Four-column Wafer Carrier RSiC Semiconducting Pallet
The RSiC wafer carrier represents a high-performance solution manufactured from premium silicon carbide (SiC). This advanced four-column wafer carrier withstands extreme thermal and corrosive environments encountered in photovoltaic manufacturing, significantly enhancing both cell performance and production efficiency.
Within TOPCon battery manufacturing processes, the semiconducting wafer carrier plays a critical role in LPCVD and annealing operations, providing stable support for silicon wafers while ensuring thermal process stability and wafer uniformity. This RSiC wafer carrier directly contributes to improved battery conversion efficiency through precise process control and maintained wafer quality.
The robust four-column wafer carrier also serves within thermal field systems of polysilicon ingot furnaces. The exceptional thermal stability and low thermal expansion coefficient of RSiC wafer carrier significantly enhance both silicon ingot quality and manufacturing productivity.
MATERIAL TECHNICAL PARAMETERS
Semiconductor/Photovoltaic Industries | RSiC |
SiC Purity (%) | 99.9-99.99 |
Bulk Density (g/cm3) | 2.65-2.75 |
Apparent Porosity (%) | 15-16 |
Room Temperature Strength (MPa) | 90 |
Strength At 1300℃(MPa) | 100 |
Connection Strength Of Sintered Body(MPa) | 25 |
PRODUCT DETAIL
The RSiC wafer carrier achieves exceptional material purity through advanced recrystallization technology. Specifically designed for semiconductor, photovoltaic, and LED manufacturing environments, this semiconducting wafer carrier provides reliable support for wafers and substrates under extreme thermal and corrosive conditions. The versatile four-column wafer carrier demonstrates outstanding performance across critical processes including chemical vapor deposition (CVD), diffusion, and annealing applications.
APPLICATION
The RSiC wafer carrier delivers comprehensive solutions across multiple advanced manufacturing sectors, leveraging its superior temperature resistance, corrosion immunity, and exceptional cleanliness.
Semiconductor Manufacturing
The semiconducting wafer carrier enables critical process steps including oxidation, diffusion CVD, and ion implantation.
Photovoltaic Production
This four-column wafer carrier supports LPCVD and annealing processes for next-generation TOPCon and HJT battery technologies, directly contributing to enhanced energy efficiency and conversion rates.
Third-Generation Semiconductor & LED Fabrication
The RSiC wafer carrier reliably supports sapphire and silicon carbide substrates during GaN and SiC epitaxial processes, withstanding aggressive corrosive atmospheres including ammonia and hydrogen chloride while enabling production of high-frequency power devices.
Additional Advanced Applications
Within emerging energy materials and scientific research sectors - including lithium battery cathode material sintering and nuclear material heat treatment - the semiconducting wafer carrier consistently demonstrates its exceptional thermal resistance, corrosion immunity, and ultra-clean performance under extreme operational conditions.
PACKING
OUR TEAM
The company has been committed to the research and innovation of silicon carbide products throughout the entire industry chain for many years. Relying on leading silicon carbide manufacturing technology and experience, it is led by high-end talents from well-known universities and institutes, and has introduced a large number of college graduates to form a first-class R&D team. It is dedicated to researching and developing silicon carbide raw materials and high-purity silicon carbide products, laying a solid foundation for the company's long-term development.
