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Black High Thermal Shock Resistance Customizable Silicon Nitride Ceramic for Non-Standard Structural Parts

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Black High Thermal Shock Resistance Customizable Silicon Nitride Ceramic for Non-Standard Structural Parts

Name: Black High Thermal Shock Resistance Customizable Silicon Nitride Ceramic for NonStandard Structural Parts
Brand: KEGU
Price: 200 USD

Wholesale Black High Thermal Shock Resistance Customizable Silicon Nitride Ceramic for Non-Standard Structural Parts from china suppliers

Brand Name : KEGU

Place of Origin : China

Price : 200-500 yuan/kg

Payment Terms : L/C,D/A,D/P,T/T,Western Union,MoneyGram

Supply Ability : 2,000 pcs/month

Packaging Details : Strong wooden box for Global shipping

Model Number : Customizable

Material : Silicon Nitride

Composition:SiC : ＞85%

Color : Black

Density : 3.20-3.26g/cm3

Max. Service Temp : 1450℃

Flexural Strength : 250MPa

Sample : Customizable

Chemical Stability : High

Apparent Porosity : 0-0.1%

Elastic Modulus : 300-320GPa

Compression Strength : >1500MPa

Vickers Hardness(HV0.5) : 15-16GPa

Thermal Conductivity : 20-25W/(m.k)

Specific Resistivity : 10^14Ω·cm

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Product Description

Advanced silicon nitride ceramic materials, specifically engineered for the aluminum industry, offer superior thermal and mechanical properties compared to conventional alternatives. Building on this innovation, products like the L-shaped high thermal conductivity submerged heating appliance are set to deliver revolutionary improvements in aluminum industrial equipment performance.

Custom structural components demanding exceptional thermal shock resistance represent a key growth area for silicon nitride ceramics. In high-temperature, highly corrosive, and high-wear applications, silicon nitride is increasingly replacing traditional materials such as cemented carbide, alumina, zirconia, and silicon carbide.

Black High Thermal Shock Resistance Customizable Silicon Nitride Ceramic for Non-Standard Structural Parts

Silicon Nitride Ceramics: Property Comparison Data

Category	Property	Unit	99% Al₂O₃	S-SiC	ZrO₂	Si₃N₄
Physical	Density	g/cm³	3.9	3.1	6.0	3.2
	Water Absorption	%	0	0.1	0	0.1
	Sintering Temperature	°C	1700	2200	1500	1800
Mechanical	Hardness (HV)	HV	1700	2200	1300	1400
	Flexural Strength	kgf/mm²	3500	4000	9000	7000
	Compressive Strength	kgf/mm²	30000	20000	20000	23000
Thermal	Max Working Temperature	°C	1500	1600	1300	1400
	Thermal Expansion Coefficient (0-1000°C)	/°C	8.0 × 10⁻⁶	4.1 × 10⁻⁶ (0-500°C)	9.5 × 10⁻⁶	2.0 × 10⁻⁶ (0-500°C)
				5.2 × 10⁻⁶ (500-1000°C)		4.0 × 10⁻⁶ (500-1000°C)
	Thermal Shock Resistance	ΔT (°C)	200	250	300	400-500
	Thermal Conductivity (25°C)	W/m·K	31	100	3	25
	Thermal Conductivity (300°C)	W/m·K	16	100	3	25
Electrical	Volume Resistivity (20°C)	Ω·cm	>10¹²	10⁶–10⁸	>10¹⁰	>10¹¹
	Volume Resistivity (100°C)	Ω·cm	10¹²–10¹³	–	–	>10¹¹
	Volume Resistivity (300°C)	Ω·cm	>10¹²	–	–	>10¹¹
	Dielectric Breakdown Strength	kV/mm	18	Semiconductor	9	17.7
	Dielectric Constant (1 MHz)	ε	10	–	29	7
	Dielectric Loss Tangent	tan δ	0.4 × 10⁻³	–	–	–

Key Advantages of Silicon Nitride (Si₃N₄):

Excellent Thermal Shock Resistance (ΔT 400–500°C)
High Mechanical Strength & Toughness
Good Thermal Conductivity with low thermal expansion
Superior Wear & Corrosion Resistance
High-Temperature Stability up to 1400°C
Electrical Insulation Properties

Applications: Ideal for custom structural components in metallurgy, automotive, aerospace, energy, and industrial wear parts requiring reliability under extreme conditions.

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