INNOVACERA | technical ceramic solutions

  In the production processes of advanced ceramics, functional materials and electronic components, high-temperature sintering is a key procedure that determines the performance and quality of the products. When the workpiece is fired at high temperatures, it must be securely supported and precisely positioned. This imposes extremely strict requirements on the material of the kiln equipment – not only must it be able to withstand high temperatures, but it also needs to have excellent thermal stability and sufficient mechanical strength. For different high-temperature processing scenarios, innovacera has specially developed silicon carbide (SiC) high-temperature sintering support plates. This product is specially designed for industrial kilns and high-temperature sintering environments. It can maintain excellent structural stability even under extremely high-temperature conditions, providing stable and reliable support and guarantee for the high-temperature sintering of various prod...

High Voltage RF Feedthrough Solution: HN Type Coaxial Connector with Flange Mount In high voltage RF systems, the stability of signal transmission and the reliability of panel interfaces are critical to system performance. The HN Type Coaxial Connector – Flange Mount is designed specifically for high voltage RF signal transmission where secure panel or cabinet wall installation is required. This RF coaxial connector integrates a flange mounting structure with threaded locking, providing strong mechanical stability and vibration resistance during long term operation. Therefore, it is widely applied in high voltage RF through-wall interface scenarios, such as test equipment, communication systems and avionics, etc. Engineering Design Features From the perspective of engineering design, the HN connector mainly addresses the stability issues of radio frequency connections under high voltage and complex environments. Captured Center Contact Structure The connector uses a captured center con...

  A Reliable Foundation Built for New Energy Vehicles​   In the wave of electrification and intelligence, our 96% alumina ceramic substrate stands as the core support for automotive electronics. Made from 96% high-purity alumina, it combines exceptional insulation, high thermal conductivity, and mechanical strength, making it the ideal carrier for power modules and sensors.​     Precision Craftsmanship, Outstanding Performance​   With a dense, flat surface just like what’s shown in our product images, it provides a stable foundation for circuit printing and component mounting. In the electronic control systems of new energy vehicles, it efficiently conducts heat to ensure stable operation of IGBT modules under high loads. In autonomous driving millimeter-wave radars, its high insulation eliminates signal interference entirely.​   Protecting Every Step, From Power to Perception​   From powertrains to perception units, it quietly safeguards vehicle safet...

  Analytica 2026 officially opened in Munich, Germany on March 24th. As an exhibitor in the fields of laboratory technology, analysis testing and biotechnology, INNOVACERA also showcased a variety of precision ceramic products specifically for laboratory and analysis applications at this exhibition.     At Booth A3, Hall 231A, you can learn about: –  Quadrupole Mass Filter s &  Analytical Instruments Components –  Ceramic vacuum feedthrough s, heating elements and metallized components – Ceramic connectors and other customized solutions     If you are engaged in material analysis, laboratory equipment development or related research fields, please come to the site to discuss your specific application requirements. The exhibition is underway. See you at the scene.

  Ceramic packaging is the “housing” for sealing and protecting semiconductor chips, MEMS, or other electronic components. This effectively protects Integrated circuit packaging (ICs), sensors, and other electronic devices from external environmental influences such as moisture, dust, and temperature fluctuations. As semiconductor technology advances towards higher power, smaller size, and higher frequency.   A ceramic package consists of a multilayer ceramic substrate, metal paste and a metal lid, which is made of High-Temperature Co-Fired Ceramic (HTCC) process. The core strength of this method lies in leveraging the superior physical properties inherent to ceramic materials. The ceramic materials are alumina (Al2O3) or aluminum nitride (AlN), possess excellent thermal conductivity, high electrical insulation, and superior mechanical strength.   Our ceramic hermetic packages deliver consistently high performance in leakage rates lower than 5×10⁻⁸ atm·cc/s range. And bra...

Silicon carbide ceramics possess outstanding characteristics such as low thermal expansion coefficient, high thermal-conductivity, good chemical stability, also excellent wear resistance. They are highly promising structural ceramics. When they are endowed with precisely controllable porous structures, the materials retain their original excellent properties while acquiring new functions such as high specific surface area and controllable permeability. As a result, their application fields have been significantly expanded.   I. Properties of Porous SiC Ceramics 1. Porosity Properties ① Porosity Porosity refers to the percentage of the volume occupied by pores in a porous material relative to the total volume of the material (including three types of pores: open pores, semi-open pores, and closed pores). Research has shown that the performance of porous materials mainly depends on the porosity.   ② Pore morphology Pore morphology refers to the shape of the pores in a porous cer...