INNOVACERA | technical ceramic solutions

Ceramic valveless piston pump   characteristics: 1. Extremely inert chemical stability, acid and alkali resistance, corrosion resistance, and high-temperature resistance. 2. super hard, wear-resistant, particle release is very small, long service life. 3. the material is dense, the water absorption rate is lower than zero; the surface finish is extremely high, the friction is extremely small; the material residue is extremely small. 4. the coefficient of thermal expansion is very small, the piston fits better, the filling machine has higher precision, and can be cleaned and sterilized online. Application areas: 1. Research institutes, laboratories, universities, pharmaceutical factories, hospitals, cosmetics, etc. 2. widely used in the pharmaceutical, pharmaceutical, food, chemical, cosmetics industry, precision quantitative filling. 3. for the precise quantitative filling of blood, biological reagents, oral liquid, injection, high-grade cosmetics, essence, fungicide and other liquids.

TO-3P/220/247/254/257/258/264 Aluminum Nitride Ceramic Thermal Pads For MOSFET Transistor IGBT Transistor Heat Sink 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 of ceramic materials such as alumina ceramic and  aluminum nitride , which help in providing enhanced thermal conductivity and excellent insulation performance. Typical applications include Power Devices, Integrated Circuit (IC) chip packaging heat conduction,  MOSFET Transistor, IGBT Transistor Heat Sink, MOS Transistor, heat sink interface, LED board Thermal Interface Material (TIM), Chip ON Film (COF) heat conduction. TO-3P-220-247-254-257-258-264 Aluminum Nitride Ceramic Thermal Pads Without Hole For MOSFET Transistor IGBT Transistor Heat Sink A ceram

DPC ceramic substrates are an ideal material for growing VCSEL laser diodes due to their high thermal conductivity, low thermal expansion coefficient, and excellent mechanical properties. The direct bonding process used to create DPC substrates ensures that the copper layer is tightly bonded to the ceramic layer, providing excellent thermal management properties. In addition, DPC ceramic substrates have a coefficient of thermal expansion (CTE) that is well-matched to the epitaxial layers of the VCSEL laser diodes. This ensures that the diodes remain stable and reliable over a wide range of temperatures, making them suitable for use in a variety of applications. Using DPC ceramic substrates can also improve the performance of VCSEL laser diodes by reducing the threshold current and increasing the output power. This is due to the excellent thermal management properties of the DPC substrate, which can dissipate heat more efficiently and prevent thermal runaway. In summary, the use of DPC

Aluminum Nitride Ceramics exhibit exceptional characteristics as below: Good mechanical properties, Higher flexural strength than Al2O3 and BeO ceramics, High temperature and corrosion resistance. High thermal conductivity combined with good electrical insulation characteristics. Exceptional stability when exposed to many molten salts. Thermal stability up to at least 1500°C Favorable mechanical characteristics extending into the high temperature range. Low thermal expansion and resistance to thermal shock. Special optical and acoustic characteristics. Physical Properties: Properties Value Color  Dark Gray Main Content 96%ALN Bulk Density(g/cm 3 ) 3.335 Water Absorption 0.00 Flexural Strength(MPa) 382.70 Dielectric Constant(1MHz) 8.56 Coefficient Linear Thermal Expansion(/℃，5℃/min, 20-300℃) 2.805*10 -6 Thermal Conductivity(30 degree Celsius) >=170 Chemical Durability(mg/cm2) 0.97 Thermal Shocking Resistance No cracks Volume Resistivity(Ω.cm) (20 degree Celsius) 1.4*10 14 Dielectric

Ceramic Reflector for Cynosure Laser - ELITE Ceramic Reflector material properties: Bulk density (fired), Mg/m3:3.1 Color: White Porosity (apparent), % nominal: 22 Flexural strength (ASTM C1161, 3-point), MPa: 170 Thermal expansion coefficient 200-500C, 10 -6 /C 7.9 200-1000C, 10 -6 /C 9.0 Ceramic Reflector features: Compared to metal reflectors, ceramic units offer higher reflectivity and therefore enhanced laser power Surfaces can be sealed and coated with a solarization-resistant glaze to give high bulk reflectivity Resists chemical attack Controlled porosity Has high strength Good thermal conductivity High electrical resistivity We can machine or grind ceramic reflectors against the customer’s drawing. Quantities range from prototype to production quantities. Glazing protects the surface in preventing adhesion of impurities and primarily ensures leak tightness of the reflectors.

Innovacera   ceramic reflectors  work particularly well in Ruby and Nd: YAG laser pumping chambers and can be a highly cost-effective alternative to metal-coated reflectors. They are also extensively used as reflectors in housings for high-intensity lamps. ceramic reflector is used for Lamp-pumped Solid-state Lasers Ceramic reflectors can be glazed both inside the cavity and the out surface using a highly reflective glaze that seals the ceramic against ingress of cooling fluids that may alter the refractive index, introduce impurities and reduce reflectance and efficiencies. Glaze can also act as a filter and our yellow glazed reflectors have been used successfully in certain applications. The visible yellow color is complementary to the spectral colors violet and indigo and effectively absorbs these wavelengths up to around 450 nm.

Alumina Ceramic Spacer Ring Heating Element Specification: > Voltage:95V > Power: 45w > Resistances: 34ohm - 42ohm > Working temperature: 100°C Ceramic heater technology benefits: * A fraction of the energy consumption compared to conventional element heater * Long-lasting (non-aging) * Time to ignition 60~90 seconds * Tested to 100,000 cycles * Easy to install and retrofit *100°C at steady-state temperature * Impervious to oxidation and corrosion Alumina Ceramic Heater Design Structure Ceramic Heaters are manufactured by printing resistors on alumina sheets,being laminated and sintered into one pieces. * Types : ■ Rectangular alumina ceramic heating element ■ Round shape alumina ceramic heating element ■ Rod shape alumina ceramic heating element ■Tube shape alumina ceramic heating element Thermal Properties for Alumina Heater Item Unit Value Vickers Hardness Gpa 11.5 Flexural Strength Mpa 300 Compressive Strength Mpa 2000 Modulus of Elasticity Gpa 300 Poisson's