Engineered with advanced manufacturing technology, our TMT bars deliver superior strength, flexibility, and durability. Available in sizes from 8mm to 32mm and grades Fe500, Fe550, Fe550D, they are ideal for residential, commercial, and industrial construction.
Our TMT bars, made with advanced technology, offer exceptional strength, flexibility, and durability. Suitable for residential, commercial, and industrial projects, they ensure safety and reliability for high-rises, bridges, coastal structures, and earthquake-prone zones.
Our TMT bars are manufactured in multiple grades – Fe-500, Fe-550, Fe-550D – and are available in sizes ranging from 8mm to 32mm. This range caters to diverse construction needs, from light structural work to heavy-duty infrastructure.
Engineered for superior elasticity, our TMT bars can be bent and re-bent to desired shapes without cracks or loss of strength. This makes them ideal for modern architectural designs and complex structural frameworks.
The high ductility of our TMT bars allows them to withstand heavy loads and seismic stresses while enabling ease of fabrication. This makes them suitable for a wide range of applications, from high-rise buildings to infrastructure projects.
With an elongation capacity of up to 18%, our TMT bars ensure better energy absorption and deformation without compromising structural integrity. This enhances earthquake resistance and improves overall safety.
Manufactured using advanced processes, our TMT bars exhibit high resistance to corrosion and rust. This extends their service life and makes them especially suitable for coastal, humid, and industrial environments.
Our TMT bars can withstand extreme heat and temperature fluctuations, ensuring reliable performance in fire-prone and high-heat conditions, thereby improving structural safety.
Our TMT bars, made with advanced technology, offer exceptional strength, flexibility, and durability. Suitable for residential, commercial, and industrial projects, they ensure safety and reliability for high-rises, bridges, coastal structures, and earthquake-prone zones.
| Properties | BIS 1786 Fe500 500 |
United Kingdom B.S. 4449/2005 |
Australia/New Zealand AS NZS 4671/2001 |
Max Super Steel | ||
|---|---|---|---|---|---|---|
| YS Min. MPA | Fe500 500 |
500B * 500 |
500C * 500 |
500N 500 |
500E 500 |
Fe-500SD * 560 |
| YS Max. MPA | N.S | 650 | 650 | 650 | 600 | 640 |
| UTS Min. | 8% Higher than YS | 8% Higher than YS | 15% Higher than YS | 8% Higher than YS | 15% Higher than YS | 15% Higher than YS |
| UTS Max. | N.S | N.S | N.S | N.S | 40% Higher than YS | N.S |
| UTS/YS Min. | 1.08 | 1.08 | 1.15 | 1.08 | 1.15 | 1.23 |
| % of Total Elongation | 12.0 Min | N.S. | N.S. | N.S. | N.S. | 18.3 Min |
| % of Total Elongation upto UTS | N.S | 5.0 Min | 7.5 Min | 5.0 Min | 10.0 Min | 8.2 Min |
| Application | General | General | E.Q. Zone | General | E.Q. Zone | General |
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