RE: [MW:34408] Equivalent Material ASTM Grade

There is one big difference: The EN 10025-2 steel is CE marked according to EN 10025-1. For steel construction products to be used in Europe, EN 10025-2 steels need to be CE-marked, and cannot be substituted to something "alike".

Med venlig hilsen

Kristian Lund Jepsen

M. Sc. (Mech. Eng.)

Senior Chief Consultant

1101248 - Mechanical

D +45 51 61 73 24

M +45 51 61 73 24

kuj@ramboll.com

_________________________________

Rambøll
Bavnehøjvej 5

6700 Esbjerg

https://dk.ramboll.com

Rambøll Danmark A/S, CVR NR. 35128417

Hjemsted: Hannemanns Allé 53, 2300 København S

Classification: Confidential

From: materials-welding@googlegroups.com <materials-welding@googlegroups.com> On Behalf Of ALLZMART NETWORK PRIVATE LIMITED
Sent: 14. juli 2023 11:01
To: materials-welding@googlegroups.com
Subject: Re: [MW:34407] Equivalent Material ASTM Grade

You don't often get email from allzmartecom@gmail.com. Learn why this is important

The equivalent ASTM material for EN-10025 - 2 (S275 J2) is ASTM A572 Grade 42. Both materials have a minimum yield strength of 275 MPa, and a minimum tensile strength of 500 MPa. The impact toughness requirements are also similar, with EN-10025 - 2 (S275 J2) requiring a minimum impact energy of 27 J at 20°C, and ASTM A572 Grade 42 requiring a minimum impact energy of 27 J at -10°C.

Here is a table of the equivalent grades for EN-10025 - 2 (S275 J2):

EN Grade	ASTM Grade
S275 J2	A572 Grade 42
S275 J0	A572 Grade 44
S275 JR	A1011/A1011M

On Fri, Jul 14, 2023 at 8:47 AM Nirmal chandrasekaran <nirmalchandrasekaran352@gmail.com> wrote:

Hi Gents, Good Evening.

I want to confirm the EN-10025 - 2 (S275 J2) with Equivalent ASTM Material. Kindly Provide the Equivalent Grade for the above mentioned EN Grade Material.

Thanks & Regards

Nirmal Kumar C

--
https://materials-welding.blogspot.com/
https://www.linkedin.com/groups/122787
---
You received this message because you are subscribed to the Google Groups "Materials & Welding" group.
To unsubscribe from this group and stop receiving emails from it, send an email to materials-welding+unsubscribe@googlegroups.com.
To view this discussion on the web visit https://groups.google.com/d/msgid/materials-welding/CAF7xvuc47oD1jr4Cx5pAasznpZFRBK_BYtVDZip2guWvKmuqMQ%40mail.gmail.com.

--
https://materials-welding.blogspot.com/
https://www.linkedin.com/groups/122787
---
You received this message because you are subscribed to the Google Groups "Materials & Welding" group.
To unsubscribe from this group and stop receiving emails from it, send an email to materials-welding+unsubscribe@googlegroups.com.
To view this discussion on the web visit https://groups.google.com/d/msgid/materials-welding/CAPBV5RyeXQaLn0d8HccRHwzOtYM-VveAN15ybSCb74wBoNo4ZA%40mail.gmail.com.

Heat tint (temper) colours on stainless steel surfaces heated in air // Heat tint

Introduction The colour formed when stainless steel is heated, either in a furnace application or in the heat affected zone of welds, is dependent on several factors that are related to the oxidation resistance of the steel. The heat tint or temper colour formed is caused by the progressive thickening of the surface oxide layer and so, as temperature is increased, the colours change. Oxidation resistance of stainless steels However, there are several factors that affect the degree of colour change and so there is no a single table of colour and temperature that represents all cases. The colours formed can only be used as an indication of the temperature to which the steel has been heated. Factors affecting the heat tint colours formed Steel composition The chromium content is the most important single factor affecting oxidation resistance. The higher the chromium, the more heat resistant the steel and so the development of the heat tint colou...

Materails FAQs

Q: What are equivalents for standard Q 235 B (and Q 235 A) for U-channels? (asked by: boris.vielhaber@vait.com) A: DIN Nr. = 2393 T.2, 2394 T.2, EN 10025 W. Nr. DIN 17007 = 1.0038 Design DIN 17006 = RSt 37-2, S235JRG2 (Fe 360 B) Q: What is St DIN 2391 BK material? (asked by: dmcandrews@automaticstamp.com) A: Precision steel tubes, cold-finished/hard. Q: What is C.D.W. Boiler Tube? (asked by: montydude123@yahoo.com) A: Cold Drawn Welded Boiler Tube. Q: WHAT IS W.Nr. 1.4301? PLS TELL US IN EASY LANGUAGUE (asked...

The Schaeffler and Delong diagrams for predicting ferrite levels in austenitic stainless steel welds

Introduction Ferrite is important in avoiding hot cracking in during cooling from welding of austenitic stainless steels. 'Constitution diagrams' are used to predict ferrite levels from the composition by comparing the effects of austenite and ferrite stabilising elements. The Schaeffler and Delong diagrams are the original methods of predicting the phase balances in austenitic stainless steel welds. Nickel and chromium equivalents A 'nickel equivalent' is calculated for the austenite stabilising elements and a 'chromium equivalent' ferrite stabilising elements. These are used as the axes for the diagrams, which show the compositional equivalent areas where the phases austenite, ferrite, martensite (and mixtures of these) should be present. Although intended to show the phase balance of weld fillers, these diagrams can also be used to illustrate the phase balance of the 'parent' material. There are different diagrams for dif...

Materials & Welding

Search This Blog