TMT Bars Supplier in nagpur
Premium Steel Bars for Durability and Strong Construction.
TMT Bars - For Strong Construction
At Shree Laxmi Cement Products, we are a wholesale supplier of high-quality TMT Steel Bars in Nagpur, trusted by builders, contractors, and construction companies for their superior strength and flexibility. Our TMT bars are designed to provide excellent durability, corrosion resistance, and earthquake-proof performance for all types of construction projects.
Types of TMT Bar We Supply in Nagpur
1. Fe-415 TMT Bars
Fe-415 grade bars are known for their high ductility and are ideal for residential construction and projects requiring easy bending and shaping. They are perfect for low to medium load-bearing structures.
- Application: Used in residential buildings and small-scale construction.
Strength: Good ductility and flexibility make it ideal for earthquake-prone areas.
2. Fe-500 TMT Bars
These are the most commonly used TMT bars in India. Fe-500 bars offer a perfect balance between strength and flexibility, making them suitable for commercial buildings, bridges, and high-rise structures.
- Application: Commonly used in commercial and high-rise construction.
Strength: High tensile strength with excellent corrosion resistance.
3. Fe-550 TMT Bars
Fe-550 bars have higher tensile strength, suitable for heavy-duty construction like industrial projects, dams, and highways. They provide excellent durability and reduced steel consumption due to their higher strength.
Application: Suitable for bridges, industrial structures, and heavy foundations.
Strength: Superior load-bearing capacity with strong resistance to stress.
4. Fe-600 TMT Bars
Fe-600 bars are ultra-strong steel bars designed for large-scale infrastructure projects that require maximum strength and minimal deformation under stress. These are used in metro projects, flyovers, and other high-load applications.
- Application: Used in large infrastructure projects and heavy-duty construction.
Strength: Exceptional yield strength ensures long-term structural stability.
