EN 10025-6 S500Q carbon steel plate hs

We supply and export EN 10025-6 steel plate S500Q 1.8924. EN10025-6 S500Q and 1.8924 cutting parts which specification is a high yield strength structural steels in the quenched and tempered. The condition steel plate grade in S500QL, S500QL1, S460Q, S460QL, S460QL1, S620QL1, S550Q, S550QL, S550QL1, S500Q, S890QL1, S960Q, S960QL, S620Q, S620QL, S690Q, S690QL, S690QL1, S890Q and S890QL steel grade.

EN 10025-6 S500Q low carbon steel plate grades

1. There is no code for the first level: S500Q: P: ≤0.025, S: ≤0.015;
2. The L-level code L is expressed as S500QL: P: ≤0.020, S: ≤0.010;
3. The L1 code L1 is expressed as S500QL1: P: ≤0.020, S: ≤0.010
4. The other ingredients are the same, as shown below:
C:≤0.20, Si:s0.80, Mn:s1.70, N:≤0.015, B:≤0.0050, Cr:s1 .50, Cu:0.50, Mo:0.70,
Nb: 0.06, Ni: s2.0, Ti: s0.05, V: ≤0.12, Zr: ≤0.15
3. Application and prospect of S500Q S500QL/S500QL1
S500Q applies construction machinery, mining machinery, coal mine machinery such as hydraulic supports, crane extension arms, crane extension arms,
Excavator support arm, etc.
Mainly used in the manufacture of hydraulic supports with high welding performance, heavy vehicles, construction machinery, and port machinery.
4. S500Q series steel plate low-alloy high-strength structural steel:
5, S500Q series steel plate series performance specifications: this trademark fulfills the EN 10025/6-2004 European standard specifications.
6. Packaging, marking and quality certificate of S500Q series steel plate: The packaging, marking and quality certificate of steel plate shall comply with the rules of GB/T 247

4.three.2 In the case of metals or alloys which might be normally recognized or specified by mechanical properties, such properties and limits thereof must be reported. Only these chemical parts and limits, if any, which are significant in defining such supplies want be reported.

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EN10025-6 S500Q 1.8924 carbon steel plate types

The normal contains forged steels to be used normally engineering including tools , automotive, armament , agriculture and so forth. These are merchandise of various cross part shapes that are obtained after descaling, by drawing of scorching rolled bar or rod on a draw bench. This operation provides the product particular features with respect to kind, dimensional accuracy and flooring finish. Steels provided to this regular are appropriate for hardening and within the quenched and tempered condition have good toughness at a given tensile strength. The bodily properties of ONORM S 500 Q ÖNORM EN embrace excessive power, low weight, sturdiness, ductility and resistance to corrosion. Description of Numbers Established for Metals and Alloys 2.1 The unified numbering system establishes 18 collection of numbers for metals and alloys, as shown in Table 1. In most circumstances the letter is suggestive of the household of metals recognized; for example, A for aluminum, P for valuable metals, and S for stainless steels.

EN 10025-6 S500Q cost of carbon steel plate per kg

S500Q steel plate

What is EN 10025-6 S500Q chemical?
EN10025-6 S500Q quenched and tempered steel plate Chemical composition

Grade

C %

Si %

Mn %

P %

S %

N %

B %

Cr %

  S500Q  

0.200

0.800

1.700

0.025

0.015

0.015

0.005

1.500

 

Cu %

Mo %

Nb %

Ni %

Ti %

V %

Zr %

 

 

0.500

0.700

0.060

2.000

0.050

0.120

0.150

 

 

What is EN 10025-6 S500Q Equal Grade.
S500Q and S500QL steel plates are German standard high-strength structural steels, usually called high-strength plates, equivalent to the national standard Q500D,
It is widely used in construction machinery and mining machinery.
S500QL steel standard: EN 10025/6-2004 delivery status: quenched and tempered. S500Q series are: S500Q, S500QL, S500QL1.Second, S500Q chemical composition: The quality of S500Q is divided into three levels

What is application of EN10025-6 S500Q?
Used in buildings, bridges, ships, vehicles, pressure vessels and other structures, the carbon content (melting analysis) is generally not more than 0.20%, the total content of alloying elements is generally not more than 2.5%, the yield strength is not less than 295MPa, and it has good impact toughness
And low alloy steel with welding function.

