Silicon Carbide (Sintered SSiC)

ceramiccarbide

Pressureless sintered alpha-silicon carbide (SSiC). One of the hardest and lightest engineering ceramics (density 3.1 g/cm³). Exceptional thermal conductivity (120 W/m·K), very high compressive strength (3900 MPa), hardness 2800 HV, and outstanding chemical inertness. Maintains strength to 1650°C. Semiconductor (variable resistivity). Applications: mechanical seals, bearings, pump components, kiln furniture, semiconductor furnace parts, ballistic armor, brake discs.

International equivalents

Flag	Standard	Country	Grade	Number	Match
🇩🇪	CeramTec	Germany	Ekasic F/T	—	%
🇯🇵	Kyocera	Japan	SC-211	—	%
🇺🇸	CoorsTek	USA	UltraSiC SC-30	—	%
🇩🇪	Schunk	Germany	CarSIK-SD	—	%
🇬🇧	Syalons	United Kingdom	Reaction/Sintered SiC	—	%
🇫🇷	Saint-Gobain	France	Hexoloy SA	—	%

Sources: ceramtec.com, kyocera.com, coorstek.com, schunk-group.com, syalons.com, saint-gobain.com, SSiC standard

Mechanical properties

as-sintered

Property	Value	Unit
density	≥ 3.1	g/cm3
flexural_strength	≥ 550	MPa
compressive_strength	≥ 3900	MPa
elastic_modulus	≥ 410	GPa
hardness_vickers	≥ 2800	HV
fracture_toughness_kic	≥ 4.6	MPa·m½
poissons_ratio	≥ 0.14	-
thermal_conductivity	≥ 120	W/m·K
thermal_expansion	≥ 4	10⁻⁶/K
specific_heat	≥ 750	J/kg·K
max_use_temperature	≥ 1650	°C

Compatibility verdict

Silicon Carbide (Sintered SSiC) and Ekasic F/T: null% composition match

Related materials

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Zirconium Oxide (Zirconia) Y-TZP

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Yttria-stabilized tetragonal zirconia polycrystal (3Y-TZP). The toughest engineering ceramic with transformation toughening mechanism. Exceptional flexural strength (900–1200 MPa), high fracture toughness (5–10 MPa·m½), density 6.05 g/cm³, elastic modulus ~200 GPa. Low thermal conductivity (2–3 W/m·K) makes it a good thermal insulator. Applications: precision bearings, cutting blades, dental implants, fuel cell components, wear-resistant parts, thread guides.

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Silicon Nitride

Nitride

High-performance non-oxide ceramic with the highest fracture toughness among engineering ceramics (6–8 MPa·m½). Interlocking rod-like β-Si3N4 microstructure provides excellent thermal shock resistance. Flexural strength 690–830 MPa, density 3.27–3.29 g/cm³ (lightweight), thermal conductivity 29–30 W/m·K. Hardness 1450–1580 HV. Applications: precision bearing balls and rollers, cutting tools, turbocharger rotors, engine valves, metal forming dies, weld positioners.

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All data is for reference only. Equivalents indicate similarity, not identity. Always verify against the applicable specification for safety-critical applications. materialref.com accepts no liability for decisions based on this data.