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IS : 11169 ( Part 1) - 1984
Indian Standard SPECIFICATION FOR
STEELS FOR COLD HEADING/COLD EXTRUSION APPLICATIONS
PART 1 WROUGHT CARBON AND LOW ALLOY STEELS
Alloy Steels and Special Steels Sectional Committee, SMDC 19
Chairman Representing
DR G. MUKHERJF.E Steel Authority of India Ltd, Nrw Delhi
Members
ADDITiONAX DIRECTOII. ( MET ) Ministry of Railways JOINT DIWWTOR ( CHEM ) ( Alternate )
SRRI BAL KRISHAN AGGARWAL Federation of Engineering Industries of India, New Delhi
SH~I H. S. GUP~YA ( Alternate ) SHRI B. C. BASAVAXAJ Visvesvaraya Iron & Steel Ltd, Bhadravati
SRRI B. HARIDASACHAR ( Alternate ) SHRI S. K. BASU M. N. Dastur & Co Pvt Ltd, Calcutta
SHRI C. J. DAVE ( Alternate ) S~IRI J. N. BHATTACIIARYYA National Test House, Calcutta
SHRI S. C. BHAWAI. ( Alternate ) SHRI R. BHATTACRARYA Guest Kern Williams Ltd, Howrah SHRI P. K. CHAKRAVARTY The Tata Iron & Steel Go Ltd, Jamshedpur
DR T. MUK~ERJZ~?: ( Alternate ) SHRI D. K. DAS Heavy Engineering Corporation, Ranchi
SJ~RI B. P. SINGS ( Alternate ) SI~RI M. K. DATTA Steel Authority of india Ltd ( Alloy Steel Plant ),
Durgapur SRRI R. C. J~IA ( Alternate )
SXRI D. GADH Ahmedabad Advance Mills Ltd, Navsari SHRI A~IM CKATTERJEE ( Alternate )
SHRI H. V. JAIN Indi,m Tool Manufacturers Ltcl, Bombay SRR: A. D. DIAS ( Alternate )
DR P. KRI~HNASAGAR Modi Steels, Modinagar SHRI S. KUMAR Indian Register of Shipping, Bombay
SHR~ VIPON CHOPRA ( Alternate ) Dn D. P. LAXYIIRI Ministry of Deft,nce ( R & D )
SHRI I. N. BEATIA ( Alternate ) Dn S. K. MANDAL Tata Engineering and Locomotive Co Ltd,
Jamshcdpur DR P. G. RENAVIK.IR ( Alternate )
( Continued on page 2 )
@ Copyright 1985
INDIAN STANDARDS INSTITUTION
This publication is protected under the Indian Copyright Acf ( XIV of 1957 ) and reproduction in whole or in part by any means except with written permission of the publisher shall he deemed to he an infringement of ropvright under the said Act.
ES : 11169 ( Part 1) - 1984
( Continued from pap 1 )
Members Representing
~SERI D. B. MO~ARIL Steel Furnace Association of India, Calcutta DR K. SUBRAMANYAIVI ( Alternate )
DR M. NAQESHWAR RAO Mishra Dhatu Nigam Ltd, Hyderabad SHRI I. K. NAYAK Firth ( India ) Steel Co Ltd, Thane
SHRI K. A. SHENOY ( Alternate ) SHRI K. PA~THASARATHY Ashok Leyland Limited, Madras Dn R. V. PATHY Mahindra Ugine Steel Co Ltd, Bombay; and Alloy
Steel Producers’ Association of India. Bombav , SHRI R. NA~AYANA ( Alternate )
SRRI H. S. PAUL Modern Steel Ltd, Gobindgarh SHRI M. K. PRAMANIK Ministry of Steel & Mines ( Iron & Steel Control ),
Calcutta SHRI S. S. SAHA ( Alternate )
SARI RA~HUBIR SIXQII National Metallurgical Laboratory ( CSIR ), Jamshedpur
DIX V. RAMASWAMY Steel Authority of India Ltd ( Research and Develonment Centre for Iron & Steel ). Ranchi
_ ,_
SHRI S. R. MEDIRATTA ( Alternate ) SHRI H. S RAMCn.4xDRAN HMT Limited, Bangalore
SHRI P. P. CHOPRA( Alternate I ) SHRI P. RAMA PRASA~ ( Alternate II ) SHRI A. SHANTIXARAM ( Alternate III ) SHRI V. N. VXNXATESAN ( Alternate IV )
SnRI R. N. SAIlA Directorate General of Supplies & Disposals ( Inspection Wing ), New Delhi
SHRI D. K. PAUL ( Alternate) SHRI M. K. SBN Ministry of Defence ( DGI )
