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Silicon Carbide Foam Filter with Extreme Temperature Resistance, Exceptional

China Silicon Carbide Foam Filter with Extreme Temperature Resistance, Exceptional

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Silicon Carbide Foam Filter with Extreme Temperature Resistance, Exceptional

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Price： Negotiable
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Delivery Time	Negotiable
Packaging Details	Strong wooden box for Global shipping
Payment Terms	L/C,D/A,D/P,T/T,Western Union,MoneyGram
Usage	Industry Usage
Chemical Composition	Al2O3, SiO2
Sic Content	85%
Maximum Temperature	1600℃
Characteristics	High wear resistance
Thermal Expansion Coefficient	4.0-4.5 × 10^-6 /K
Material Composition	4%Si >96%Sic
Working Temperature	1650
Advantage	Wear and abrasion resistance
Purity	98%
Material	Silicon Carbide Ceramic
Acid Alkaline Proof	excellent
Solubility	Insoluble
Open Porosity	<0.1%
Flexural Strength	350-550 MPa
Brand Name	KEGU
Place of Origin	China
Model Number	Customizable

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Product Specification


Delivery Time	Negotiable	Packaging Details	Strong wooden box for Global shipping
Payment Terms	L/C,D/A,D/P,T/T,Western Union,MoneyGram	Usage	Industry Usage
Chemical Composition	Al2O3, SiO2	Sic Content	85%
Maximum Temperature	1600℃	Characteristics	High wear resistance
Thermal Expansion Coefficient	4.0-4.5 × 10^-6 /K	Material Composition	4%Si >96%Sic
Working Temperature	1650	Advantage	Wear and abrasion resistance
Purity	98%	Material	Silicon Carbide Ceramic
Acid Alkaline Proof	excellent	Solubility	Insoluble
Open Porosity	<0.1%	Flexural Strength	350-550 MPa
Brand Name	KEGU	Place of Origin	China
Model Number	Customizable
High Light	Extreme Temperature Resistance Silicon Carbide Foam Filter ，Exceptional Strength SiC Foam Filter ，Superior Thermal Shock Resistance Ceramic Foam Filter

Silicon Carbide Foam Filters: Superior Strength for Demanding Applications

Silicon carbide foam filters represent the premium choice for foundries requiring exceptional thermal and mechanical performance. With outstanding thermal shock resistance and high-temperature stability, they excel in challenging applications where other materials fail. Engineered with an advanced ceramic-bonded SiC structure, these filters provide unmatched durability and filtration consistency, making them the trusted solution for high-volume production and critical casting components.

Distinctive Features

Extreme Temperature Resistance

Stable up to 1530°C in reducing atmospheres, with excellent structural integrity maintained through repeated thermal cycles. This ensures reliable performance in continuous casting operations and high-temperature holding applications.

Exceptional Strength

25% higher compressive strength than standard alumina filters, capable of withstanding metal heads up to 600mm without deformation. The reinforced cellular structure prevents cracking during installation and throughout the casting process.

Superior Thermal Shock Resistance

Withstands temperature differentials exceeding 800°C without spalling or cracking. This unique property allows for pre-heating flexibility and ensures consistent performance even with variable pouring temperatures.

Excellent Corrosion Resistance

Performs exceptionally well with aggressive slags and fluxes commonly used in iron and copper alloys. The chemically inert surface prevents reaction with molten metals, ensuring pure filtration without contamination.

Versatile Applications

Specifically engineered for demanding foundry environments including ductile iron, gray iron, malleable iron, and select steel alloys. Also compatible with high-temperature copper alloys and nickel-based superalloys.

Enhanced Durability

Longer service life compared to traditional ceramic filters, with some applications allowing for limited reuse in non-critical casting processes, providing better cost efficiency over time.

