Build it with
THE power OF
Twelve
Epoxy-coated tmt bars outlast bare
Counterparts with 12x extended lifespan
High Quality
Rigorously tested
Certificate
BIS IS 13620: 1993
BIS IS 13620: 1993
Option of
5-20 Meters
5-20 Meters
Diameter
8 mm. – 40 mm.
8 mm. – 40 mm.
Epoxy Coating
Available Grades
Epoxy Coated
ET CRS TMT Bars
Fe 500, Fe 500 D, Fe 550, Fe 550 D
Epoxy Coated
ET Refined Steel TMT Bar
Fe 500, Fe 500 D, Fe 550, Fe 550 D
ET Superior Quality Steel TMT Bars
Fe 500
All ET EpoxyCoated TMT bar grades are available in pre-fabricated cut & bend format.
Epoxy Coating
Available Grades
Epoxy Coated
ET SUPERIOR QUALITY STEEL TMT BARS
Fe 500
ET REFINED STEEL TMT BARS
Fe 500 D
Fe 500
Fe 550 D
Fe 600
ET CRS TMT BARS
CRS Fe 500
CRS Fe 500 D
CRS Fe 550
CRS Fe 550 D
CRS Fe 600
All ET EpoxyCoated TMT bar grades are available in pre-fabricated cut & bend format.
Made to
Perfection
Manufacturing process highlights.
ET EPOXY TMT BARS
Properties
Technical
Standard
ASTM 775/A775 M-16
(Reaffirmed 2019)
(Reaffirmed 2019)
IS 13620: 1993
(Reaffirmed 2004)
(Reaffirmed 2004)
ET TMT Epoxy
Coated Bars
Coated Bars
COATING THICKNESS
175-400 (microns)
100-300 (microns)
100-300 (microns)
COATING HOLIDAYS
9 holidays/3m (max.)
20 holidays/3m (max.)
20 holidays/3m (max.)
Coating Flexibility (Achieved)
1800
1200
1200
Resistance to Applied Voltage/CD Test
Yes
Yes
Yes
Abrasion Resistance
Max. 100 mg/1000 cycle
Max. 50 mg/1000 cycle
Knoop Hardness
Min. 16 HK
Min. 16 HK
Concrete Bonding Strength
Min. 85 %
Min. 80 %
Min. 90 %
TECHNICAL
Standard
Coating Thickness
175-400 (microns)
Coating Holidays
9 holidays/3m (max.)
Coating Flexibility (Achieved)
Bend at 180 on specific mandrel at 45secon to complete
Resistance to Applied Voltage/CD Test
Abrasion Resistance
Max. 100 mg/1000 cycle
Knoop Hardness
–
Concrete Bonding Strength
Min. 85 %
Coating Thickness
100-300 (microns)
Coating Holidays
20 holidays/3m (max.)
Coating Flexibility (Achieved)
Bend at 120 on specific mandrel at 90 seconds to complete
Resistance to Applied Voltage/CD Test
Abrasion Resistance
Max. 100 mg/1000 cycle
Knoop Hardness
Min. 16 HK
Concrete Bonding Strength
Min. 80 %
Coating Thickness
100-300 (microns)
Coating Holidays
9 holidays/3m (max.)
Coating Flexibility (Achieved)
Bend at > 120 on specific mandrel at 60 seconds to complete
Resistance to Applied Voltage/CD Test
Abrasion Resistance
Max. 100 mg/1000 cycle
Knoop Hardness
Min. 20 HK
Concrete Bonding Strength
Min. 90 %
Corrosion Performance
Evaluation
Collaboration: Electrotherm & CSIR-CECRI, Karaikudi.
Duration: 24 months, 8-member team.
Testing Locations: CSIR CECRI Lab and Mandapam sea beach, Rameswaram (2nd most corrosive environment).
Epoxy Coating
Advantages
1
Automatic Italian Schnell machines ensure cutting
and bending efficiency, accuracy, and uniformity.
and bending efficiency, accuracy, and uniformity.
2
High force resistance and ductility. Ductility enables
cutting and bending sans wear and tear.
cutting and bending sans wear and tear.
3
Perfect joints with closed-loop reinforcement for lateral
support. Provide shear reinforcement in beams.
support. Provide shear reinforcement in beams.
4
Available in superior finish in all desired angles and shapes
in CNC bars, refined steel bars, and superior steel bars.
in CNC bars, refined steel bars, and superior steel bars.
5
Closed loop reinforcement for lateral support
provides shear reinforcement in beams.
provides shear reinforcement in beams.
6
The customer pays only for the theoretical blueprint
weight. Saves on freight and on cumbersome handling
and wastage in onsite cutting and bending.
weight. Saves on freight and on cumbersome handling
and wastage in onsite cutting and bending.
7
Best suited for critical design structures such as
windmills, flyovers, bridges, etc.
windmills, flyovers, bridges, etc.
Epoxy Coated TMT Bar
Applications
Epoxy-Coated TMT Bars are used in heavy
structures and cantilever structures in
corrosive environments.
They play a critical role in strengthening
concrete subjected to corrosive exposure such
as deicing salts and marine environments.
structures and cantilever structures in
corrosive environments.
They play a critical role in strengthening
concrete subjected to corrosive exposure such
as deicing salts and marine environments.