GORGEOUS CERAMICS (GGS) silicon carbide mirrors utilize a proprietary silicon carbide powder, combined with advanced isostatic pressing technology, to produce high-density silicon carbide mirror blanks with high structural stability.
Our products possess excellent mechanical properties and thermal stability, enabling them to stably meet the requirements for high-precision reflection and long-term reliable use in demanding conditions such as high-power lasers, radar systems, and aerospace applications.
Performance Advantages of Silicon Carbide Reflectors
High hardness, high elastic modulus (420–450 GPa), and low coefficient of thermal expansion result in a robust structure that resists deformation under extreme conditions such as high loads.
Excellent corrosion resistance and thermal shock resistance, along with high and low temperature stability, make them less prone to damage.
A highly dense structure (density up to 3.14 g/cm³), precision-machined to eliminate internal pores, effectively improves the mirror’s mechanical properties, surface finish, and lifespan.
Specifications
The maximum single-unit size of GORGEOUS CERAMICS (GGS) is DN800mm in diameter and 15000mm in length; We can meet your customization requirements based on your drawings.
FAQ
1.What are the main advantages of using silicon carbide mirror blanks compared to traditional optical materials?
Silicon carbide mirror blanks possess extremely high strength, low density, and a low coefficient of thermal expansion. These properties result in excellent dimensional stability, minimal thermal deformation, and superior performance under high thermal and mechanical loads compared to other traditional optical materials.
2.Are silicon carbide mirror blanks suitable for high-temperature or extreme environments?
Yes, silicon carbide mirror blanks have excellent thermal stability and resistance to thermal shock, maintaining structural integrity and optical performance even in high-temperature, vacuum, and chemically corrosive environments.
