Custom products design and manufacturing

best service ,best view
contact us email : 718642093@qq.com

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Custom products design and manufacturing

More than 100 sets of mould for ceramic backing welding

Better service ,Better Design
contact us 718642093@qq.com

Read More
More than 100 sets of mould for ceramic backing welding

Electronic Ceramics-2

Ceramic Welding Backing | Ceramic Backing Welding| Ceramic Backing Taps 

Ferrites

 

 

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Thin, high strength mullite setters (Andafrax, Mulnorite®KS766, AnnaMullit® and sandwich batts are used for firing soft ferrites (electromagnets) at a temperature ranging from 1300°C to 1400°C. Sandwich batts are manufactured with a core layer of silicate bonded SiC (Carbofrax®A) sandwiched between two non-reactive surfaces of mullite (Mullfrax®201).These batts provide improved thermal shock resistance and prolonged flatness retention.
Saint-Gobain's non-reactive zirconia setters (Zirnorite®ZN392) assist in achieving the highest ferrite permeability value.

 

Titanates

 

 

Our refractories are chemically compatible with titanate materials used to manufacture a variety of products including capacitors, RF filters, resistors , thermistors and piezolelectrics.
High alumina (Alundum®AS191A, Alundum®AS291, AnnaCor 93) and zirconia coated alumina products provide excellent strength and low mass along with non-reactive setting surfaces.
Our solid zirconia refractories (Zirnorite®ZH392, Zirnorite®ZH730) are also compatible with the most reactive titanate materials.
All of our materials are formulated for exceptional thermal shock resistance and high strength at temperature.
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Quartz & Crystals

 

 

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Our dense, yttria stabilized zirconia shapes (Zirnorite® ZS730) or bubble zirconia based insulating fire bricks (Zirnorite® ZH595) and alumina (Alundum® AS191A, AnnaCor 93) refractories are proven to withstand extreme operating temperatures in Quartz and Crystal (ruby, sapphire, yttrium aluminum garnet, etc.) processing furnaces. Their low thermal conductivity is particularly valuable for minimizing heat losses and easily attaining maximum temperature.

 

 


Date: 2023-04-10     hits: 865    Return


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