing.

Conclusion

In conclusion, Accura 60 is an excellent material for creating functional prototypes, jigs, and fixtures in a wide range of industries. Its exceptional mechanical and thermal properties make it suitable for use in high-stress environments, while its ability to be post-processed allows for smooth finishes and aesthetic enhancements. By understanding the properties and design considerations of Accura 60, engineers and designers can create parts that meet their specific requirements and achieve their desired outcome.

Thank you for taking the time to read our comprehensive guide on unlocking the secrets of Accura 60 material properties. We hope this article provided valuable insights that will help you understand the unique advantages of this material and how it can be used to optimize your 3D printing process.

We encourage you to apply the information presented in this guide to your own projects and experiments. Don't be afraid to push the limits and explore the full potential of Accura 60. Remember, the key to success is to keep experimenting, learning from your mistakes, and refining your process until you achieve the desired results.

Finally, we would like to thank you again for visiting our website and taking an interest in our content. If you have any questions, comments or feedback on this article or any other aspect of our work, please feel free to get in touch with us. We are always happy to hear from our readers and help in any way we can.

People Also Ask about Unlocking the Secrets of Accura 60 Material Properties: A Comprehensive Guide

1. What is Accura 60 material?

Accura 60 is a type of liquid resin material used in stereolithography (SLA) 3D printing.

2. What are the properties of Accura 60 material?

Accura 60 has high accuracy, excellent surface finish, and good dimensional stability.
It also has high strength and stiffness, as well as good resistance to temperature and humidity.

3. What are the applications of Accura 60 material?

Accura 60 is commonly used in the production of prototypes, models, and patterns for various industries such as aerospace, automotive, and medical.

4. How can I optimize the use of Accura 60 material?

You can optimize the use of Accura 60 material by following the recommended printing parameters and post-processing techniques provided by the manufacturer.
You can also experiment with different print settings and post-processing methods to achieve the desired properties and surface finish.

5. Where can I find a comprehensive guide on Accura 60 material properties?

You can find a comprehensive guide on Accura 60 material properties from the manufacturer's website or from 3D printing forums and communities.
The guide should provide detailed information on the mechanical, thermal, and optical properties of the material, as well as its processing and post-processing requirements.