Quartz fiber sewing thread is known for its exceptional high-temperature resistance, enduring up to 1050° C without significant degradation, surpassing other high-temp threads like aramid, fiberglass, or ceramic. It's ideal for aerospace, automotive, and industrial applications requiring extreme heat resistance, such as insulation blankets and protective clothing. Additionally, quartz thread maintains tensile strength at high temperatures and offers excellent electrical insulation properties.
Quartz fiber has exceptional heat resistance and can withstand temperatures up to 1100° C (2012° F) without significant loss in mechanical properties. This makes it suitable for applications in high-temperature environments, such as furnace insulation and aerospace components.
Quartz fiber exhibits excellent resistance to a wide range of chemicals, including acids, alkalis, and organic solvents. It is unaffected by most corrosive substances, making it a reliable choice for applications in chemical processing, laboratory equipment, and harsh industrial environments.
Quartz fiber has a very low coenjcient of thermal expansion, meaning it expands and contracts minimally with temperature changes. This characteristic makes it dimensionally stable even in extreme temperature variations, making it useful for applications where thermal stability is essential, such as optical fiber communication systems and precision instruments.
Quartz fiber is a non-conductive material, providing excellent electrical insulation properties. It has low dielectric constant and loss tangents, making it suitable for high-frequency applications, such as telecom cables, electric insulation, and electronic components.
| Diameter(mm) | Linear Desnsity(Tex) | Breaking Strength(daN) | Binder Content(%) |
| 0.36 | 133(33*2*2 Z160) | 8 | 0.5 |
| 0.43 | 205(33*2*2 Z160) | 13 | |
| 0.51 | 272(33*2*4 Z160) | 18 | |
| 0.36 | 168(33*2*2 Z160) | 6.8 | PTFE: 20% |
| 0.43 | 250(33*2*3 Z160) | 11.2 | |
| 0.51 | 340(33*2*4 Z160) | 15.6 |