fine ceramics
Engineering Advanced Fine Ceramics Aluminum Oxide Al2O3 Heat Sink for Insulation
Item Number : KM-C013
Price varies based on specs and customizations
- Material
- Aluminum oxide
- Specification
- See the form
Shipping:
Contact us to get shipping details Enjoy On-time Dispatch Guarantee.
Why Choose Us
Easy ordering process, quality products, and dedicated support for your business success.
Application
A ceramic heat sink is a device for dissipating heat from electronic components in electrical appliances. The hole structure of the ceramic heat sink increases the heat dissipation area in contact with the air, which greatly enhances the heat dissipation effect, and the heat dissipation effect is better than that of super copper and aluminum. Ceramic insulation, high temperature resistance, oxidation resistance, acid and alkali resistance, thermal shock, low thermal expansion coefficient, ensuring stability in high and low temperature or other harsh environments. Ceramics can withstand large currents, withstand high voltages, prevent leakage breakdown, have no noise, and will not generate coupling parasitic capacitance with MOS and other power tubes, thus simplifying the filtering process.
- It maintains hardness at high temperatures, so it can be used as a material for industrial furnaces.
- Used in the manufacture of CVD, ion implantation, lithography and semiconductor parts.
- In traditional industries, alumina ceramics are used in products such as injection pipes, gas nozzles and insulators
- LED lighting, loudspeaker/audio, power transistor, power module, etc. and some high-power equipment.
- IC, MOS, triode, Schottky, IGBT and other surface heat sources that need heat dissipation!
- Especially suitable for high-power equipment, the design space is especially suitable for light, thin, short and small.
Detail & Parts
Technical specifications
| 1.7*3mm | 10*4mm | 16*1mm | 20*20mm | 29.5*1mm | 60*1mm | 100*8mm |
| 3*3mm | 10*5mm | 16*4mm | 20.5*1mm | 30.5*1mm | 57.8*6mm | 107*3mm |
| 4*2.3mm | 10.5*2mm | 16*5mm | 22*1mm | 32*5mm | 70*1mm | 150*5mm |
| 6*6mm | 10.5*10.5mm | 17*1mm | 23.5*2.5mm | 35*1mm | 74*1mm | 200*5mm |
| 7*3.3mm | 12*1mm | 18*0.63mm | 25*0.5mm | 40*1mm | 80*1mm | |
| 8*5mm | 12*5mm | 19*0.8mm | 26*4mm | 45*0.5mm | 90*1mm | |
| 9.5*1.3mm | 14*1mm | 20*1mm | 26*5mm | 51*1mm | 100*1mm | |
| 10*1mm | 16*0.5mm | 20*10mm | 28*6.5mm | 50*5mm | 100*2mm |
The produce we show are available in different sizes and custom sizes are available on request.
Advantages
- Compared to aluminum radiators of the same volume, ceramic models have porosity that increases the surface area for heat dissipation.
- No heat storage, direct heat dissipation, multi-directional heat dissipation, further speeding up heat dissipation.
- Polycrystalline in nature, enhancing the rate of heat dissipation.
- Ceramic insulation, high temperature resistance, oxidation resistance, acid and alkali resistance, long service life.
- Effective anti-interference (EMI) and anti-static.
- Natural inorganic materials meet environmental protection requirements.
- Its insulating properties give it high electrical resistance, and its texture makes it stable, resistant to high temperatures and light in weight.
Trusted by Industry Leaders
FAQ
What Are The Main Applications Of Fine Ceramics?
Comparison Of Radiator Choices.
What Are The Main Types Of Fine Ceramics?
What Is The Principle Behind Fine Ceramics?
What Are The Advantages Of Using Fine Ceramics?
REQUEST A QUOTE
Our professional team will reply to you within one business day. Please feel free to contact us!
Related Products
High Temperature Aluminum Oxide (Al2O3) Protective Tube for Engineering Advanced Fine Ceramics
Alumina oxide protective tube, also known as high temperature resistant corundum tube or thermocouple protection tube, is a ceramic tube mainly made of alumina (aluminum oxide).
High Temperature Alumina (Al2O3) Furnace Tube for Engineering Advanced Fine Ceramics
High temperature alumina furnace tube combines the advantages of high hardness of alumina, good chemical inertness and steel, and has excellent wear resistance, thermal shock resistance and mechanical shock resistance.
Engineering Advanced Fine Ceramics Alumina Crucibles (Al2O3) for Thermal Analysis TGA DTA
TGA/DTA thermal analysis vessels are made of aluminum oxide (corundum or aluminum oxide). It can withstand high temperature and is suitable for analyzing materials that require high temperature testing.
Engineering Advanced Fine Ceramics Aluminium Oxide Al2O3 Ceramic Washer for Wear-Resistant Applications
Alumina wear-resistant ceramic washer are used for heat dissipation, which can replace aluminum heat sinks, with high temperature resistance and high thermal conductivity.
High Temperature Wear-Resistant Alumina Al2O3 Plate for Engineering Advanced Fine Ceramics
High temperature wear-resistant insulating alumina plate has excellent insulation performance and high temperature resistance.
Alumina Al2O3 Ceramic Crucible Semicircle Boat with Lid for Engineering Advanced Fine Ceramics
Crucibles are containers widely used for melting and processing various materials, and semicircular boat-shaped crucibles are suitable for special smelting and processing requirements. Their types and uses vary by material and shape.
Engineering Advanced Fine Alumina Al2O3 Ceramic Rod Insulated for Industrial Applications
Insulated alumina rod is a fine ceramic material. Alumina rods have excellent electrical insulating properties, high chemical resistance and low thermal expansion.
