INNOVACERA | technical ceramic solutions

High-Performance Ceramic-to-Metal Sealed Electrodes for Vacuum & High-Temperature Applications We manufacture custom ceramic electrodes and vacuum ceramic feedthrough assemblies for high-demanding environments, delivering superior high-temperature resistance, vacuum integrity, and reliable electrical insulation.   A typical multi-pin vacuum ceramic electrode assembly featuring: – High-temperature insulating ceramic body – SUS304 stainless steel flange – Multi-electrode configuration (4–5 pins customizable) – O-ring sealing groove design – Precision machined mounting interface – Insulated stainless steel studs and nuts   This type of product is widely used in: – Vacuum furnaces – Semiconductor processing equipment – Analytical instruments – Plasma systems – High-temperature reactors – Power feedthrough systems   Our Core Manufacturing Capabilities Advanced Ceramic Processing We produce high-purity alumina insulating ceramics with: – Excellent dielectric strength – Long...

  In the field of   High-power Power Electronics, the ceramic wafers make a great contribution,   when you think of high-tech materials, your mind probably jumps to silicon, graphene, or whatever Elon Musk is tweeting about this week. But here at Innovacera, we’d like to introduce you to a true backstage superstar— Aluminum Nitride , or AlN if you’re in the know.   Now, AlN might not have the celebrity status of silicon, but it’s got something better: thermal conductivity up to 230 W/m·K. That’s 9.5 times that of alumina, in case you were wondering. It’s the kind of performance that makes engineers blush and thermal management experts weep with joy.     Whether it’s chilling with LEDs, keeping laser diodes in line, or holding its nerve in high-temperature sensors, AlN does it all—and with style. It’s electrically insulating, mechanically strong (450 MPa, if you’re keeping score), and resistant to thermal shock, molten metal. Innovacera offers AlN wafers fro...

Nowadays, the industries of advanced manufacturing, new energy materials and fine chemicals are developing rapidly. People have increasingly strict requirements for the particle size accuracy and purity of powder materials. Powder grinding is a crucial process in the material preparation procedure. The grinding efficiency and process stability are largely dependent on the performance of the grinding media itself. In many high-demand industrial fields, grinding balls made of ceramic materials have emerged due to their excellent performance.   1.Ceramic Grinding Balls Ceramic grinding balls (or grinding media) are commonly used in grinding equipment such as ball mills, stirred mills, and vibratory mills. During grinding, the balls impact and frictionize the materials to refine and disperse particles, achieving smaller size and more uniform distribution. Compared to traditional metal grinding balls, ceramic materials have higher hardness, greater wear resistance and stronger chemical ...