SiO2 Bonded SiC Silicon Carbide Plate Sheet

Customization:

Customized logo（Min.Order: 2000 pieces）

Customized packaging（Min.Order: 2000 pieces）

Graphic customization（Min.Order: 2000 pieces）

View product details

SiO2 Bonded SiC Silicon Carbide Plate Sheet

Name: SiO2 Bonded SiC Silicon Carbide Plate Sheet
Brand: DKJL Co., Ltd.
SKU: 721924212_1
Price: 4.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

High-Temperature Resistance: Designed to withstand extreme temperatures (1580°C–1770°C), making it ideal for thermal insulation, furnace linings, and high-heat industrial applications.
Corrosion and Wear Protection: Enhanced durability due to silicon carbide (SiC) and silica (SiO₂) bonding, with customizable Cr₂O₃ content (8%–90%) to resist chemical corrosion and mechanical wear.
Precision Customization: Offers cutting services to tailor dimensions and shapes for specific applications, ensuring seamless integration into diverse systems.

Key features

1. Material Technology

With a SiC and SiO₂-bonded composition, achieve superior corrosion resistance and high-temperature stability compared to traditional refractory materials*.

2. Performance Parameters

With a refractoriness range of 1580°C to 1770°C, withstand extreme thermal environments 20% hotter than standard ceramic materials*.

3. Scenario Solutions

Engineered for industrial furnaces and chemical processing equipment, offering 30% longer service life in corrosive high-heat applications*.

4. Interactive Design

Customizable via precision cutting services, enabling tailored dimensions for seamless integration into machinery components*.

Product details

The SiO₂ Bonded SiC Silicon Carbide Plate Sheet combines high thermal resistance and corrosion resistance, making it ideal for industrial applications requiring durability in extreme environments. Available in customizable chromium (Cr) content percentages (0%, 1%, 8%, 15%, 90%), these plates are cut to precise dimensions and engineered for applications like kiln linings, chemical processing equipment, and high-temperature machinery components.

Technical specifications

Feature	Specification	Application Scenario
Material	Silicon Carbide (SiC) + Silica	Thermal insulation, refractory linings
Chromium (Cr) Content	0%, 1%, 8%, 15%, 90%	Custom corrosion resistance for chemical/industrial uses
Refractoriness	1580°C to 1770°C	High-temperature furnaces, heat treatment equipment
Processing Service	Precision cutting	Tailored dimensions for machinery components

Customization guide

Adjustable chromium (Cr) content and plate dimensions allow customization to meet specific thermal, chemical, or structural requirements. For example:

Low Cr (0-1%): Optimal for general thermal insulation.
High Cr (15-90%): Ideal for corrosive environments (e.g., chemical reactors).

Get inspired

With SiO₂ Bonded SiC plates, you can design components that withstand extreme temperatures and corrosive chemicals. Their uniform structure and customizable properties make them adaptable for everything from automotive exhaust systems to industrial furnace linings.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Chromium (Cr) Content	8%	15%	90%*
Refractoriness	1650°C	1700°C (+3%)*	1770°C (+7%)*
Thickness Range	3–10 mm	3–15 mm	3–20 mm

Supplier's note

Three Technical Breakthroughs:
- Customizable Cr Content: Enables tailored corrosion resistance (e.g., 90% Cr for aggressive chemical environments).
- Precision Refractoriness Control: Achieves a stable 1580–1770°C range, outperforming industry benchmarks by 5–10%.
- Scalable Thickness: The Pro Model’s 20 mm thickness accommodates heavy-duty structural applications.
Version Selection Guide:
- Base Model: Suitable for standard thermal applications (e.g., kiln shelves) where cost-efficiency is prioritized.
- Advanced Model: Ideal for moderate chemical exposure (e.g., food processing equipment) requiring enhanced durability.
- Pro Model: Designed for extreme environments (e.g., aerospace components) needing maximum corrosion resistance and thermal stability.

Pro Model’s 90% Cr content triples the industry standard for chemical resistance, enabling safe handling of sulfuric acid and molten metals. Paired with its 1770°C refractoriness, this creates a solution for prolonged exposure to high-temperature corrosive fluids.

Frequently asked questions

Which SiO2 Bonded SiC plate is best suited for high-temperature furnace linings?
How does SiC compare to alumina in refractory applications?
Can SiO2 Bonded SiC sheets be customized for specific dimensions?
What CRO content is recommended for chemical resistance?
Is SiO2 Bonded SiC certified for high-temperature industrial use?
Can these plates withstand sudden temperature changes?
What applications suit SiC plates with 1% CRO content?
How do I maintain SiO2 Bonded SiC plates for longevity?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Refractoriness Degree	High-temperature furnaces, kilns	Industry Standard: 1450–1550°C (ISO 22630) Our Base: 1580–1770°C (ASTM C20) Our Advanced: 1700–1770°C (ASTM C20)	▲ +130°C vs Industry (Base) ▲ +20°C vs Base (Advanced)	Limited to max 1770°C; requires specialized handling for extreme temps
Corrosion Resistance	Chemical processing, acid-resistant zones	Industry Standard: 5% Cr₂O₃ (ASTM E415) Our Base: 8% Cr₂O₃ (ASTM E415) Our Advanced: 15% Cr₂O₃ (ASTM E415)	▲ +3% Cr₂O₃ (Base) ▲ +7% Cr₂O₃ (Advanced)	Higher Cr₂O₃ content increases cost; may reduce thermal conductivity
Material Composition	Structural heat shields, industrial parts	Industry Standard: Alumina (Al₂O₃) based Our Base/Advanced: SiC + SiO₂ composite (ISO 589)	Lighter than alumina (25% weight reduction) Higher thermal stability	Slightly lower hardness compared to pure alumina-based materials
Processing Service	Custom part fabrication	Industry Standard: Standard sizes only Our Base: Precision cutting (±0.1mm) Our Advanced: Laser-cut shapes	▲ +Custom geometries (Advanced) Tooling flexibility	Custom cutting incurs additional costs; lead times vary
Weight	Lightweight thermal barriers	Industry Standard: 2.6 g/cm³ (steel) Our Base/Advanced: 1.8–2.2 g/cm³ (ASTM D792)	▲ -30% lighter than steel	Not suitable for high-load structural applications without reinforcement
Thermal Shock Resistance	Rapid temperature cycling systems	Industry Standard: ΔT 100°C (ISO 12808) Our Base: ΔT 200°C (ASTM C393) Our Advanced: ΔT 250°C (ASTM C393)	▲ +100°C ΔT vs Industry (Base) ▲ +50°C ΔT vs Base (Advanced)	Performance degrades at temperatures exceeding 1770°C

SiO2 Bonded SiC Silicon Carbide Plate Sheet

SiO2 Bonded SiC Silicon Carbide Plate Sheet

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology

2. Performance Parameters

3. Scenario Solutions

4. Interactive Design

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which SiO2 Bonded SiC plate is best suited for high-temperature furnace linings?

How does SiC compare to alumina in refractory applications?

Can SiO2 Bonded SiC sheets be customized for specific dimensions?

What CRO content is recommended for chemical resistance?

Is SiO2 Bonded SiC certified for high-temperature industrial use?

Can these plates withstand sudden temperature changes?

What applications suit SiC plates with 1% CRO content?

How do I maintain SiO2 Bonded SiC plates for longevity?

Product comparison

Related searches