Subodh Material Technologists (SMT) offers a comprehensive range of mechanical testing services. Combining our vast experience with advanced technology and proven methodology, SMT will generate the answers you need to ensure optimal product performance.

SMT maintains a good machine shop that is fully equipped to prepare specimen as per code. In addition, our highly trained staff possesses extensive experience in engineering, mechanics, and materials science to ensure the highest quality materials evaluations.  

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Elevated Temperature Tensile Testing as per ASTM E21 & ISO 6892-2 upto 1000 Deg C

Stress Rupture / Creep Testing as per ASTM  E139:2018. Sudden and complete failure of a material under stress.

Nuclear Power India approval in process for Elevated Temperature Tensile Testing using Epsilon.

Drop Weight Test as per ASTM E208 to determine the Nil-ductility transition temperature of ferritic steels.

Mitutoyo Microhardness Test allowing measurements on thinner sheets or smaller test materials.

Sub Zero Temperature Bath For Impact Testing as per ASTM and ISO in separate machines

Elevated Temperature Tensile Test using Epsilon Extensometer asper ASTM E21:2017

Mock Up Tests

AS per
ASME Sec IX:2021

Weld Tests-

WPQ & Tests

Hydrogen Embrittlement Test as per ASTM F519

Impact Tests @ 400Joules with Analogue / Digital Output

Design Proof Test / Burst Test as per ASME B16.9

Tensile Testing with 0.2 % & 0.7% Proof Stress Graph

Heat Treatment -SR, Normalizing, Tempering, Aging

Low (Sub-Zero) Temperature Tensile Testing

In-House large machining facility catering to huge volume

Some Pipe Samples Received for Testing


IS1608:2005(RA2017), ASTME8M:2016a, ISO 6892-1:2016, IS 1786:08(RA2013), ASTM A370:2017a, ASTM E21:2017, ISO 6892-2:2018, IS 814:2004, SFA 5.1M:2015, ASTM E 23:2016b, EN ISO 148-1:2016,IS 1586Pt.1: 2018, ASTM E 18 :2018, IS1501Pt.1:2013 / ASTM E 384:2017, IS1786:2008, ASTM E290:2014, 

IS 1599: 2012 , IS2328:2018, IS2335:2005 RA 2017, IS1367(Pt-3):2018  / ISO 898-1:2016, IS1367(Pt6):1994/ ISO 898-2:2012 , ASTM A194:2017, ASTM A262:2015, ASTM A262:2015, ASTM A262:2015, ISO 3651pt-1:1998,ASTM A262:2015, EN ISO 3651 (Pt.2):1998 ,IS6396:2012 / ASTM E1077:2014, ASTM E 45:2018a,(Method A & D), IS 4163:2010, ASM Vol.9:2004, ASTM E 407: 2015, ASTM E381:2017, ASTM E 340 :2015, ASTM E 562:2011

IS 7754 :75(RA2018), ASTM A 923:2014, Method A NaOH  Etch, AWS A4.2: 2016, EN ISO 8249:2018, NORSOK

ASTM A 770:2003 RA 2018, BS EN 10164:2008, ASME Sec  IX 2017, IS 2825:1969(RA2012), BSEN ISO 15614-1:2017, ASTM E190:2014, API 1104:2013, AWS D1.1:2015, IBR Rule:1950, ASME Sec. VIII DIV1:2017, 

ASTM E23:2016b, EN ISO 148-1:2016, IS 1500Pt.1:2013, ASTM E 10:2018, ASTM A370:2017a

 IS3848:2014, ASTM A255:2010, ASTM A265:2012,

ASTM A264:2012, ASTM A263:2012, ASTM E 23:2016b,

EN ISO 148-1:2016, ASTM E139:2011, ASTM  G 28:2002(RA 2015), ASTM G 36 :1994, ASTM G 48       :2011(RA2015), NACE TM 0284:2016, NACE TM 0177:2016, ASTM G39:20164, G38:2013 ,ASTM B117:2018/ISO 9227:2017, ASTM G87:02, ASTM A 923:2014, Method B Charpy Impact Test (V Notch), Method C Ferric chloride, ASTM E 112 :2013/IS 4748:2009 RA2017 ,IS 6416:2007,IS 3203:1982(RA2016), IS7754:2007, IS 1865:91(RA2010)