S690Q Standard: EN 10025-6:2004, European standard for hot-rolled structural steel. Part 6 – Technical delivery conditions for flat products of high yield strength structural steels in the quenched and tempered condition
Gangsteel produced and export EN10025-6 high strength S690Q steel plate, We had min 1000tons stock for high strength S690Q equal grade and we also provide the cutting service with cnc, water cutting or laser cutting. Related keywords:en s690q,en 10025 s690ql,en 10025-6 s690q,en 10137 2 grade s690q,en 10025-6 s690ql equivalent astm,s690ql en 10025,s690q en 10025-6,en 10025 s690ql1,s690q en 10137-2,en 10137-2 s690ql,s690ql en 10025-6,en 10025 s690q,en 10025 steel,en 10025-s355j2men 10025-2 s355jr,en 10025 astm equivalent,en 10025-6 s690ql,en 10025 s690ql,en 10025 steel equivalent,en 10025 s355k2g4,en 10025-6 s690ql equivalent astm,en 10025-6 s690q,bs en 10025-6-s690ql,acero en 10025-6 s690ql,en 10025 s690ql1,en 10025 p 6 2004 s690ql,en 10025-1 equivalent,ss-en 10025-6 s690ql and en 10025-6 grade s690ql.
However, the spatial and temporal variations of creep pressure rates in these DMWs haven’t been measured. In this analysis, DMW coupons were fabricated between 2.25Cr-1Mo steel and Alloy 800 H base materials using a Ni base Inconel weld consumable.
S690Q is stunning yield quality real steels review in the quenched and tempered. The picture S is relating steel, 690 for the base yield quality in thickness under 50mm.The Symbol Q mean the vehicle condition in secured and tempered. S690q could be through the 20-temperature impact and the significance is 30J.Definition of BS7608 fatigue classes for structural steels Concerning the oxy fuel cutting, the Loga mean test values of S355M and S690Q are lower than the corresponding Loga limit values obtained for the design class B, so class B cannot be applied strictly to S355M and S690Q with oxy fuel cut edges. Consequently, the analysis followed here provides the same fatigue class for oxy fuel cut straight Down Loadstone Supplier.Gangsteel supply high strength steel plates in S690Q,S690QL,S690QL1,S890Q,S960Q,S890QL
Equivalent Grades of EN 10025–6:2004 S690QL Steel Plate
Grade |
Standards |
Country |
S690QL EN10137-2 EN10025-6:2004 |
EN |
EUROPE |
A709-100 |
ASTM |
USA |
TStE690V DILLIMAX 690 NAXTRA 70 |
DIN, WNr |
GERMANY |
E690T E690TFP S690T |
AFNOR/ NF A36- 204 |
FRANCE |
FeE690VKT |
EN |
EUROPEAN (OLD) |
2625 WELDOX 700 |
SS |
SWEDON |
E690 |
ISO 4952 |
INTER |
JFE HITEN 780LE |
JIS |
JAPAN |
ALFORM 700 |
AUSTRIA |
mechanical properties of grade EN10025-6 S690Q
|
Minimum yield strength – ReH |
Tensile strength Rm |
Minimum elongation – A |
||||
Steel grade |
Nominal thickness |
Nominal thickness |
|||||
|
>3 |
>50 |
>100 |
>3 |
>50 |
>100 |
|
S690Q |
690 |
650 |
630 |
770-940 |
760-930 |
710-900 |
14 |
EN10025-6 Notch impact test.
Notch impact test – longitudinal. Minimum values of impact energy for impact tests on longitudinal V-notch test pieces for quenched and tempered steel
EN10025 S690Q Structural Steel. EN10025:6:2004 Hot Rolled S690Q, Steel Number 1.8928. 690 N/MM 2 high yield, high strength structural steel plate notch impact tested in longitudinal direction to the rolling direction at 40degree C, thus being excellent in forming and Pharmacia ita welding properties that achieve another higher level of beauty and durability in steel engineering structure. Steel Plate 2.25Cr1Mo0.25V(H) S690QSteel Plate 2.25Cr1Mo0.25V(H) Category Pressure Vessel and Boiler Steel Plate ModelWYJ046 2006 Standard Specification is for boilers and pressure vessels designed in H2 service. The dimension, shape, weight and permissible deviation shall comply with SA20/SA20M.Optimal welding technology of high strength steel S690Q For the S690Q L steel, the recommended . preheating temperature should be 150
Temperature °C |
-20 |
0 |
|
Min. absorbed energy |
40 |
50 |
Notch impact test – transverse. Minimum values of impact energy for impact tests on transverse V-notch test pieces for quenched and tempered steel, when the impact test on transverse test pieces is agreed at the time of the order.
