Anthracite for Glass & Ceramics | High-Temperature Carbon

Challenges in Glass & Ceramics Production

Glass and ceramics manufacturing requires ultra-pure carbon materials. Impurities in carbon sources can cause:

Color Defects

Iron and other impurities causing unwanted coloration

Surface Flaws

Inconsistent carbon causing bubbles and surface defects

Thermal Stress

Uneven heating leading to cracks and breakage

Product Rejection

High defect rates increasing production costs

Engineered Anthracite for EAF Excellence

For Injection Systems

Fixed Carbon: 90%+

Volatiles: <2%

Particle size: 1-3mm for optimal flow
Low volatiles for cleaner combustion
Consistent sizing prevents blockages

For Charge Carbon

Fixed Carbon: 91%+

Sulfur: <0.75%

Size range: 10-50mm for distribution
Low sulfur protecting steel quality
High density for efficient melting

Technical Specifications

EAF Injection Grade (EAF-90)

Fixed Carbon

90.6%

Ash Content

5.7%

Volatile Matter

1.7%

Sulfur

0.73%

Size: 1-3mm

Moisture: ≤2%

Application: EAF injection systems

EAF Charging Grade (EAF-91)

Fixed Carbon

92.5%

Ash Content

5.8%

Volatile Matter

1.7%

Sulfur

0.75%

Size: 10-50mm

Moisture: ≤2%

Application: EAF charging

Benefits for Your Steel Operations

⚡

Energy Efficiency

Reduce electricity consumption by up to 15% with optimal carbon content

📊

Consistent Quality

Achieve uniform steel quality with stable carbon specifications

⏱️

Faster Melting

Reduce tap-to-tap time with high-reactivity carbon

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Cost Reduction

Lower overall production costs through efficiency gains

EAF Process Optimization

1

Charging

10-50mm anthracite added with scrap metal

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2

Melting

High carbon content accelerates melting

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3

Injection

1-3mm anthracite for carbon adjustment

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4

Refining

Precise carbon control for steel grade

Ready to Optimize Your Steelmaking Process?

Get detailed specifications and pricing for your EAF operations.

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