SHRI V. I. RAMASWAMY ( Alternate ) SRRI D. S. P. SRIVASTAVA Ministry of Defence ( DGOF ) SERI V. V. VIRABHADRAYYA Directorate General of Technical Development,
New Delhi SHRI S. K. JAIN ( Alternate )
SHBI K RAGHAVENDRAN, Director General, IS1 ( .??.x-@cio Member ) Director ( Strut & Met )
Secretary
Srrn~ A. B. TEWARI Deputy Director (-Met ), IS1
Panel for Steel for Cold Heading, SMDC 19 : P 14
Convener
DR S. K. MANDAL
Members
DR S. CHAKRAVORTY SHRI A. D. GOSAVI SHRI R. C. JHA
DR K. V. KRISHNAMURT~Y DR P. KRISHNASA~AR DR T. MUKBERJI SRRI K. PARTHASARATHY SARI G. R. PR’AKASH REPRESENTATIVE
Tata Engineering & Locomotive Co Ltd, Jamshedpur
Usha Alloys and Steels Ltd, Jamshedpur Guest Keen Williams Ltd, Howrah Steel Authority of India Ltd ( Alloy Steels Plant ),
Durgapur Sundaram Fasteners Ltd, Madras Modi Steels, Modinagar Tata Iron & Steels Co Ltd, Jamshedpur Ashok Leyland Limited, Madras Visvesvaraya Iron & Steel Ltd, Bhadravati Mukand Iron & Steel Works Ltd, Bombay
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IS : 11169 ( Part 1) - 1984
Indian Standard SPECIFICATION FOR
STEELS FOR COLD HEADING/COLD EXTRUSI-ON APPLICATIONS
PART 1 WROUGHT CARBON AND LOW ALLOY STEELS
0. FOREWORD
0.1 This Indian Standard ( Part 1 ) was adopted by the Indian Standards Institution on 3 1 December 1984, after the draft finalized by the Alloy Steels and Special Steels Sectional Committee had been approved by the Structural and Metals Division Council.
0.2 There had been a long-felt need for a standard indicating and stipulating the various requirements for cold-heading quality steels. This standard is meant to satisfy that need. It is obvious that both the manufacturers and the purchaser of the cold-heading quality steels shall drive the benefits from such standard.
0.3 This standard ( Part 1 ) does not cover stainless steels which will be covered in Part 2.
0.4 For the benefit of the purchaser, an informative appendix ( see Appendix A ) giving particulars to be specified, while ordering for steel, has been included.
0.5 This standard contains clauses 4.1.1, 4.1.2.1, 4.2, 7.3,g.l and 11.1 which call for the agreement between the purchaser and the manufac- turer, and permit the purchaser to use his option for selection to suit his requirements.
0.6 This standard keeps in view the manufacturing and trade practices followed in the country in this field, and due weightage has been given to international co-ordination among the standards.
IS : 1570-1961 Schedules for wrought steels for general engineering purposes
IS : 4432-1967 Specification for case hardening steels
IS : 5517-1978 Steels for hardening and tempering (jG.~t revision )
IS0 4954 Cold heading and cold extruding. International Organization for Standardization.
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IS : 11169 ( Part 1) - 1984
0.7 For the purpose of deciding whether a particular requirement of this standard is complied with, the final value, observed or calculated, expressing the result of a test or analysis, shall be rounded off in accord- ance with IS : 2-1960*. The number of significant places retained in the rounded off value should be the same as that of the specified value in this standard.