Temperature °C |
-40 |
-20 |
0 |
Min. absorbed energy |
27 |
30 |
35 |
The tables below show the chemical composition of grade EN10025-6 S690Q
|
Ladle analysis. |
||||||||||||||||||
Steel grade |
C |
Mn |
Si |
P |
S |
B |
Nb |
V |
Ti |
Cr |
Mo |
Ni |
Cu |
Mo |
N |
Zr |
CEV |
||
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
≤50 |
>50 |
>100 |
|
S690QL |
0,20 |
1,70 |
0,80 |
0,020 |
0,010 |
0,005 |
0,06 |
0,12 |
0,05 |
1,50 |
0,70 |
2,0 |
0,50 |
0,70 |
0,015 |
0,15 |
0,65 |
0,77 |
0,83 |
EN10025-6 S690Q Steel Grade Equivalent Table
European old EU 137 (1983) |
France |
Sweden |
Germany |
FeE 690 V KT |
E690T |
2625 |
TStE690V |
Description by Manufacturer
Sell: S690Q, S690QL, S690QL1, S890Q, S890QL, S890QL1, S960Q, S960QL, S620Q, S620QL, S620QL1, S550Q, S550QL, S550QL1, S500Q, S500QL, S500QL1, S460Q, S460QL, S460QL1, Steel plate, EN 10025-4
EN 10025-6 steel grade specification is a high yield strength structural steels in the quenched and tempered 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 plate grade.
1. Steel Grade : 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
The embrittlement recovery price was studied between 593 and 704 °C at logarithmic time intervals as much as one thousand min. Rather it is shown that alloy carbides such as M23C6 play a key position in embrittlement, whereas carbide coarsening and/or nucleation on the prior austenite grain boundaries and within the bulk in the embrittling temperature range.
- Long-term isothermal getting older behaviors up to h has been investigated in V modified 2.25Cr-1 Mo steels.
- This suggests the importance of other factors in controlling growing older behavior such as recovery of dislocations and enlargement of assorted carbide precipitates.
- The decomposition behavior of retained austenite various considerably as a operate of the tempering temperature with a full decomposition noticed at 600 °C.
- It was also found that by growing the tempering temperature from 550 °C to 600 °C, carbides precipitate roughly twice as fast, and evolve from M3C kind to Cr7C3 and Cr23C6 after 16 h of tempering at 600 °C.
The location of creep pressure concentration from the BCC/FCC interface, changed from 5 µm to 400 µm depending on the initial carbide distributions in these regions. This paper is illustrating the potential of the well-known low alloyed clear steels, extensively used for the current light water Reactor Pressure Vessels steels, for a possible use as a structural material additionally for the brand new era nuclear systems.
Microstructure And Epr Studies Of Thirteen% Chromium Steels After Various Heat Treatments And The Influenc ..
This has allowed the dedication of the absolute amounts, within a given metal pattern, of the carbide types M6C, M7C3, M23C6 and, most importantly, the creep-strengthening M2X phase. Machining chips of the alloy AA7050 had been reprocessed by spray forming adopted by hot-extrusion and heat remedy. The spray-shaped deposit presented a microstructure with hardening eta’ precipitates throughout the matrix and equilibrium eta’ precipitates on the EN10025-6 S690Q steel plate supplier grain boundaries, refined grains and low segregation of the principle parts Zn, Cu and Mg. The final microstructure at peak aged condition is especially composed by Guinier-Preston zones, eta’ metastable, eta equilibrium, Al3Zr dispersoids and the coarse Al7Cu2Fe intermetallic. Classical grain progress equations had been utilized to the experimental results, accounting for Zener pinning and solute drag as possible causes for temperature-dependent restricted growth.
