Carbon Additive Calcined Petroleum Coke CPC From China

Name: Carbon Additive Calcined Petroleum Coke CPC From China
Brand: Rizhao Ninefine International Trading Co., Ltd.
SKU: 60227828160_1
Price: 500.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Industrial Carbon Additive: High-purity calcined petroleum coke (CPC) designed for use in electrodes, steel production, and carbon-based manufacturing processes.
Heat Resistance: Engineered to withstand extreme temperatures, making it ideal for high-temperature industrial applications like foundries and metallurgy.

Key features

1. Material Technology: Calcined Petroleum Coke for Enhanced Purity

With calcined petroleum coke (CPC), achieve a high-purity carbon material (~85-92% carbon content) through controlled thermal processing. This eliminates impurities, ensuring superior performance compared to raw petroleum coke*.

2. Performance Parameters: Extreme Temperature Resistance

With a melting point exceeding 3,000°C, this CPC withstands harsh industrial environments, outperforming standard carbon materials in high-heat applications like metallurgy and electrode manufacturing*.

3. Scenario Solutions: Versatile Industrial Applications

Designed for industrial use, this CPC is ideal for steel production, battery anodes, and graphite electrodes. Its dense structure ensures stability in continuous high-load operations, unlike porous alternatives*.

4. Certification Standards: Compliance with Industrial Specifications

Manufactured to meet global industrial standards (e.g., ISO, ASTM), ensuring reliability for critical applications. Certification details available upon request*.

5. Durability & Density: Optimized for Structural Integrity

With a compact, dense structure from calcination, this CPC resists degradation in corrosive or abrasive conditions, extending equipment lifespan compared to lower-grade carbon materials*.

Notes:

The product’s volcanic-rock-like appearance (dense, rugged texture) aligns with its industrial-grade durability.

Product details

Carbon Additive Calcined Petroleum Coke (CPC) is a high-purity, durable material derived from petroleum coke, engineered for industrial applications requiring thermal stability and chemical resistance. Its dark, irregular granular structure and natural rugged texture make it ideal for demanding environments.

Technical specifications

Feature	Specification	Benefit
Material	Calcined Petroleum Coke (CPC)	High thermal resistance and low impurity
Chemical Composition	Carbon (>92%)	Enhanced reactivity in metallurgical processes
Application	Industrial (metallurgy, refractories)	Withstands extreme temperatures (up to 1600°C)
Particle Size	Adjustable (2-20mm)	Customizable for specific process needs

Customization guide

Adjustable particle size (2-20mm) and bulk density (0.8–1.2g/cm³) to meet specialized requirements for furnace linings, electrode production, or carbon additive blends.

Get inspired

With its robust composition and versatility, Carbon Additive CPC is a cornerstone material for industries demanding durability. Use it in blast furnaces, steelmaking electrodes, or as a refractory lining to optimize performance under harsh conditions.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Carbon Purity	92%	94% (+2%)	95% (+3%)*
Particle Size	5-10mm	2-20mm (adjustable)	2-20mm (precision)
Thermal Resistance	1500°C	1550°C (+3%)	1600°C (+6%)

Supplier's note

Technical Breakthroughs:
- Pro Model’s 95% carbon purity ensures superior conductivity and efficiency in high-end electrodes.
- Advanced Model’s adjustable particle size enables seamless integration into diverse industrial processes.
- Base Model’s cost-effective thermal resistance (1500°C) meets standard furnace requirements.
Optimal Version Selection:
- Base Model: Ideal for general industrial applications (e.g., basic refractory linings) where cost-efficiency is prioritized.
- Advanced Model: Suitable for mid-tier processes requiring flexibility, such as carbon additive blending in steel production.
- Pro Model: Recommended for high-temperature environments (e.g., electric arc furnaces) needing 20% higher thermal stability than industry benchmarks.

With the Pro Model’s 1600°C resistance, you can safely operate in extreme conditions, while its precision particle size ensures uniform distribution in electrode manufacturing. The Base Model’s affordability makes it a reliable choice for routine industrial use.

Frequently asked questions

Which calcined petroleum coke (CPC) model is best suited for steel production applications?
How does calcined petroleum coke compare to graphite in electrode manufacturing?
Is your calcined petroleum coke (CPC) compliant with ISO industrial standards?
Can your CPC be customized for lithium-ion battery anodes?
What are the key benefits of calcined vs raw petroleum coke in aluminum smelting?
Which CPC model suits carbon additive needs for electric arc furnaces?
What applications benefit from your petroleum coke’s low sulfur content?
How does your CPC’s thermal conductivity compare to coal-based carbons?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Carbon Content	Lithium-ion batteries, electrodes	Industry Standard: 90% (ASTM D3887) → Our Base: 92% ▲ → Our Advanced: 95% ▲▲	Higher purity improves conductivity and energy density (e.g., electric vehicles).	Advanced tier requires premium pricing due to purification processes.
Particle Size	Graphite anodes, refractory materials	Industry: 0–3 mm → Base: 0–3 mm → Advanced: 0–1 mm ▲▲ (ISO 3310)	Finer particles in Advanced tier enhance surface area for faster charging.	Smaller particles increase production costs and handling complexity.
Bulk Density	Construction aggregates,Foundry molds	Industry: 0.8 g/cm³ → Base: 0.9 g/cm³ ▲ → Advanced: 1.0 g/cm³ ▲▲	Higher density in Advanced tier improves structural stability in molds.	Denser material may reduce workability in certain applications.
Ash Content	High-temperature crucibles	Industry: ≤1.5% → Base: ≤1.0% ▲ → Advanced: ≤0.5% ▲▲ (ASTM D3887)	Lower ash reduces impurities, critical for semiconductor-grade crucibles.	Advanced purification adds cost; Base tier sufficient for standard crucibles.
Compressive Strength	Roadbeds, industrial flooring	Industry: 30 MPa → Base: 35 MPa ▲ → Advanced: 40 MPa ▲▲ (ASTM C109)	Advanced tier withstands heavy machinery in industrial plants.	Higher strength may limit flexibility in uneven terrain applications.
Moisture Content	Foundry green sand mixtures	Industry: ≤2% → Base: ≤1.5% ▲ → Advanced: ≤1% ▲▲ (ASTM D2216)	Lower moisture improves mold integrity and reduces cracking risks.	Advanced drying processes increase energy use and time.

Carbon Additive Calcined Petroleum Coke CPC From China

Carbon Additive Calcined Petroleum Coke CPC From China

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Material Technology: Calcined Petroleum Coke for Enhanced Purity

2. Performance Parameters: Extreme Temperature Resistance

3. Scenario Solutions: Versatile Industrial Applications

4. Certification Standards: Compliance with Industrial Specifications

5. Durability & Density: Optimized for Structural Integrity

Notes:

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which calcined petroleum coke (CPC) model is best suited for steel production applications?

How does calcined petroleum coke compare to graphite in electrode manufacturing?

Is your calcined petroleum coke (CPC) compliant with ISO industrial standards?

Can your CPC be customized for lithium-ion battery anodes?

What are the key benefits of calcined vs raw petroleum coke in aluminum smelting?

Which CPC model suits carbon additive needs for electric arc furnaces?

What applications benefit from your petroleum coke’s low sulfur content?

How does your CPC’s thermal conductivity compare to coal-based carbons?

Product comparison

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