INNOVACERA | technical ceramic solutions

  The   Zirconia Ceramic Ball mill jar   is one part of all kinds of grinding and mixing materials equipment. During the various types of ball mill jars, horizontal and planetary ball mill equipment are mostly used. Now let’s explore the differences between these two types of ball mill equipment so that you can select the right equipment for related application.   Planetary sand mill equipment   A planetary ball mill is an efficient ball mill equipment, its grinding principle is the grinding tank as a planet, through the interaction of the planet and the grinding ball, the grinding ball in the tank’s high-speed movement, and friction and collision with the sample or abrasive, to achieve the purpose of grinding. Planetary ball mill is suitable for the preparation of high-purity materials cell crushing and other fields, its biggest advantage is that the grinding efficiency is high, and the grinding particle size is adjustable.     H orizontal sand mill e...

  Innovacera Ceramic Thermally Conductive Interface Pads   are designed to provide a preferential heat-transfer path between heat-generating components, heat sinks, and other cooling devices. The pads are used to fill air gaps caused by imperfectly flat or smooth surfaces which should be in thermal contact. The pads are made by ceramic material such as alumina ceramic and aluminum nitride, which help in providing enhanced thermal conductivity and excellent insulation performance. Aluminum Nitride Ceramic Thermal Pads Regular Size: For Package Type: TO-3P/TO-220/TO-247/TO-264/TO-3/TO-254/TO-257/TO-258, With Hole or Without Hole. TO-3P        25x20x1mm (other thickness is available, too); TO-220      20x14x1mm (other thickness is available, too); TO-247      22x17x0.635mm (other thickness is available, too); TO-264      28x22x1mm (other thickness is available, too); TO-3          39.7×...

  Innovacera standard aluminum nitride wafer diameters are from 50.8 mm (2 inch) to 200 mm (8 inch) ; mostly use are 6” aluminum nitride wafers and 8” AlN wafer substrates . AlN Wafers can be produced in various thicknesses from 0.125mm to 1mm with polished or lapped sides, customized sizes or request are also available. Aluminum Nitride (AIN)  materials play a important roles in the semiconductor industry, the similarities between its thermal profile and that of silicon has made an ideal choice for wafer-related semiconductor applications. Innovacera’s Aluminum nitride wafers have high reliability of Si chip and thermal heat cycling. According to direct wafer bonding technology, polished semiconductor wafers can be bonded together without adhesives. Direct wafer bonding requires very flat and high smooth surface (Ra≤0.05um), Innovacera AlN wafers substrate can meet this requirements. Features High melting point High electrical insulation Lowdielectric constant Higher mechanic...

  In the dynamic world of the copper wire industry, efficiency and quality are key factors in staying ahead. We understand the importance of equipping your industrial cable drawing machines with the best components. That’s why we’re excited to launch our innovative range of drawing rings made from   zirconia ceramic , specifically designed to improve the performance of your cable drawing process. What are drawing rings? Why are they essential? Wire drawing rings are a key component in the industrial cable drawing process. The rings guide the cable through the machine, apply tension and gradually reduce its diameter. This results in thinner, stronger cables that are ideal for various industrial and electrical applications. So a good choice of drawing rings can make a difference in both the quality of the end product and the efficiency of the process.     The Advanced of Zirconia Drawing Rings: 1.Reduce Cable Wear: Zirconia’s smoothness and controlled hardness minimize...

Boron Nitride is often referred to as “white graphite” since it has similar layer structure as graphite. They have excellent high temperature resistance properties, including high dielectric strength, thermal conductivity and excellent chemical inertness, which can solve the challenges of some of the most demanding application fields. Boron nitride ceramics  (BN) are unique in plasma environments for their resistance to sputtering and low propensity to generate secondary ions, even in the presence of strong electromagnetic fields. Sputter resistance helps extend component life, while low secondary ion generation helps maintain the integrity of the plasma environment. Therefore, boron nitride ceramics (BN) are widely used to confine the plasma arc in the sputtering chamber to the target material and prevent the erosion of integral components in the process chamber.    Boron Nitride’s (BN) main products for plasma application include arc shields and guides, target frames, s...

  In industries that require precision milling and grinding,   Zirconium Beads and Mill Jars   are highly valued for their durability, efficiency, and consistent performance. These components, made from Zirconia (ZrO2), play a crucial role in material processing, particularly in industries such as pharmaceuticals, ceramics, and chemical engineering. What Are Zirconium Beads and Mill Jars? Zirconium Beads are spherical grinding media commonly used in milling and grinding operations. Their dense structure and high resistance to wear make them ideal for grinding tough materials into fine powders. Mill Jars, typically made of Zirconia, are containers used to house the materials being ground, providing a durable and inert environment that ensures efficient and contamination-free processing.   Key Features of Zirconium Beads and Mill Jars High Density: Zirconium Beads have a high density compared to other types of grinding media. This allows for faster grinding, improved e...

  With the rapid development of new energy vehicles, batteries, as one of their important components, have become increasingly prominent in terms of thermal management. Battery temperature control in high or low temperature environments is a key factor in ensuring battery performance and safety. 1. Advantages of ceramic materials in battery thermal management Ceramic materials have outstanding advantages in battery thermal management, which are mainly reflected in the following aspects. First, ceramic materials have excellent thermal conductivity. Since batteries generate a lot of heat during operation, the high thermal conductivity of ceramic materials can quickly transfer heat to the external environment, effectively reducing the battery temperature. This helps to improve the working efficiency and life of the battery and reduce safety hazards caused by overheating. Secondly, ceramic materials show good high temperature resistance. Under high temperature environment, ceramic mate...