What is EN 10025-6 S500Q mechanical properties?
EN10025-6 S500Q quenched and tempered steel plate mechanical properties

Grade

Thickness

Min Yield (Mpa)

Tensile (MPa)

Elongation (%)

Min Impact Energy

 

S500Q

8mm-50mm

Min 500Mpa

590-770Mpa

17%

-20

Min 27J

 

51mm-100mm

Min 480Mpa

590-770Mpa

17%

-20

Min 27J

 

101mm-150mm

Min 440Mpa

540-720Mpa

17%

-20

Min 27J

 

cycle annealing, n–annealing employing a predetermined and carefully managed time-temperature cycle to provide particular properties or a selected microstructure. decarburization, n–the lack of carbon from the floor of a metal object because of its being heated in a medium that reacts with the carbon. differential heating, n–heating that intentionally produces a temperature gradient inside a metal object such that, after cooling, a desired stress distribution or variation in properties is current within the object. direct quenching, n–in thermochemical processing, quenching instantly following the thermochemical remedy. double getting older, n–employment of two completely different aging remedies, in sequence, to regulate the type of precipitate formed from a supersaturated alloy matrix to be able to get hold of the desired properties. SAE Designation System and Related AISI Designation System Carbon and Alloy Steels For many years, sure grades of carbon and alloy steels have been designated by a 4-digit AISI/SAE numbering system that identified the grades according to normal chemical compositions. Since the American Iron and Steel Institute doesn’t write material specifications, the connection between AISI and grade designations has been discontinued.

  • Also in this similar chapter, excessive-energy low-alloy steels are handled as a subcategory to alloy steels, although ASTM A 941 defines them separately.
  • An exception to the above methodology is for the structural steels information in Chapter three, the place the tensile power was used as the primary comparability criterion for carbon and alloy steels.
  • Likewise, since alloys steels and stainless steels are typically selected based mostly on their chemistry, it was decided that chemical composition would be used to check them.
  • This exception was made as a result of structural steels are typically chosen primarily based on their mechanical properties.

recrystallization temperature, n–the approximate minimum temperature at which recrystallization of a chilly-worked steel object happens inside a specified time. secondary hardening, n–the hardening phenomenon that occurs throughout high-temperature tempering of certain steels containing a number of carbide-forming alloying parts. selective heating, n–deliberately heating only certain portions of a metal object.

crucial cooling rate, n–the slowest rate of continuous cooling at which austenite can be cooled from above the transformation range to stop its transformation above M s. cyaniding, n–introducing carbon and nitrogen into a strong metal object by holding it above Ac1 involved with molten cyanide of suitable composition.

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Table 1.4 reveals an inventory of comparative Cr-Ni-Mo wrought austenitic stainless steels from the USA, Japan, and European Union. Note the differences within the Cr, Ni, and Mo contents amongst all of the standards and the N limit within the EN normal.

EN10025-6 S500Q 1.8924 carbon steel tread plate

isothermal annealing, n–austenitizing a steel object after which cooling it to, and holding it at, a temperature at which austenite transforms to a ferrite-carbide aggregate. maraging, n–a precipitation hardening treatment utilized to a special group of alloy steels to precipitate one or more intermetallic compounds in a matrix of basically carbonfree martensite. natural growing older, n–spontaneous aging of an excellent-saturated stable solution at room temperature. nitriding, n–introducing nitrogen into a solid metal object by holding it at a suitable temperature involved with a nitrogenous surroundings. normalizing, n–heating a steel object to an acceptable temperature above the transformation range and then cooling it in air to a temperature considerably below the transformation vary. overaging, n–growing older under circumstances of time and temperature greater than these required to obtain most change in a certain property, in order that the property is altered away from the maximum. overheating, n–heating a metal object to such a high temperature that extreme grain development occurs.

Likewise, since alloys steels and stainless steels are typically selected primarily based on their chemistry, it was determined that chemical composition would be used to match them. An exception to the above methodology is for the structural steels knowledge in Chapter 3, where the tensile power was used as the principle comparability criterion for carbon and alloy steels. This exception was made as a result of structural steels are typically chosen based on their mechanical properties. Also in this similar chapter, excessive-strength low-alloy steels are handled as a subcategory to alloy steels, although ASTM A 941 defines them separately. Since there was insufficient area on a page to position each the chemical composition and mechanical properties tables, they were cut up into two separate tables. To assist the user in keeping monitor of the comparability criteria used for a given steel, each table inside a chapter was sequentially numbered and appended with the letter A or B. Table numbers ending within the letter A designate that it was the principle criterion used for comparability, whereas table numbers ending with the letter B had been “mirrored” from the A tables.

Description by Manufacturer
Sell: EN10025-6 S500Q, S500QL, S500QL1 Steel plate
1. Steel Grade :EN10025-6 S500Q, S500QL, S500QL1 S690Q, S690QL, S690QL1, S890Q, S890QL, S890QL1, S960Q, S960QL, S620Q, S620QL, S620QL1, S550Q, S550QL, S550QL1, S500Q, S500QL, S500QL1, S460Q, S460QL, S460QL1.
2. Dimension(T*W*L) : Thickness: 6mm to 300mm ; Width: 1500mm to 4020mm ; Length: 4000mm to 18000mm
3. Adopt Standard: EN 10025-6.
4. Heat Treatment:
Hot Rolled, CR, Normalized, Quenched, Tempering, TMCP, Electroslag Remelting Technical.
5. Steel Services: Cutting, Painting, Ball blast, Pretreatment and the Third party in section in DNV, BV, LR, GL, ABS and CCS in super thick ship steel plate
6. Payment Item: 30% TT, or LC and TT
7. Trade Terms: FOB, CFR, CIF
8. Delivery Time: 30-40days

EN10025-6 S500Q 1.8924 carbon steel tread plate