High Tensile Steel Plates are made of different types of steels and alloyed steels material. The tensile strength is the measure of force a steels can take before being ripped apart if pulled in opposite directions. Suryadeep Industry is a supplier and producer of tensile plates. The High Strength Steel Plate is used in applications that undergo heavy stress like in the oil and gas industries, heat exchangers, super heaters and boilers where they are used in tankers, storage containers and in platforms and transportation components. The plates with more than 335MPa are considered High Tensile Plates. It is an important property to make sure that an application would not tear off under stress. The ordinary carbon steels are replaced by low tensile strength plates and sheets where the welding capacity is also improved.
The High Tensile Strength Steel Sheet can be made up of a number of alloyed materials. There are alloyed materials made up of nickel, chromium, vanadium, titanium, niobium or molybdenum. The Low Alloy High Strength Steel Plate has lower contents of alloys ranging from 0.5% to 5% of alloy materials. There are also alloy strength plates that have high alloying contents. Some of the commercially pure grades such as the titanium and nickel plates also have very tensile strength properties. The High Yield Strength Plate has a solid quality, high elasticity and solid structure. These are also used as dumper bodies as malleable plate and frame in substantial street vehicles, crane development, weight vessels, mining and earthmoving equipment, force plants and in structural steels works. The High Tensile Strength Steel Plates can withstand in these heavy pressure and stress environments without damaging the components because of the tensile strength. Please contact us for further information and pricing of the High Strength Carbon Steel Plate and other types of steels plates.
Table of Content - High Strength Steel Plate Most Common Specification - Low Alloy High Strength Steel Plate Chemical Structure - High Tensile Strength Steel Plates Mechanical Characteristics - Frequently Used High Tensile Steel Plates Types - Advanced High Strength Steel Sheet Notch Impact Energy - High Strength Steel Sheet Metal Forming - High Tensile Plates Heat Treatment - High Strength Steel Plate Applications - High Tensile Steel Density - High Strength Carbon Steel Plate Features - High Tensile Steel Plates Grades chart - Strength Requirements For Structural Steels EN 10025-6, QT-Steels - High Strength Steel Plate Minimum Energy Values For Impact Tests - Carbon Steel High Strength Plates Tests - Strength Requirements For Structural Steels EN 10025-4, TM-Steels - HSLA Sheet Technical Parameters - High strength low Alloy Plate Standard
Specification | High Tensile Steel Plates |
Thickness: | 3 milimeter – 250 milimeter |
Production | Hot-Rolled (HR) / Cold-Rolled (CR) |
Application | Oil & Gas , Sugar Mills , Chemicals & Fertilizers Industries , Ship Building , Cement Industries , Paper Industries , Petrochemicals , etc |
Width | 1000 milimeter – 3000 milimeter |
