st52-3n equivalent in indian standard
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gangsteel produced and exported DIN 1.0570 and ST 52-3 steel plate as common carbon structural steel. Gangsteel supply DIN17100 ST52-3 ST52-3N Steel plate low alloy and high strength steel plate. DIN 17100 ST52-3 steel plate price and stock supplier.ST 52-3 steel plate is one mainly of Carbon structural steel, ST 52-3 is a type of steel sheet under DIN standard which is used to build ship, bridge, belongs to high strength sheet.
If you have any requirement for ST 52-3 structure steel plate,under DIN17100 standard ST 52-3 steel plate, under DIN17100 standard, please contact us.
1.Steel Grade : ST 52-3 (1.0570)
2. Standard: DIN 17100 steels for general structural purposes
3. Approval By Third Party :ABS, DNV, GL, CCS, LR , RINA, KR, TUV, CE
4. Classification: General structural purposes
5. Product form : super heavy steel plate
Particularly, friction stir welding can be successfully applied to those materials owing to the fact that no melting takes place in the weld nugget. The goal of this overview is to summarize the developments in the joining of Al alloys over the latest years.
Axial device loads measured throughout FSW had been approximately bf (18.7 kN), while measured torques have been in the range of 500 in.-lb (55 N-m). Peak floor temperatures near 1000degreesC were measured on the workpiece and gear during welding utilizing thermocouples and an infrared digital camera system. Comparisons before and after welding combining each metallographic and metrology techniques suggest changes in device dimensions stem from both rubbing put on and deformation of the device. The greatest modifications in device dimensions occurred during the preliminary plunging stage. Microstructures of the welds have been examined utilizing optical and scanning electron microscopy.
- The microstructure of the welded zone consists of equiaxed nice ferrite, grain boundary ferrite, Widmanstatten ferrite, and aggregates of ferrite + cementite.
- The results obtained indicate that the weld area is comprised of complicated microstructures similar to Widmanstatten ferrite, ferrite with or without carbide aggregates and grain boundary ferrite.
- In this examine, St52 metal plates with a thickness of four mm have been butt-welded by friction-stir welding using a tungsten car-bide software having a conical pin.
- The FSWed St52 joint exhibited a major power overmatching in the weld region and a energy performance just like or slightly larger than that of the base plate.
- The purpose of this work is to analyze the mechanical properties and microstructures of friction-stir welded St52 structural steel joints.
The weld region displayed several microstructurally distinct areas. Extrapolation of measured temperatures and microstructural evidence counsel peak temperatures of the stir zone exceeded 1100degreesC and certain surpassed 1200degreesC .
The effect of temper situation on the joint performance was determined in addition to the effect of the weld parameters on the joint high quality. Considerable progress has been achieved in friction stir welding of steels in every side of tool fabrication, microstructure management and properties analysis up to now twenty years. With the development of reliable welding tools and exact management methods, FSW of steels has reached a brand new stage of technical maturity. High-quality, lengthy welds may be produced in lots of engineering steels.
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DIN17100 ST52-3 ST52-3N Steel plate Chemical composition of heat analysis:
|
DIN |
ASTM |
EN |
JIS |
Chemical Composition |
C.E. |
||||||||||
|
C |
Si |
Mn |
Cr |
Mo |
Ni |
V |
W |
S |
P |
CU |
|||||
|
17100 St52-3N |
A572-50 |
10025-2:2004 S355J2+N |
G3106 SM490YB |
max 0.22 |
max 0.55 |
max 1.60 |
– |
– |
– |
– |
– |
max 0.035 |
max 0.035 |
– |
max 0.047 |
St52-3 steel data sheet – 2, Chemical composition (product analysis) according to DIN 17100 and DIN EN 10025: 1993.
|
Chemical Composition (product analysis), %, ≤ |
|||||||||||
|
Country (Region) |
Standard |
Steel Grade (Steel number) |
C |
Si |
Mn |
P |
S |
N |
Cu |
Thickness (d) (mm) |
Method of deoxidation |
|
Germany |
DIN 17100: 1980 |
St52-3 (1.0570) |
0.22 |
0.60 |
1.70 |
0.065 |
0.065 |
– |
≤ 30 |
Fully Killded |
|
|
0.24 |
30 <d ≤100 |
||||||||||
|
European Union |
EN 10025: 1993 |
S355J2G3 (1.0570) |
0.22 |
0.60 |
1.70 |
0.045 |
0.045 |
– |
≤ 30 |
||
|
0.24 |
30 <d ≤100 |
||||||||||
|
EN 10025-2: 2004 |
S355J2 (1.0577) |
0.22 |
0.60 |
1.70 |
0.035 |
0.035 |
– |
0.60 |
≤ 30 |
||
|
0.24 |
30 <d ≤100 |
||||||||||
St52-3 Steel Properties
Physical Properties
- Material St 52-3 Density: 7.85 g/cm3
- Melting point: 1420-1460 °C (2590-2660 °F)
DIN17100 ST52-3 ST52-3N Steel plate mechanical properties steel plate
|
Thickness (mm) |
Yield Strength Reh min (N / mm2) |
Tensile Strength Rm min (N / mm2) |
Elongation A5 min (%) |
Impact Values Charpy-V-Notch Longitudinal Average from 3 Speimens Thk. >10<150mm. |
|
3<thk<100 |
315-355 |
490-630 |
max 22 |
27 Joules at -20 C |
St52-3 steel data sheet – 1, Chemical composition (ladle analysis) according to DIN 17100 and DIN EN 10025: 1993.