Engineering Advanced Fine Ceramics Alumina Al2O3 Crucible With Lid Cylindrical Laboratory Crucible
Cylindrical Crucibles Cylindrical crucibles are one of the most common crucible shapes, suitable for melting and processing a wide variety of materials, and are easy to handle and clean.
Engineering Advanced Fine Alumina Al2O3 Ceramic Crucible for Laboratory Muffle Furnace
Alumina ceramic crucibles are used in some materials and metal melting tools, and flat-bottomed crucibles are suitable for melting and processing larger batches of materials with better stability and uniformity.
High Quality Alumina Ceramic Screw for Engineering Advanced Fine Ceramics with High Temperature Resistance and Insulation
Alumina ceramic screws are fastening components made of 99.5% alumina, ideal for extreme applications requiring excellent thermal resistance, electrical insulation and chemical resistance.
Engineering Advanced Fine Alumina (Al₂O₃) Ceramic Positioning Pin Straight Bevel for Precision Applications
Alumina ceramic positioning pin has the characteristics of high hardness, wear resistance and high temperature resistance.
Advanced Engineering Fine Ceramics Alumina Ceramic Saggar for Fine Corundum
Alumina sagger products have the characteristics of high temperature resistance, good thermal shock stability, small expansion coefficient, anti-stripping, and good anti-powdering performance.
Custom-Made Alumina Zirconia Special-Shaped Ceramic Plates for Engineering Advanced Fine Ceramics Processing
Alumina ceramics have good electrical conductivity, mechanical strength and high temperature resistance, while zirconia ceramics are known for their high strength and high toughness and are widely used.
Silicon Carbide (SIC) Ceramic Sheet Flat Corrugated Heat Sink for Engineering Advanced Fine Ceramics
Silicon carbide (sic) ceramic heat sink not only does not generate electromagnetic waves, but also can isolate electromagnetic waves and absorb part of electromagnetic waves.
Aluminized Ceramic Evaporation Boat for Thin Film Deposition
Vessel for depositing thin films; has an aluminum-coated ceramic body for improved thermal efficiency and chemical resistance. making it suitable for various applications.
Ceramic Evaporation Boat Set Alumina Crucible for Laboratory Use
It can be used for vapor deposition of various metals and alloys. Most metals can be evaporated completely without loss. Evaporation baskets are reusable.1
Advanced Engineering Fine Ceramics Aluminum Nitride (AlN) Ceramic Sheet
Aluminum nitride (AlN) has the characteristics of good compatibility with silicon. It is not only used as a sintering aid or reinforcing phase for structural ceramics, but its performance far exceeds that of alumina.
Arc-Shaped Alumina Ceramic Crucible High Temperature Resistant for Engineering Advanced Fine Ceramics
In the journey of scientific exploration and industrial production, every detail is crucial. Our arc-shaped alumina ceramic crucibles, with their excellent high temperature resistance and stable chemical properties, have become a powerful assistant in laboratories and industrial fields. They are made of high-purity alumina materials and manufactured through precision processes to ensure excellent performance in extreme environments.
1700℃ Laboratory High Temperature Tube Furnace with Alumina Tube
Looking for a high-temperature tube furnace? Check out our 1700℃ Tube Furnace with Alumina Tube. Perfect for research and industrial applications up to 1700C.
Silicon Carbide SiC Thermal Heating Elements for Electric Furnace
Experience the advantages of Silicon Carbide (SiC) Heating Element: Long service life, high corrosion and oxidation resistance, fast heating speed, and easy maintenance. Learn more now!
Related Articles
Advanced Alumina Ceramics: Applications and Manufacturing Techniques
This article discusses the applications and manufacturing techniques of advanced alumina ceramics, including molds, isostatic pressing, and green bodies.
The Evolution and Strategic Importance of Advanced Ceramics
An in-depth analysis of the development, classification, and strategic importance of advanced ceramics in various industrial and technological fields.
Understanding Oxide Ceramics: Concepts, Classification, and Applications
This article delves into the concept, classification, and diverse applications of oxide ceramics, highlighting their significance in various high-tech fields.
Advanced Alumina Ceramics: Applications and Manufacturing Techniques
Overview of alumina ceramics' applications and manufacturing methods, including molds, isostatic pressing, and green body formation.
Advancements in Engineering Ceramic Materials
Explores new engineering ceramics with exceptional properties and applications in harsh environments, comparing them to traditional materials.
Engineering Ceramic Materials: Applications in Aerospace, Electronic Information, New Energy, and Environmental Protection
This article explores the diverse applications of engineering ceramic materials across aerospace, electronic information, new energy, and environmental protection sectors.
Entropy and the Alumina Tube: The Art of Precision Maintenance
Discover the disciplined approach to cleaning alumina furnace tubes. Learn how to prevent thermal shock, remove residue with acid, and extend equipment life.
The Ceramic Paradox: Why the Best Way to Clean an Alumina Tube is Not to Clean It
Deep cleaning is often a symptom of process failure. Discover the engineering protocols to maintain alumina tubes, prevent thermal shock, and ensure longevity.
Preventing Sample Bonding in Aluminum Oxide Crucible Sintering
Strategies to prevent sample bonding during sintering in aluminum oxide crucibles.
Ceramic Alumina Crucible for Thermal Analysis Test Containers
An in-depth guide on selecting and using ceramic alumina crucibles for thermal analysis tests, focusing on factors affecting test results.
Dos and don'ts during the installation of molybdenum disilicide (MoSi2) heating element
Precautions when installing MoSi2 heating elements
Why Your High-Temperature Furnace Elements Keep Failing (And How to Stop It)
Discover the hidden causes of MoSi2 heating element failure, like pesting and chemical attack, and learn how to achieve reliable, repeatable results.