Lengths: | up to 20 meter |
S | C | Cr | Si | Mo | Mn | Ni | P | Al |
---|---|---|---|---|---|---|---|---|
0.005 max | 0.20 max | 1.50 max | 0.80 max | 0.70 max | 1.70 max | 2.0 max | 0.0.20 max | 0.015 max |
Thickness milimeter | Rm MPa | Re MPa | A % |
---|---|---|---|
< 50 | 770 – 940 | 690 | 14 |
> 50 ? 100 | 760 – 930 | 650 | 14 |
> 100 | 710 – 900 | 630 | 14 |
Steel Grade | – 40°C | 0°C | – 60°C | – 20°C |
---|---|---|---|---|
S690Q/MAXIL® 690 Q | 40 J 30 J |
30 J 27 J |
||
S690QL/MAXIL® 690 QL | 30 J 27 J |
50 J 35 J |
40 J 30 J |
|
S690QL1/MAXIL® 690 QL1 | 40 J 30 J |
60 J 40 J |
30 J 27 J |
50 J 35 J |
Thickness mm (2.5) – 3 | (3) – 4 | (4) – 5 | (5) – 6 | (6) – 7 | (7) – 8 | (8) – 10 |
---|---|---|---|---|---|---|
3.5 | 5 | 6 | 8 | 12 | 14 | 16 |
Heat Treatment | Treatment time & manner of cooling | Temperature °C |
---|---|---|
Stress relieving | 2 minutes/mm thickness, min. 30 minutes. Slow cooling in the furnace |
550 – 580 (target 560) |
ASTM (USA) | IS (INDIA) | DIN (GERMANY) | BS (ENGLAND) | EN (EUROPE) | JIS (JAPAN) |
---|---|---|---|---|---|
A572: Gr 42, Gr 50 A656 Gr 50 |
IS 2062: E300,E350,E410, E450
SAILMA: 300HI, 350HI, 410HI, 450HI IS 8500: FE 440, FE 490, FE540, FE 570 |
17100: ST 44.3, ST 52.3 | BS 4360: 43, 50 | EN 10025: S275, S355 EN 10113 |
G 3101: SS490 G 3106: SM 490, SS520 |
MATERIAL | YIELD STRENGTH (MPA) | DENSITY (G/CM³) |
---|---|---|
Steel, AISI 4130, water quenched 855 °C (1570 °F), 480 °C (900 °F) temper | 951 | 7.85 |
Steel, API 5L X65 | 448 | 7.8 |
Steel, high strength alloy ASTM A514 | 690 | 7.8 |
Acrylic, clear cast sheet (PMMA) | 72 | 1.16 |
Quality |
Test Temperature °C |
|||
-20 |
-40 |
-50 |
-60 |
|
M |
40J |
|||
ML |
27J |
|||
Q |
30J |
|||
QL |
30J |
|||
QL1 |
30J |
Grade |
Nominal Thickness t (mm) |
||
3 ≤ t ≤ 50 |
50 < t ≤ 100 |
100 < t ≤ 150 |
|
Minimum yield strength ReH, MPa |
|||
S460Q |
460 |
440 |
400 |
S500Q |
500 |
480 |
440 |
S550Q |
550 |
530 |
490 |
S620Q |
620 |
580 |
560 |
S690Q |
690 |
650 |
630 |
S890Q |
890 |
830 |
|
S960Q |
960 |
||
Tensile strength Rm, MPa |
|||
S460Q |
550-720 |
500-670 |
|
S500Q |
590-770 |
540-720 |
|
S550Q |
640-820 |
590-770 |
|
S620Q |
700-890 |
650-830 |
|
S690Q |
770-940 |
760-930 |
710-900 |
S890Q |
940-1100 |
880-1100 |
|
S960Q |
980-1150 |
Grade |
Nominal thickness (mm) |
|||||
≤16 |
>16 ≤40 |
>40 ≤63 |
>63 ≤80 |
>80 ≤100 |
>100 ≤120 |
|
Minimum yield strength ReH, MPa |
||||||
S420M |
420 |
400 |
390 |
380 |
370 |
365 |
S460M |
460 |
440 |
430 |
410 |
400 |
385 |
Tensile strength Rm. MPa |
||||||
S420M |
520-680 |
500-660 |
480-650 |
470-630 |
460-620 |
|
S460M |
540-720 |
530-710 |
510-690 |
500-680 |
490-660 |
Steel Grade | Executive Standard |
---|---|
12Mn,16Mn 15MnV,15MnVN 14MnNb | GB3274-88 |
Q295(A,B), | GB/T1591-94 |
Q345(A,B,C,D,E)≤100mm | GB/T1591-94 |
Q345(A,B,C,D,E)≥ 102mm | Q/WTB8 - 2000 |
Q390(A,B,C,D,E) Q420(A,B,C,D,E) Q460(C,D,E) | GB/T1591-94 |
Q500(D,E),Q550(D,E), Q620(D,E),Q690(D,E) | GB/T16270 |
SM490(A,B,C),SM490Y(A,B) SM520(B,C),SM570 | JIS G3106 |
SS490,SS540 | JIS G3101 |
St44-3,St52-3,St50-2 St60-2,St70-2 | DIN17100 |
