Alumina complex shapes have high thermal conductivity, compressive strength, and thermal shock resistance. It also has a low thermal expansion, making it a suitable material for furnace use in the crucible, tube, and thermocouple sheath form. Alumina is high hardness and good wear resistance, making it a suitable material for ball valves, piston pumps, and deep drawing tools. In addition, it can be easily combined with metals and other ceramic materials using brazing techniques and metalizing.
Composition | AL97 | AL98 |
AL2O3 Content | 97% | 99.80% |
Color | White | Ivory |
Tensile | 30 Kpsi | 32 Kpsi |
Flexural | 55 Kpsi | 60 Kpsi |
Compressive | 300 Kpsi | 330 Kpsi |
Density | 3.7 g/cc | 3.92 g/cc |
Hardness | 13.8 HV, Gpa | 18 HV, Gpa |
Thermal Conductivity | 25 W/(m K) | 32 W/(m K) |
C.O.T.E. | 77 In / In°C (x10^7) | 78 In / In°C (x10^7) |
Working Temperature | 1500 °C | 1750 °C |
Dielectric Constant | 9.5 | 9.8 |
Volume Resistivity | >10^14 Ohm-cm | >10^15 Ohm-cm |
Dielectric Strength | 16 KV/mm | 20 KV/mm |
*This chart just demonstrates the typical properties of common alumina materials we use to produce our alumina parts. Please notice that the property for customized alumina parts could vary due to different processes. Advanced Ceramic Materials (ACM) could provide aluminum oxide ceramic products produced under your specified instruction, or do the best to meet customers’ requirements.
Used for making parts for CVD, ion implants, photolithography, and semiconductor parts.
In traditional industries, alumina ceramics are ideal for products such as injector tubes, gas nozzles, and insulators.
Alumina tubes are widely used as protectors for high-temperature thermal couples.
Our Alumina ceramic complex shapes are carefully handled to prevent damage during storage and transportation and to preserve the quality of our products in their original condition.