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Global Recrystallized Silicon Carbide Ceramics Supply, Demand and Key Producers, 2024-2030

date 02 Nov 2024

date Chemical & Material

new_biaoQian Recrystallized Silicon Carbide Ceramics

Recrystallized silicon carbide ceramics are blanks made by grading silicon carbide particles of different particle sizes in a columnar shape. The fine particles of the grains in the blank can be evenly distributed between the coarse particle pores, and then flow under high temperatures above 2100°C and certain airflow protection. The fine silicon carbide particles gradually precipitate at the contact points after evaporation and condensation until the fine particles completely disappear. Due to this evaporation-condensation mechanism, new grain boundaries are formed at the neck of the particles, resulting in the migration of fine particles and the formation of a bridge structure between large particles and a sintered body with a certain porosity. The advantage is that the ceramic material does not require any sintering aids during the sintering process, and the sintered body is a single crystal silicon phase with excellent anti-oxidation properties.

USD4480.00

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Global Recrystallized Silicon Carbide Ceramics Market 2024 by Manufacturers, Regions, Type and Application, Forecast to 2030

date 02 Nov 2024

date Chemical & Material

new_biaoQian Recrystallized Silicon Carbide Ceramics

Recrystallized silicon carbide ceramics are blanks made by grading silicon carbide particles of different particle sizes in a columnar shape. The fine particles of the grains in the blank can be evenly distributed between the coarse particle pores, and then flow under high temperatures above 2100°C and certain airflow protection. The fine silicon carbide particles gradually precipitate at the contact points after evaporation and condensation until the fine particles completely disappear. Due to this evaporation-condensation mechanism, new grain boundaries are formed at the neck of the particles, resulting in the migration of fine particles and the formation of a bridge structure between large particles and a sintered body with a certain porosity. The advantage is that the ceramic material does not require any sintering aids during the sintering process, and the sintered body is a single crystal silicon phase with excellent anti-oxidation properties.

USD3480.00

Add To Cart

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industry 02 Nov 2024

industry Chemical & Material

new_biaoQian Recrystallized Silicon Carbide Ceramics

Recrystallized silicon carbide ceramics are blanks made by grading silicon carbide particles of different particle sizes in a columnar shape. The fine particles of the grains in the blank can be evenly distributed between the coarse particle pores, and then flow under high temperatures above 2100°C and certain airflow protection. The fine silicon carbide particles gradually precipitate at the contact points after evaporation and condensation until the fine particles completely disappear. Due to this evaporation-condensation mechanism, new grain boundaries are formed at the neck of the particles, resulting in the migration of fine particles and the formation of a bridge structure between large particles and a sintered body with a certain porosity. The advantage is that the ceramic material does not require any sintering aids during the sintering process, and the sintered body is a single crystal silicon phase with excellent anti-oxidation properties.

USD4480.00

addToCart

Add To Cart

industry 02 Nov 2024

industry Chemical & Material

new_biaoQian Recrystallized Silicon Carbide Ceramics

Recrystallized silicon carbide ceramics are blanks made by grading silicon carbide particles of different particle sizes in a columnar shape. The fine particles of the grains in the blank can be evenly distributed between the coarse particle pores, and then flow under high temperatures above 2100°C and certain airflow protection. The fine silicon carbide particles gradually precipitate at the contact points after evaporation and condensation until the fine particles completely disappear. Due to this evaporation-condensation mechanism, new grain boundaries are formed at the neck of the particles, resulting in the migration of fine particles and the formation of a bridge structure between large particles and a sintered body with a certain porosity. The advantage is that the ceramic material does not require any sintering aids during the sintering process, and the sintered body is a single crystal silicon phase with excellent anti-oxidation properties.

USD3480.00

addToCart

Add To Cart