China Shaanxi KeGu New Material Technology Co., Ltd company news

Introduction On the evening of May 15, as crowds slowly disappeared from the Shenzhen International Convention and Exhibition Center, our team packed up exhibition panels, silicon carbide samples, and three days’ worth of conversations before boarding the flight back to Xi’an. Outside the cabin ... Read More

Introduction In advanced ceramic engineering, a common assumption is: Higher density = better performance. Because dense ceramics typically offer: higher mechanical strength, lower porosity, improved hardness, and better wear resistance, many engineers naturally assume that denser materials always ... Read More

Introduction In high-temperature kiln systems, silicon carbide (SiC) rollers are widely valued for their: excellent thermal stability, high stiffness, and resistance to deformation. Because of this, roller straightness is often treated as the primary indicator of roller quality. However, in real ... Read More

Face-to-Face Technical Discussions on High-Temperature SiC Solutions In May 2026, Kegu participated in the Shenzhen Advanced Ceramics Industry Exhibition, presenting our latest pressureless sintered silicon carbide (SSiC) solutions for high-temperature industrial applications. During the exhibition, ... Read More

Introduction Silicon carbide (SiC) is widely used in high-temperature industrial systems because of its: excellent thermal stability, high mechanical strength, and corrosion resistance. In lithium battery material production, especially in high-temperature kiln systems, Pressureless Sintered SiC ... Read More

In lithium battery material production, silicon carbide (SiC) components are widely used because of their: High-temperature stability Excellent mechanical strength Good thermal shock resistance However, field experience shows a major difference between two common lithium sources: Li₂CO₃ (Lithium ... Read More

In high-temperature roller kiln systems, silicon carbide (SiC) rollers are commonly analyzed as beam structures under bending load. As a result, many engineers assume: Bending stress is the primary cause of roller failure. However, field failures often reveal a different reality. In many cases, ... Read More

In continuous roller kilns and high-temperature sintering furnaces, silicon carbide roller rods (SSiC rollers) are widely used as key load-bearing and transmission components in industrial thermal processing systems. However, in real operation, roller failure is often not caused by insufficient ... Read More

In high-temperature roller kiln systems, spiral wear is sometimes observed at the ends of silicon carbide (SiC) rollers operating with spring-supported structures. The wear pattern often appears as: Spiral grooves near the roller edge Progressive material removal Debris accumulation around contact ... Read More

Introduction In high-temperature roller kiln systems, pressureless sintered silicon carbide (SSiC) rollers are widely used because of their: excellent thermal stability, high-temperature strength, low thermal expansion, and superior creep resistance. However, even high-performance SiC rollers can ... Read More