|
Chemical Composition (ladle analysis), %, ≤ |
|||||||||||
|
Country (Region) |
Standard |
Steel Grade (Steel number) |
C |
Si |
Mn |
P |
S |
N |
Cu |
Thickness (d) (mm) |
Method of deoxidation |
|
Germany |
DIN 17100: 1980 |
St52-3 (1.0570) |
0.20 |
0.55 |
1.60 |
0.040 |
0.040 |
– |
≤ 30 |
Fully Killded |
|
|
0.22 |
30 <d ≤100 |
||||||||||
|
European Union |
EN 10025: 1993 |
S355J2G3 (1.0570) |
0.20 |
0.55 |
1.60 |
0.035 |
0.035 |
– |
≤ 30 |
||
|
0.22 |
30 <d ≤100 |
||||||||||
|
EN 10025-2: 2004 |
S355J2 (1.0577) |
0.20 |
0.55 |
1.60 |
0.025 |
0.025 |
– |
0.55 |
≤ 30 |
||
|
0.22 |
30 <d ≤100 |
||||||||||
DIN17100 ST52-3 EQUIVALENT STEEL GRADES
| EN 10025 – 2 |
EN 10025+A1 |
?SN |
DIN 17100 |
||
|
EN10027-1 |
EN10027-2 |
EN10027-1 Grade |
EN10027-2 Grade |
|
|
|
S235JR2 |
1.0038 |
S235JRG2 |
1.0038 |
11375 |
RSt 37-2 |
|
S235J0 |
1.0114 |
S235J0 |
1.0114 |
11378 |
St 37-3U |
|
|
– |
S235J2GR3 |
1.0116 |
11378 |
St 37-3N |
|
S235J2 |
1.0117 |
S235J2G4 |
1.0117 |
– |
– |
|
S275JR |
1.0044 |
S275JR |
1.0044 |
11443 |
St 44-2 |
|
S275J0 |
1.0143 |
S275J0 |
1.0143 |
11445 |
St 44-3U |
|
|
– |
S275J2GR3 |
1.0144 |
11448 |
St 44-3N |
|
S275J2 |
1.0145 |
S275J2G4 |
1.0145 |
– |
– |
|
S355JR |
1.0045 |
S355JR |
1.0045 |
11523 |
St 52-3 |
|
S355J0 |
1.0553 |
S355J0 |
1.0553 |
11523 |
St 52-3U |
|
|
– |
S355J2G3 |
1.057 |
11503 |
St 52-3N |
|
S355J2 |
1.0577 |
S355J2G4 |
1.0577 |
– |
– |
Material St 52-3 Datasheet – 3
|
Yield strength (≥ N/mm2); Thickness (d) mm |
||||||
|
Steel (Steel number) |
d≤16 |
16< d ≤40 |
40< d ≤63 |
63< d ≤80 |
80< d ≤100 |
>100 |
|
St52-3 |
355 |
345 |
335 |
325 |
315 |
by agreement |
Tensile Strength
Material St 52-3 Datasheet – 4
|
Tensile strength (≥ N/mm2); Thickness (d) mm |
|||
|
Steel (Steel number) |
d<3 |
3 ≤ d ≤ 100 |
>100 |
|
St 52-3 |
515-680 |
490-630 |
by agreement |
Note: 1MPa = 1N/mm2
Elongation
Material St 52-3 Datasheet – 5
|
Elongation (≥, %); Thickness (d), mm |
||||||||
|
Steel (Steel number) |
0.5 ≤d <1 |
1≤ d <1,5 |
1,5≤ d <2 |
2≤ d <2,5 |
2,5≤ d <3 |
|||
|
St52-3U |
14 |
15 |
16 |
17 |
18 |
|||
|
St52-3N |
12 |
13 |
14 |
15 |
16 |
|||
|
Elongation (≥, %); Thickness (d), mm |
||||||||
|
Steel (Steel number) |
3 ≤d ≤40 |
40< d ≤63 |
63 < d ≤100 |
>100 |
||||
|
St52-3 |
22 |
21 |
20 |
by agreement |
||||
|
St52-3N |
20 |
19 |
18 |
|||||
Although friction stir welding has extensively been utilized to aluminum alloys in several industries over the previous three decades, it isn’t but utilized in trade for becoming a member of of steels. The aim of this examine is to characterize the microstructures and mechanical properties of FSWed dissimilar low carbon steels joint. The outcomes indicated that the weld area is comprised of complicated microstructures such as Widmanstatten ferrite, ferrite with or with out carbide aggregates and grain boundary ferrite. The maximum hardness in the stir zone reached up to about 347 HVdue to the strong state transformations and grain refinement.
The microstructural and mechanical properties of the weld joint had been systematically investigated to be able to perceive the response of the β-sort titanium alloys to the FSW. The results show that a defect-free Ti-15-3 alloy weld joint can be successfully fabricated by the FSW. The material move field within the SZ shows an incline of ~ 10° in the direction of the advancing facet across the welding course . The base materials and the weld-associated zones show comparable mechanical properties, which is due to the competitive effects of the dislocation density, grain diameter and grain orientation.
st52 3 us equivalent
Due to the low carbon present, the metal possesses good corrosion resistance and chilly forming properties. With it, these plates are often equipped in management-rolled or normalized condition DIN 17100 ST 52-3. Friction stir welding was carried out on β-type Ti-15V-3Cr-3Al-3Sn alloy (Ti-15-3, mass%) plates to manufacture a sound weld joint.
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