1. SCOPE
1.1 This standard covers the requirements for wrought carbon and alloy steels which are intended for cold heading/cold extrusion and are delivered as wires, wire rods or bars having a diameter of 2 to 100 mm.
1.2 This standard covers the following groups of steels:
a) Steels not intended for heat treatment ( Table 1 ),
b) Steels for quenching and tempering? ( Table 2 ), and
c) Case hardening steels ( Table 3 ).
1.3 This standard is not applicable to the properties of cold headed parts.
2. SUPPLY OF MATERIALS
2.1 General requirements relating to the supply of material shall conform to IS : 1387-1967:.
2.2 Steels covered by this standard shall be ordered and delivered on any one of the following basis:
Requirement Types of Condition of Delivery ~----_-._h-,--_--~
A B C D E F
Chemical composition X x x X X >( Hardenability - - X X X X Hardness in the condition - - x - - -
of delivery
Mechanical properties in as-delivered condition
UTS and percent RA - x - x X X Cold up-setting test X x x x x x Surface defect level - X X X X X
*Rules for rounding off numerical values ( revised ). tBoron treated. $General requirements for the supply of metallurgical materials.
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IS : 11169 ( Part 1) - 1984
Requirement Types of Condition of delivery r------ A_______~ ABCDEF
Microstructure
a) Decarburizat ion - - - _ X X b) Degree of’spheroidization - - - - - X c) Grain size - x - - - X
NOTE 1 - Cold upsetting test is not applicable for products having a diameter below 5.5 mm, for which suitable alternate test like revme torsion test may be agreed to betweea the supplier and the manufacturer.
NOTE 2 - Hardenability could refer to either End quenched Jominy values or core Hardenability as per Appendix C. However, the type of test must be agreed to at the time of enquiry and order.
3. MANUFACTURE
3.1 Steel shall be manufactured by the open hearth, electric, basis oxygen or in combination with secondary steel making facilities.
3.2 Steel ingots with a minimum cross-section area of 200 x 200 mm shall only be used and there should be sufficient reduction from the ingot to the finished stage.
3.3 For con-cast billets, a minimum reduction ratio of 20 : 1 shall be used from cast billet to the finished product.
3.4 The material from either the ingot or the con-cast route shall be free from central segregation, looseness, dendritic structure, casting inhomo- geneity, internal cracks, pipes and other harmful defects, which shall be agreed to between the supplier and the purchaser.
3.5 The semis or con-cast bil1et.s should be suitably inspected by macro- etching, ultrasonic testing, etc. to guarantee that the rolled product is free from surface and internal defects and is sufficiently compact.
3.6 The reduction ratio or ingot size, other than mentioned in 3.2 and 3.3 may also be used subject to agreement between the supplier and the purchaser.
4. CHEMICAL COMPOSITION
4.1 The ladle analysis of the different grades of steel when carried out either in accordance with relevant parts of IS : 2i8* or any other estab- lished instrumental/chemical method should conform to the values given in Tables 1 to 3. In case of dispute the procedure given in IS : 228* and its relevant ~parts shall be referee method.
4.1.1 For cases where the methods of chemical analysis is not covered by IS : 2281, mutually agreed methods may be adopted by the manufac- turer and the customer.
*Methods of chemical analysis of steels ( second revision ).
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IS : 11169 ( Part 1) - 1984
4.1.2 The sulphur and phosphorus contents, except in the case of free cutting steels shall be as follows:
S = 0’035 Max P = O-035 Max
4.1.2.1 Other combination of sulphur and phosphorus can be mutually agreed to, if so desired.
4.1.3 The nitrogen content of the material when ordered in rimmed condition shall be below 0.008 percent.
4.2 Elements not specified in Tables 1 to 3 shall not be added to the steel except where agreed to, other than for the purpose of finishing the heats and shall not exceed the following limits:
Constituent Max Content, Percent
Cr 0.15 Ni 0’15 cu 0.15 Sn 0.02 MO 0.05 V 0.05
However, total of these elements shall not exceed 0’40 percent.
