sales@regencyispat.com

+9184598 14314 / +9184850 06949

sales@regencyispat.com

PRODUCT RANGE

Quality TMT Bars
for Reliable Foundations

Regency Ispat Pvt. Ltd. stands out as a leading manufacturer and supplier of top-notch Thermo Mechanically Treated (TMT) bars
in Maharashtra, India. Designed for optimal strength and flexibility, our TMT bars offer a strong foundation that supports buildings through any condition.

Regency TMT FE500

  • Yield Strength (Nmm²) Min: 500
  • Tensile Strength (Nmm²) Min: 545
  • Elongation (%): 12
  • Ductility: Good
  • Bendability: Surpasses the parameter on correct mandrel
  • Corrosion Resistance: Prolongs Corrosion
  • Fatigue Resistance: Resilient
  • Earthquake Resistance: Suitable for regions with Moderate seismic activity
  • Usage: Residential and commercial construction; suitable for moderate load-bearing structures
  • Cost: Effective
TMT FE500

Regency TMT FE550

  • Yield Strength (Nmm²) Min: 550
  • Tensile Strength (Nmm²) Min: 585
  • Elongation (%): 10
  • Ductility: Higher than FE500
  • Bendability: Surpasses the parameter on correct mandrel
  • Corrosion Resistance: Prolongs Corrosion
  • Fatigue Resistance: Higher than FE500
  • Earthquake Resistance: Suitable for regions with Moderate seismic activity
  • Usage: High-rise buildings, bridges, industrial structures with higher loads
  • Cost: Higher than FE500
TMT FE550

Regency TMT FE500D

  • Yield Strength (Nmm²) Min: 500
  • Tensile Strength (Nmm²) Min: 565
  • Elongation (%): 16
  • Total elongation percentage at maximum force: > 7%
  • Ductility: Higher ductility due to controlled chemical properties
  • Bendability: Surpasses the parameter on correct mandrel
  • Corrosion Resistance: Prolongs Corrosion
  • Fatigue Resistance: Higher than FE 550
  • Earthquake Resistance: High (Suitable for seismic-prone areas)
  • Usage: Earthquake-resistant structures, bridges, critical infrastructure
  • Cost: Slightly higher than FE500 due to higher ductility & resistance
TMT FE500D

Regency TMT FE550D

  • Yield Strength (Nmm²) Min: 550
  • Tensile Strength (Nmm²) Min: 600
  • Elongation (%): 14.5
  • Total elongation percentage at maximum force: > 7%
  • Ductility: Higher ductility due to controlled chemical properties
  • Bendability: Surpasses the parameter on correct mandrel
  • Corrosion Resistance: Prolongs Corrosion
  • Fatigue Resistance: Very High
  • Earthquake Resistance: Higher than FE 500D
  • Usage: Suitable for high-load structures requiring higher ductility and seismic resistance
  • Cost: Higher than FE550 due to ductility benefits
TMT FE550D

Regency TMT FE600

  • Yield Strength (N/mm²) Min: 600
  • Tensile Strength (N/mm²) Min: 660
  • Elongation (%): 10
  • Ductility: Optimized for high strength with balanced ductility
  • Bendability: Excellent performance with the correct mandrel
  • Corrosion Resistance: Prolongs corrosion
  • Fatigue Resistance: Very High
  • Earthquake Resistance: Higher than FE 550D
  • Usage: Ideal for high-load structures, pre-stressed concrete, and seismic zones requiring superior strength
  • Cost: Higher than FE 550D due to enhanced strength and optimized properties
TMT FE500D

Correct Bending Method for TMT Bars: A Key to Stronger Structures

Thermo-Mechanically Treated (TMT) re-bars are crucial in modern construction due to their high strength, ductility, and seismic resistance. To maximize their benefits, proper handling is key, especially when bending the bars. Selecting the correct mandrel for bending ensures the integrity, safety, and performance of TMT re-bars. For full details on why this is so important, click on the “Read More” button.

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