st52 3 astm equivalent
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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
For instruments needing high resistance to chipping or breakage, as an example the place frail geometries or thin projections or sharp notches are an issue, high impression toughness is required. In common, tool steels, even those with low influence toughness, are many times tougher than strong carbide. (The toughness of carbide supplies is usually measured in inch-kilos, the place tool steels are measured in foot-kilos.) Within the households of tool steels, there may be some variation in impression resistance. Shock-resisting steels, like S7 and A9, are both designed to supply optimum resistance to breakage.
- A9 is often tempered at over 900 F, and thus could also be coated by any of the widespread commercial coating processes.
- For tools needing excessive resistance to chipping or breakage, for instance where frail geometries or skinny projections or sharp notches are a problem, excessive impression toughness is required.
- (The toughness of carbide materials is usually measured in inch-pounds, where device steels are measured in foot-kilos.) Within the families of tool steels, there may be some variation in impression resistance.
- Shock-resisting steels, like S7 and A9, are both designed to offer optimum resistance to breakage.
- In general, software steels, even these with low impression toughness, are many instances tougher than strong carbide.
Historically, software steels used for stamping and forming tools have included A2 and D2, with occasional use of the excessive pace metal M2. A2 and D2 are acquainted to most device builders and gear users as frequent, common objective cold work tool steels. They mix good all-round performance properties for stamping and forming with low value, extensive availability, and comparatively simple fabrication. However, they often don’t present the extent of efficiency wanted for prime quantity manufacturing. Specifically, the place long runs and infrequent regrinding are desired, different higher alloy device steels or carbide may be used to improve from these tool steels.
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 |
|||||
An understanding of those properties, mixed with an understanding of what elements limit software life for a selected software (breakage, wear, deformation, etc.), will allow device users to specify the most effective performing grade for practically any utility DIN 17100 ST 52-3. Tool customers can examine failed tools to determine which property could have been missing in a device, or which properties should be improved, and what different properties have to be thought-about in alternate supplies with the required improved properties.
What st52 3 steel?
ST52. 3 is commonly used in the U.S. Fluid Power Industry. This grade is easily formed, machined, and welded, and this carbon-manganese steel grade has exceptional impact energies.
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Because of their excessive wear resistance, these high vanadium P/M grades are notably suitable for prime manufacturing operations. In order to manufacture device steels with high wear resistance, with out encountering these critical drawbacks, powder metallurgy processes are used to provide P/M software steels having high vanadium content.
Because the microstructural distribution of carbides in P/M steels is so fine and uniform, larger amounts of carbide-forming components could also be added. Thus, greater put on resistance could also be developed, without the toughness and grindability limitations inherent in typical steelmaking. The P/M process has allowed the development of grades containing 4%, 5%, 10%, and even 15% vanadium, offering far larger put on resistance than conventionally produced software steels.
What is high grade steel?
HIGH-GRADE STEEL OFFERS MANY ADVANTAGES
High corrosion resistance. Longevity and, with that low consequential costs. Excellent hygienic properties. Very good thermal conductivity and, thus, rapid-drying capability. High strength and load-bearing capacity.
Traditionally, other properties, such as impact resistance, may be sacrificed to be able to achieve the higher put on properties. Conversely, steels chosen for their resistance to influence or breakage will not be able to high put on resistance.
din17100 st52-3
Thus, the treatment process can restrict the service hardness of low or medium alloy steels. However, the upper alloy content steels such as M2, M4 as well as CPM 3V, 9V, 10V, 15V retain their most hardness after such exposures. Thus, normal surface remedy temperatures have no impact on their hardness, and instruments could also be treated with out concern of dimensional or hardness changes. The further wear protection of a floor treatment may be added, without sacrificing deformation resistance. The CPM grades provide glorious substrates for all sorts of surface remedies.
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