1、The engineers guide to 3D Printing with wear-resistant plastic materials.A comprehensive introduction to 3D printing with wear-resistant plastics,exploring their origin,benefits,and the technologies available to print with them.IntroductionChapter I:Introduction to 3D Printing with Wear-Resistant Pl

2、astics Why use wear-resistent 3D printing materials?They key benefits of 3D printable tribo-materials Choosing the right technology and material tribofilaments Powders ResinsChapter II:How High-Performance Thermoplastics are Powering the Future of Therapeutic Applications High-Performance Thermoplas

3、tics Medical Application How does the RELan tenoex work?Properties of iglidur i6 Reducing friction Delicate parts Resistance Light Conclusion ReferencesChapter III:3D Printing an Award-Winning Steering Wheel Aid with Wear-Resistant SLS Powder Spotlighting iglidur i3 power for SLS Accelerated product

4、ion times and lower costs Conclusion References Chapter IV:When&How to Use the igus 3D Printing Platform for Wear-Resistant Plastics What makes the igus 3D printing platform unique?How is the lifetime calculated?Why use third-party service over in-house 3D printing?Order frequency Specialty material

5、s High-quality hardware Trial,test&transition Expertise Overview of the igus 3D printing service Key benefits Model Material Post-processing ProducibilityChapter V:Best Practices for 3D Printing with Wear-Resistent Plastics Material Selection Best practices for tribofilaments Material handling Build

6、 surface Print settings Post-processing Best practices for powders Handling Print settings Post-processing Best practices for resins Handling Print settings Post-processing Outsourcing to igus Chapter VI:Future Trends in 3D Printing with Wear-Resistant Plastic Materials Whats on the horizon?Scalable