4.3 The permissible variation in the case of product analysis from the limits specified in Tables 1 to 3 shall be according to Table 4.
4.4 Steels of Table 1 may be ordered as rimming, semi-killed or killed with silicon or aluminium or both.
5. ORDERING FOR DELIVERY
5.1 Steels shall be supplied in any one of the following conditions as agreed to between the purchaser and the manufacturer:
a) in the as-rolled condition,
b) in the as-rolled and spherodize-annealed condition, c) in bright drawn condition with or without annealing, d) in the peeled and/or centreless ground condition with or without
annealing, and e) in drawn annealed and coated condition.
6. DIMENSIONS AND TOLERANCES
6.1 The nominal dimensions of the bar wire rod or wire shall be as specified by the purchaser.
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IS : 11169 ( Part 1 ) - ‘1984
TABLE 1 SPECIFIED CARBON AND MANGANESE CONTENT FOR COLD HEADING QUALITY STEELS NOT INTENDED
FOR HEAT TREATMENT
DESIGNATION
4C2 ( CO4)
5c4 ( co5 )
7c4 ( co7 )
lOC4 ( Cl0 )
14C6 ( Cl4 )
15c4 (C15)
15C8 ( C15Mn75 )
2OC8 ( C20 )
25C4 ( C25 )
25C8 ( C25Mn75 )
( Clauses 4.1, 4.2, 4.3 and 4.4 )
C, PERCENT
0.08 Max
0.10 Max
0.12 Max
0’15 Max
0’10.0.18
0’20 Max
O’lO-0.20
O-15-0.25
0.20-0.30
@20-0.30
Mn, PERCENT
040 Max
@SO Max
0+50 Max
0.30~0.60
0.40~0.70
0.30-0.60
@60-090
0’60-0.90
0.30-0.60
0.60-0.90
NOTE 1 - Any of the above steels can be ordered. in killed, semi-killed or rimmed condition.
NOTE 2 - In special cases, it may be desirable that the range of carbon and silicon content shall be more closely controlled. When this is necessary, restricted ranges of carbon and carbon silicon may be agreed to between the supplier and the purchaser, in which case any specified mechanical properties shall also be subject to agreement.
TABLE 2 SPECIFIED CHEMICAL COMPOSITION OF COLD HEADING QUALITY STEELS FOR QUENCHING AND TEMPERING
( Clauses 4.1, 4.2 nnd 4.3 )
STEEL CONSTITUENT,PERCENT DESIONA- c-_--__-_-_--_- A--------~--_--7
TION(OLD C Mn Si Ni Cr MO B DESIGNA- TION)
2OC8 0.15 to 0’60 to - - - - - 0.25 0.90
25C8 0.20 to 0.60 to - - - - - 0.30 0.90
3OC8 0.25 to 0.60 to 0.10 to - - - - ( C30 ) 0.35 O-90 @35 35c8 0’30 to 0.60 to 0’10 to - - - - ( 35Mn75 ) 040 O-90 0.35
0’35 to 0.60 to 0.10 to - - - - 0.45 0.90 0.35
( Continucd )
IS : 11169 ( Part 1 ) - 1984
TABLE 2 SPECIFIED CHEMICAL COMPOSITION OF COLD HEADING QUALITY STEELS FOR QUENCHING AND TEMPERING - Contd
STEEL DEYIGNA- TION (OLD DHSIONA- TION)
45C8
CONSTITUENT,PERCENT .------_--------A---_--~ _-__ ’ c
0.40 to 0.50
0.16 to 0.24
0.22 to 0.32
0.32 to 0.42
0.30 to 0.40
030 to 0.40
0.35 to 0.45
0.35 to 0.45
