Everything You Need to Know About Boron Ramming Mass

In metal melting and induction furnaces, choosing the right lining material plays a crucial role in ensuring operational efficiency, longer furnace life, and cost-effectiveness. One such advanced material gaining popularity across the industry is Boron Ramming Mass.

Unlike traditional silica ramming mass, Boron Ramming Mass offers improved lining performance, reduced chances of spalling, and better resistance to slag attack.

Key Features of Boron Ramming Mass

• High Thermal Resistance: Withstands high temperatures ranging from 1550°C to 1600°C without losing strength.
• Extended Furnace Lining Life: Reduced wear and tear during melting cycles.
• Low Thermal Conductivity: Helps maintain internal furnace temperature.
• Improved Energy Efficiency: Less heat loss means reduced energy consumption.
• Minimal Slag Build-Up: Ensures cleaner operations and reduces downtime.
• Consistent Performance: Better metal purity and consistent melting.

Applications of Boron Ramming Mass

Boron Ramming Mass is used in various industries including:

• Steel manufacturing plants
• Foundries
• Metal casting units
• Induction furnace operations of all capacities

Whether you’re melting SG iron, grey iron, or high-carbon steel, Boron Ramming Mass delivers reliable results.

Why Choose Raj Global Ramming Mass?

We are a trusted name in the industry, known for delivering high-quality refractory materials including Boron Ramming Mass. Here’s why industries rely on us.

• Premium Quality Raw Material: Only the finest quality quartzite and boron compounds are used.
• Customized Solutions: Available in premixed form with optimized binder ratios.
• Consistent Supply: Large production capacity and timely delivery.
• Technical Assistance: Support from experts to guide usage and furnace maintenance.
• Pan-India Presence: Supplying to major industrial hubs including Jaipur, Dausa, Bharatpur, and other parts of Rajasthan and India.

How to Use Boron Ramming Mass for Best Results

1. Proper Furnace Cleaning: Ensure all old lining and slag is removed before applying the new mix.
2. Even Distribution: Ramming mass should be evenly distributed around the coil.
3. Proper Ramming: Use pneumatic rammers or manual ramming to compact the material layer by layer.
4. Controlled Heating: After lining, follow the heating curve for sintering the material.

Following these steps ensures maximum output and extended life of your induction furnace.

Conclusion

Boron Ramming Mass is a smart investment for any foundry or furnace operator looking to increase efficiency, reduce operational costs, and achieve higher output quality. With its superior features and excellent thermal performance, it is rapidly becoming the preferred choice across the metal melting industry.