DIN EN S690Q /S690QL/S690QL1 Condition of Delivery Water quenched and tempered. Typical Applications Heavy road vehicleschassis, dumper bodies. Cranes constructionbooms of mobile cranes. Structural steelworksbridges, bridge components, components for offshore structures. Pressure vesselsfixed and transportable storage tanks, vessels.S690Q Steel Plates Manufacturer in China, S690Q Steel The S690Q grade is austenitic in nature suitable for heavy engineering works. Plus, it has good formability and weldability property. Plates are both magnetic and non magnetic in nature. It serves good resistivity towards crevice and pitting cracking subjected to impact loads.S690QL Plate, S690QL Steel Plates, S690QL Quenched and What is S690QL Steel Plate Legally certified industry Rexton steel & alloys are busy in supplying the excellent and desirable quality of S690QL PLATES globally. They are fully focusing on offering clients with the top notch quality of plates and other essential services.
S690Q steel is used in structures subject to extreme loadsmining and heavy construction equipment, crane equipment, offshore drilling platforms, supporting structures for wind turbines, bridges and trestles.Plates of S690Q steel grade MetinvestS690Q structural high strength steel with minimum yield strength of 690 MPa supplied in quenched and tempered condition (Q). Plates of S690 steel grade comply with EN 10025 6 standard.S690Q / 1.8931 SteelNumber Chemical composition S690Q Number1.8931 ClassificationAlloy special steel with specified minimum values of impact energy at temperatures not lower than 20 °C StandardEN 10025 62004 Hot rolled products of structural steels. Technical delivery conditions for flat products of high yield strength structural steels in the quenched and tempered condition
These samples were aged at 600 ℃ for 2000 h and 4000 h to induce two completely different sizes and distributions of Type I interfacial carbides and additional subjected to a short time period (~1 month) creep testing. Surface strains had been measured with Digital Image Correlation method to extract native creep pressure rates.
Temper embrittled metal was found to be additional deteriorated by the presence of hydrogen so as to exhibit extremely low fracture toughness. Such hydrogen embrittlement may be reduced by minimizing mood embrittlement susceptibility.
Evolution Of Microstructure During Tempering And Its Influence On The Mechanical Behavior Of 2 25cr
The addition of managed quantities of phosphorus to 2 1/4Cr-1 Mo steel, warmth treated under two totally different conditions, has produced microstructures containing a wide spectrum of types and amounts of particular person carbide phases. X-ray diffraction evaluation of carbide precipitates has been undertaken following quantitative extraction by anodic dissolution of the matrix. By combining this with selective chemical dissolution of sure carbide sorts, calibrations of relative weight fractions against the intensities of suitable X-ray diffraction peaks could also be obtained without the need for the addition of a standard calibration powder.
Microstructure And Epr Studies Of Thirteen% Chromium Steels After Various Heat Treatments And The Influenc ..
It was proven that Zener pinning as a result of AlN particles couldn’t be responsible for restricted growth, though it has some effect at decrease temperatures. Instead, restricted and sluggish growths are very likely to be the results of segregation of molybdenum atoms at austenite grain boundaries. The temperature-dependence of this phenomenon could also be linked to the co-segregation of molybdenum and carbon atoms. A modified tempering remedy has been designed so as to avoid the direct transformation of retained austenite during tempering of a low-alloy Cr–Mo–V steel.
Dissimilar Metal Welds made between ferritic low alloy steels and austenitic alloys are extensively utilized in excessive temperature elements of nuclear and fossil vitality power plants. Literature shows that these bimetallic welds fail prematurely by creep mechanism near the interface of the ferritic and austenitic areas , with lifetimes much less than the creep lives of both supplies.
Our S690Q is a structural steel grade and is produced to give high yield strength during usage. The material can be heat treated using quench and temper techniques. These EN 10025 6 Plates have good forming and welding properties. S690Q plates have higher payload capacity and are energy efficient, hence can be used in leaner structures.S690Q / 1.8928 SteelNumber Chemical composition Nominal thickness = 50(mm) CEV max = 0.65 Nominal thickness from 50 to 100 (mm) CEV max = 0.77 Depending on the thickness of the product and the manufacturing conditions, the manufacturer may add to the steel one or several alloying elements up to the maximum values given in order to obtain the specified propertiesEN 10025 S690QL Brown McFarlaneHigh strength quenched and tempered steel plate can be easily welded and fabricated. We often find that steel plate to EN 10025 S690QL is called different things by different engineers. Plate to this specification and grade is variously described asHigh Strength Quenched and Tempered Steel Plate. If you have requirement for high strength steel plate,please contact us by email.