ALUMINA C799

ALUMINA C799

ALUMINA C799

ALUMINA C799

Basic properties

Very hard Abrasion resistant Can be milled with great precision Can be polished Stable at high temperatures No open porosity Excellent electrical properties Chemically inert High corrosion resistant.

Applications

Mechanical components Pistons, pump stages Mechanical seals Sealing bushes Faucet keys and seats Electrical insulator Pyrometry Laboratory items, crucibles Vacuum items Welding nozzles.

Realisations

Chemical composition: Aluminium Oxide 99,7% / Silica: 0,05% / Magnesia 0,03 % Sodium Oxide 0,15% / Iron oxide 0,02% / Calcium Oxide 0,03% / Titanium Oxide <0,01 / Boron Oxide <0,02%

BORON NITRIDE

BORON NITRIDE

BORON NITRIDE

BORON NITRIDE

Unique Properties for High-Performance
Industrial Applications

Combat®, a hot-pressed hexagonal Boron Nitride, exhibits a unique combination of chemical, electrical, mechanical and thermal properties, making it suitable for a wide range of high-performance industrial applications.

Combat Boron Nitride’s characteristics depend on the type and amount of binder, overall composition and the type of bond between layers. Backed with industry leading international technical support from Saint-Gobain, Combat provides a full spectrum of solutions in machinable blanks as well as custom finished shapes.

COMBAT AX05 – Does not use any binder and is self bonded, offering the highest purity for high temperature applications. Non-wet by almost all molten metals, AX05 is recommended for applications such as extreme high-temperature insulators and crucibles for high-purity processing.

COMBAT M AND M26 – Combine the moisture resistance of silica with unique properties of boron nitride. Differentiated by the amount of SiO2, Combat M offers unparalleled resistance to thermal shock while Combat M26 offers higher thermal conductivity. M and M26 are ideal for applications requiring extreme and exacting dielectric properties.

COMBAT ZSBN – Combines the non-wetting properties of boron nitride with extreme refractory and wear resistance of zirconia. ZSBN is widely used in a variety of molten metal contact applications.

COMBAT A – Uses boron oxide as a binder to create a hard, dense yet easily machinable product best used in inert and dry environments. It is ideal for general purpose high-performance applications.

COMBAT HP – Leverages Boron Nitride’s outstanding thermal shock resistance with Calcium Borate glass’s moisture resistance. HP is ideal for light metal processing application such as aluminum, magnesium and zinc, particularly electrical insulation applications for up to 1000°C.

BASIC PROPERTIES

Easily machinable to desired shapes and sizes
Exceptional Heat Resistance
High thermal conductivity
Low thermal expansion, excellent thermal shock resistance
Outstanding electrical insulation – even at high temperatures
High wet resistance to molten metals, slags and glass
Extreme corrosion and wear resistance

Applications

MOCVD setters and components
Insulators for high-temperature furnaces
Muffles and crucibles for Nitride and Sialon firing
Nozzles for powder metal atomization
Side dams for twin-roll casting
Continuous casting break rings
High temperature mechanical components such as bearings, valves, spacers
Crucibles and molds for molten metal processing

Target Markets

High Temperature Furnace construction
Ceramic Manufacturing
Semiconductor Industry
PVD coating
Microwave

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Realisations

associated products ↓

MACOR

MACOR

MACOR

MACOR

Basic Properties

Ceramic that can be worked with conventionnal metal tools
Does not require any annealing after machining
Can be used at high temperaure, in continuous work at 800°C and 1000°C at peak.
Low thermal conductivity: high temperature insulator
Excellent electrical insulator
No porosity, no degazeification
Strong and rigid unlike plastics
Is not prone to creep or deformation at high temperatures
Resists to radiation
Can be metallized in thick layers
Can be polished

Applications

Electronic and semi conductor industries
Vacuum and utlra high vacuum industries
Nuclear industries
Medical
Optical
Aerospace
Lasers

Realisations

QUARTZ

QUARTZ

QUARTZ

QUARTZ

Basic properties

High chemical purity
Very weak expansion coefficient
Very high thermal shock resistance
Working temperature : 1050°c
Peak temperature lapses: 1200°c
Can be worked when heated. Possibility to produce complex shapes
Can be welded
Very good optical properties. Transmission in UV spectrum

Applications

Sight discs
Optical
Semi-conductors.
Laboratory material
Electronic
Infrared

Realisations

SAPPHIRE

SAPPHIRE

SAPPHIRE

SAPPHIRE

Basic properties

High mechanical strength
High thermal stability
High heat transmission
Chemically inert
Very high electrical insulation
Very high hardness
Very good wear resistance
Low friction coefficient
High temperature resistance
Good optical properties
Good resistance to acids
UV transparent, infrared and visible radiation.

Applications

Semi-conductor wafers
Watch windows
Electronical applications
Measuring tools.
Optical prisms and lenses
Pistons

Realisations

SHAPAL

SHAPAL

SHAPAL

SHAPAL

Basic properties

Bexcellent workability
Can be used to make precision parts
Airtight in vacuum.
Very high thermal conductivity ( approx. five times higher than Alumina)
Very good mechanical resistance (Resistance to flexion = 30 kg/mm2) comparable to Alumina
Excellente electrical insulator
Low expansion coefficient
Resists to high temperatures
Low dielectric loss
Very high purity

Applications

Prototypes and small series
Parts for vacuum
Parts for electronics requiring electrical insulation and heat dissipation
Crucible for vapour deposition

associated products ↓

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