TMT Rebars are integral to every construction project. During construction TMT rebars and concrete complement each other in a way that Reinforced Cement Concrete (RCC) structure can be moulded into any desired shape, with the rebars providing the requisite tensile strength to withstand the load.

Jindal PantherTM TMT Rebars are technologically advanced thermo-mechanically treated rebars which are superior to ordinary TMT in the market, owing to the state-of-the art manufacturing technology from leaders in rebar production- namely, HYQST Technology from MORGAN of USA (now Siemens USA), HYQST technology produces Rebars with high strength, high ductility and bendability and high weldability surpassing the requirements of Fe500D, 550D and 600CRS rebars.

Jindal PantherTM TMT Rebars are available in the following sizes as per IS: 1786-2008 for Concrete Reinforcement (in mm): 6 8 10 12 16 20 25 28 32 36 40 45* 50*

* Available upon prior agreement before ordering

6-12 mm available in coil form and straight form

Chemical Properties of Jindal PantherTM TMT Rebars
Chemistry IS 1786 Fe 500D & 550D JINDAL PANTHER Fe 500D & 550D IS 1786 Fe 600 JINDAL PANTHER Fe 600 Effects of Element
Carbon% 0.25 max 0.20-0.24 0.30 max 0.25-.28 Increases Hardness & Strength, Decreases Ductility & Weldability
Manganese% Not Mentioned 0.90-.100 Not Mentioned 0.75-.80 Mn has similar effects as C but in lesser extent and controls S
Carbon Equivalent 0.42 Max for Weldable TMT Bars 0.35 to 0.41 0.42 Max for Weldable TMT Bars 0.37 to .41 Lower carbon levels results in Excellent Ductility, High bendability, Better Corrosion Resistance and Superior Weldability
S%& P% 0.040 max 0.030 max 0.040 max .030 S & P- Decreases Ducitility & Weldability, P Increases Corrosion Resistance
S+P% 0.075 max 0.055 max 0.075 max .055 S & P- Decreases Ducitility & Weldability, P Increases Corrosion Resistance

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