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Reakcijas saistītais silīcija karbīds

Reaction bonded silicon carbide has numerous applications due to its superior resistance against wear, high temperature and corrosion. Production methods for reaction bonding include pressureless sintering. RB SiC is manufactured by injecting molten silicon into a porous carbon or graphite preform. Once introduced, it interacts with carbon to form a dense body. High Temperature Strength […]

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Ar nitrīdu savienots silīcija karbīds

Nitride-bonded silicon carbide with superior high-temperature strength and excellent oxidation resistance makes an ideal material for kiln furniture applications. Nitride-bonded silicon carbide of the present invention is particularly resistant to abrasive wear in soil masses. Wear resistance was determined to depend on grain size distribution within the mass worked; for best performance in light soil.

Ar nitrīdu savienots silīcija karbīds Lasīt vairāk "

Sintered Silicon Carbide and Its Applications

Silicon carbide has an array of applications in industry due to its excellent properties. These include its resistance against corrosion, oxidation and thermal impact. React-bonded SiC is produced through the sintering process by infiltrating liquid silicon into porous green bodies of silicon carbide and infusing it under pressure. The final material has low fracture toughness.

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Ar nitrīdu savienots silīcija karbīds

Nitride-bonded silicon carbide boasts excellent mechanical strength and toughness, impact resistance and chemical resistance – as well as being suitable for manufacturing into different shapes and sizes, from cone and sleeve types to complex engineered pieces for equipment involved with mining or processing raw materials. Nitride-bonded silicon carbide offers less wear resistance than steel and

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Kas ir silīcija karbīds?

Silicon carbide is an extremely hard and strong material with high density, exceptional corrosion resistance and outstanding tribological properties. Available both sintered and reaction bonded forms. Pressureless sintering provides high densification through reduction of surface energy of grains due to boron and carbon reaction1, but its high temperature leads to excessive grain growth that compromises

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Pārkristalizēts silīcija karbīds

Silicon carbide is an increasingly popular material due to its great mechanical, thermal and electrical properties. Recrystallized silicon carbide has unique properties due to its microstructure. RSiC is often utilized in kiln furniture and ceramic products such as refractories, wear-resistant industries and industrial high temperature kilns due to its excellent corrosion resistance and temperature resistance

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Pārkristalizēts silīcija karbīds

Pārkristalizētais silīcija karbīds (RSiC) nodrošina izcilu izturību augstā temperatūrā un nodilumizturību, padarot to par materiālu, ko var izmantot dažādos lietojumos. Pateicoties tā unikālajai mikrostruktūrai, pārkristalizētais SiC pēc termiskajām, mehāniskajām un ķīmiskajām īpašībām pārspēj gan reakcijas saķepināto, gan bez spiediena saķepināto SiC. RSiC ražo, izmantojot slīdošās liešanas, ekstrūzijas vai iesmidzināšanas procesus.

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Sinterēts silīcija karbīds

Sinterēts silīcija karbīds (SiC) ir inerts keramikas materiāls ar daudzām pielietošanas iespējām, sākot no temperatūras tolerances un ķīmiskās/mehāniskās izturības līdz pat lieliskām ķīmiskajām un mehāniskajām īpašībām. Reaktīvi saistīto SiC keramiku ražo, izmantojot porainas oglekļa izejvielas inertā atmosfērā, izmantojot dažādas formēšanas metodes, piemēram, sauso presēšanu, liešanu vai ekstrūziju, tādējādi radot dažādu formu izstrādājumus. Cietība

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