StE315,StE355,StE380 StE420,StE460,StE500 | DIN17102 |
A572M(Gr42,50,60,65) A633M(A,C,D,E) | ASTM |
S275(JR,J0,J2G3,J2G4) S355(JR,J0,J2G3,J2G4, K2G3,K2G4) E295,E335,E360 | EN10025 |
S275N,S275NL,S355N,S355NL S420N,S420NL,S460N,S460NL | EN10113 |
50(A,B,C,D,DD,EE,F) 43(A,B,C,D,EE),55(C,EE,F) | BS4360 |
WH60(A、B、C、D、E), | WJX013-2001 |
WH70 | WYJ060-2000 |
WH80 | WYJ002-2002 |
WH410LK(BB41BF) WH490LK(BB503) | special purpose and condition |
E355(DD,E),E460(CC,DD,E) | ISO4950-2 |
E420(DD,E),E460(DD,E) E550(DD,E) High-strength low-alloy (HSLA) | ISO4950-3 |
Fe430(A,B,C,D) Fe510(B,C,D) | ISO630 |
Adopting standard |
Main grade |
ASTM A283/A283M Standard Specification for Low and Intermediate Tensile Strength Carbon Plates |
A283GrA, A283GrB, A283GrC, A283GrD |
ASTM A514/A514M Standard Specification for High-Yield-Strength, Quenched and Tempered Alloy Plate, Suitable for Welding |
A514GrA, A514GrB, A514GrE, A514GrF
A514GrH, A514GrP, A514GrQ, A514GrS |
ASTM A572/A572M Standard Specification for High-Strength Low-Alloy Columbium-Vanadium Structural |
A572Gr42, A572Gr50, A572Gr55, A572Gr60, A572Gr65 |
ASTM A573/A573M Standard Specification for Structural Carbon Plates of Improved Toughness |
A573Gr58, A573Gr65, A573Gr70 |
ASTM A588/A588M Standard Specification for High-Strength Low-Alloy Structural , up to 50 ksi [345 MPa] Minimum Yield Point, with Atmospheric Corrosion Resistance |
A588GrA, A588GrB, A588GrC, A588GrK |
ASTM A633/A633M Standard Specification for Normalized High-Strength Low-Alloy Structural Plates |
A633GrA, A633GrC, A633GrD, A633GrE |
ASTM A678/A678M Standard Specification for Quenched-and-Tempered Carbon and High-Strength Low-Alloy Structural Plates |
A678GrA, A678GrB, A678GrC, A678GrD |
ASTM A709/A709M Standard Specification for Structural for Bridges |
A709Gr36, A709Gr50, A709Gr50S, A709Gr50W, A709Gr HPS50W, A709Gr HPS 70W, A709Gr100, A709Gr100W, A709Gr HPS100W |
ASTM A710/A710M Standard Specification for Precipitation-Strengthened Low-Carbon Nickel-Copper-Chromium-Molybdenum-Columbium Alloy Structural Plates |
A710GrA CL1, A710GrA CL2, A710GrA CL3 A710GrB CL1, A710GrB CL2, A710GrB CL3 |
ASTM A808/A808M Standard Specification for High-Strength, Low-Alloy Carbon, Manganese, Columbium, Vanadium of Structural Quality with Improved Notch Toughness |
A715Gr50,A715Gr60,A715Gr70,A715Gr80 |
ASTM A871/A871M Standard Specification for High-Strength Low-Alloy Structural Plate With Atmospheric Corrosion Resistance |
A871Gr60, A871Gr65 |
ASTM A945/A945M Standard Specification for High-Strength Low-Alloy Structural Plate with Low Carbon and Restricted Sulfur for Improved Weldability, Formability, and Toughness |
A945Gr50, A945Gr65 |
BS EN 10025-2:2004 Hot rolled products of structural s-Part 2: Technical delivery conditions for non-alloy structural s |
S235JR,S275JR,S355JR S235J0,S275J0,S355J0,S450J0 S235J2,S275J2,S355J2,S355K2 S185,E295,E335,E360 |
BS EN 10025-3:2004 Hot rolled products of structural s-Part 3: Technical delivery conditions for normalized/normalized rolled weldable fine grain structural s |
S275N,S355N,S420N,S460N S275NL,S355NL,S420NL,S460NL |