Technical Specifications

Parameter	Specification	Advantage & Technical Insight
Material Composition	SiC with specialized ceramic bonding phase	Optimized silica-based bonding creates a cohesive network that enhances structural integrity while maintaining open porosity. This proprietary formulation prevents filter breakdown under thermal stress.
Color	Dark Gray to Black	Distinct visual identification allows for easy quality control and differentiation from other filter types in inventory management.
Max Operating Temp	≤1500°C (short-term peaks to 1530°C)	Ideal for cast iron (1350-1450°C), copper alloys (1100-1300°C), and some stainless steel applications. Maintains dimensional stability throughout the casting temperature range.
Porosity	80-90% (controlled pore distribution)	Maintains excellent metal flow rates (typically 1-2 kg/cm²*s) while providing thorough filtration. The uniform pore structure ensures consistent filtration efficiency across the entire filter area.
Density	0.45-0.65 g/cm³	Robust yet porous structure provides optimal strength-to-weight ratio. This density range ensures sufficient mechanical strength without compromising filtration capacity or causing excessive heat absorption.
Compressive Strength	≥1.0 MPa (typical range 1.0-1.8 MPa)	Withstands higher metal heads and turbulent flow conditions. This strength level is particularly beneficial in automated pouring systems and high-pressure casting applications.
Thermal Conductivity	15-25 W/m*K (high for ceramic materials)	Reduces thermal gradients within the filter, minimizing thermal stress and preventing crack initiation. This property contributes to the exceptional thermal shock resistance.
Chemical Resistance	Excellent (especially to acidic slags)	Resists attack from common foundry slag components including silica, alumina, and basic oxides. This chemical stability ensures consistent filtration performance without degradation.
Thermal Expansion Coefficient	4.5-5.5 * 10⁻⁶/°C	Low expansion rate minimizes dimensional changes during heating, ensuring proper fit in filter holders and preventing leakage around filter edges.
Filtration Efficiency	>90% for inclusions >0.1 mm	Effective removal of non-metallic inclusions, deoxidation products, and slag particles. The three-dimensional network traps particles throughout the filter thickness, not just on the surface.
Standard PPI Options	10, 20, 30 PPI	10 PPI for high-flow applications with large inclusions; 20 PPI for balanced performance; 30 PPI for maximum filtration of fine particles in critical applications.
Custom PPI Availability	5-40 PPI range	Available for specialized applications requiring specific flow characteristics or filtration requirements.

Advanced Technical Notes

Structural Characteristics

The silicon carbide foam filter features an interconnected, three-dimensional strut network with controlled wall thickness and pore window size. This unique architecture provides:

Multi-stage filtration: Progressive trapping of inclusions throughout the filter depth
Minimal flow restriction: Optimized hydraulic diameter maintains metal velocity
Increased surface area: Approximately 2000-4000 cm²/cm³ for effective inclusion capture

Performance in Special Conditions

Under Reducing Atmospheres: Maintains strength and stability up to 1530°C
With Flux Additions: Resists chemical attack from common foundry fluxes
In Continuous Operations: Suitable for extended use in automatic pouring systems

Quality Assurance Parameters

Uniformity of Pore Structure: ≤10% variation across filter surface
Dimensional Tolerance: ±0.5mm on standard sizes
Defect Rate: <0.5% visual and structural defects
Batch Consistency: Certified material properties for every production lot

Need Technical Consultation or Samples?

Our engineering team can provide specific recommendations for your alloy type, casting method, and quality requirements. Contact us for application analysis and customized solutions.

Company Details

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Business Type:

Manufacturer 
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Year Established:

2017 
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Total Annual:

800-850
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Employee Number:

60~70 
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Founded in 2017, Kegu is a leading advanced materials developer based in China’s Xixian New District, Qinhan New City—strategically positioned near major transport links including the Xianyang East Expressway. With a registered capital of 35.5 million RMB (approx. 5 million USD), we o... Founded in 2017, Kegu is a leading advanced materials developer based in China’s Xixian New District, Qinhan New City—strategically positioned near major transport links including the Xianyang East Expressway. With a registered capital of 35.5 million RMB (approx. 5 million USD), we o...

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Shaanxi KeGu New Material Technology Co., Ltd
5# Chaoyang Road,Weicheng Sub-district，Qinhan New City, Xixian New Area, Xi'an Shaanxi Province,China,712039
https://www.hitech-ceram.com/

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