Complex Shapes from Aluminium Oxide Description
Complex Shapes from aluminium oxide refer to intricately designed or custom-tailored structures formed from a ceramic material primarily composed of aluminium oxide (Al2O3). Aluminium oxide exhibits measured strength, hardness and thermal stability and is employed in various industrial applications.
Aluminium Oxide Complex Shapes Specification
|
Composition
|
UNIT
|
Al95
|
Al99
|
Al997
|
|
Al2O3 Content
|
%
|
95
|
99
|
99.7
|
|
Colour
|
|
White
|
Ivory
|
Ivory
|
|
Tensile Strength
|
Kpsi
|
32
|
38
|
36
|
|
Flexural Strength
|
Kpsi
|
52
|
55
|
54
|
|
Compressive Strength
|
Kpsi
|
300
|
377
|
350
|
|
Density
|
g/cc
|
3.70
|
3.90
|
3.92
|
|
Hardness
|
HV, GPa
|
13.8
|
17.2
|
18
|
|
Thermal Conductivity
|
W/(m K)
|
25
|
30
|
30
|
|
C.O.T.E.
|
In / In°C (x10^-6)
|
7.7
|
7.8
|
7.8
|
|
Operating Temperature
|
°C
|
1500
|
1650
|
1750
|
|
Dielectric Constant
|
|
9.5
|
9.7
|
9.8
|
|
Volume Resistivity (25°C)
|
Ohm-cm
|
>10^14
|
>10^14
|
>10^14
|
Aluminium Oxide Complex Shapes Applications
Components for the aerospace industry are produced using aluminium oxide complex shapes. These parts, which include nozzles, insulators and structural carriers, meet measured specifications for strength, thermal performance and resistance to wear and corrosion.
Medical devices utilise these materials for items such as dental replacements, hip prostheses and surgical instruments. Biocompatibility and endurance against wear and sterilisation conditions are verified by testing.
In semiconductor manufacture, aluminium oxide complex shapes are employed for wafer carriers, insulators and substrates. Their high purity, electrical isolation properties and resistance to high temperatures and corrosive chemicals are quantified.
Electrical and electronic insulators made from these materials are used in circuits, substrates and heat sinks. They meet specific requirements for breakdown strength, thermal conductivity and dimensional stability.
Chemical processing equipment utilises aluminium oxide complex shapes for catalyst carriers, reaction vessels and protective linings. The material resists high temperatures, corrosion and abrasive wear.
Wear-resistant parts are fabricated for pump seals, valve seats and bearing components. Such parts have been tested against long-term exposure to abrasive conditions.
Thermal insulators manufactured from aluminium oxide are applied in furnaces, kilns and heat treatment installations. They have demonstrated resistance to thermal cycling.
Optical and laser components are produced for lenses, reflectors and mounts. Their performance is maintained under high-temperature conditions and precise dimensional limits.
In energy and power generation, aluminium oxide components are used for nuclear reactor parts, turbines and fuel cells. They are designed in accordance with defined strength, thermal stability and corrosion resistance standards.
Aluminium oxide complex shapes are also used in the automotive industry. Examples include sensors, spark plugs and exhaust system parts, each meeting thermal and mechanical strength criteria.
Analytical instruments incorporate these materials in the manufacture of crucibles, sample holders and mixing tools. Chemical resistance and high-temperature performance are quantitatively measured.
Environmental and water treatment systems benefit from aluminium oxide components. These parts, which manage corrosive liquids and gases, are tested for long-term durability under severe conditions.
Aluminium Oxide Complex Shapes Packaging
Our aluminium oxide complex shapes are handled with care. Procedures are in place to avoid damage during storage and transport, thereby preserving the product quality in its original state.
Prototyping service available for other ceramic materials
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