0.20 to 0.30
0.35 to 0.45
0.30 to 0.40
0.26 to 0.34
0’18 to 0.23
0.23 to 0’29
0.32 to 0’37
0.35 to 0’40
Mn
0.60 to 0.90
1.30 to 1.70
1.30 to 1.70
1.30 to 1.70
1.30 to I.80
1.30 to 1.80
0.60 to 0.90
0.50 to 0.80
0.40 to 0.70
0.50 to 0.80
0.60 to 0.90
0.40 to 0’70
0.8 to 1’1
0.90 to 1.2
1.20 to 1.50
0.30 to 0’50
Si Ni Cr Mo B ’
-
-
-
-
-
-
-
0.10 to 0.35
0.10 to
- -
- - ( 20Mn2 ) 27Cl5 ( 27Mn2 ) 37c15 ( 37Mn2 ) 35Mn6Mo3 ( 35MnZMo28 ) 35Mn6Mo4 ( 35MnZMo45_) 40Cr4
4o~%f~3 ( 40Crl Mo28 ) ?5Cr13Mo6- ( 25Cr3MoE ) 4ONi14 { 4ONi3 ) 35Ni5Cr2 ( 35NilCr6!_) 30Ni13Cr5 ( 30Ni4Crl ) ZlClOBT*
0.35 0.10 to 0.35 0.10 to 0.35
0.10 to 0.35
_- - -
- - -
26ClOBT*
34C14BT”
0’20 to 0.35
-
0.10 to 0.35
0’35 to 0.55
- -
0.10 to 0.35
0.10 to 0’35
0.10 to 0.35
0’10 to 0.35
0.10 to @35
0.10 to 0.35
0.15 to 0.30
0.15 to 0.30
0.15 to 0.30
0.15 to 0.30
O-90 to 1.20
0.90 to 1.20
2.90 to 3.40
0.30 Max 0.45 to o-75
1.10 to 1.40
-
- -
0’20 to 0.35
0.45 to 0.65
-
-
-
-
0.000 5 to 0003
0.000 5 to 0.003
0000 5 to 0’003
0’000 5 to 0.003
-
3.20 to 3.60
1.00 to 1.50
3.90 to 430
-
-
-
- - -
-
38Cr4MnZBTf 0.95 to 1’15
NOTE 1 - In special cases, it may be desirable that the range of carbon silicon content should be more closely controlled than in the ranges-specified above. When this is necessary, restricted ranges of carbon and silicon may be agreed to between the purchaser and the manufacturer. NOTE 2 - For the boron treated steels restriction of Mn and Cr may be agreed to
between the purchaser and the supplier. NOTE 3 - Elements not quoted in the above table shall not be intentionally added
to the steel without agreement of the purchaser other than for the purpose of finishing the heat. All reasonable precautions shall be taken to prevent addition from scrap or other materials used in the manufacture of such steels which effect the harden- ability, mechanical properties and applicability.
*S&lx BT indicates Boron treated steel.
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IS : 11169 ( Part 1 ) - 1984
TABLE 3 CHEMICAL COMPOSITION OF CASE HARDENING STEELS
STEEL DESIGNITIOX
lOC4 I Cl0 1 14C6 (Cl4) llC15 ( llMn2 )
15C8 ( C15Mn75 )
15Cr3 ( 15Cr65)
16Mn5Cr4 ( 17MnlCrz )
20MnCr5 ( POMnCrl )
16Ni3Cr2 ( 16Ni8~CrGP_)
lGNi4Cr3 ( 16NilCrE)
13Ni14Cr3 ( 13Ni3Cr80 )
15Ni5Cr5 ( 15Ni4Crl )
20Ni7Mo2 ( 20Ni2Mo22 )
2ONiCrMo2 ( 20Nz5Cr50 - Mo20)
15Ni5Cr4Mol
( Clauses 4.1, 4.2 and 4.3 )
CONSTITUENT, PE:HCENT C--_--_--___-__h ______
c Si Mn Ni
0.15 MUX 0-05-0’35 0.30-0.60 -
O*lO-0.18 0’05-0.35 0.40-070 -
O-16 &fax o-10-035 1*30-1’70 -
0*10-O-20 O*lO-0.35 G’iiO-O-90 -
0.12-O-18 0.10-035 0’40-0-60 -
014-O-19 010-035 l*OO-1.30 - 080-1.10 -
O-1 7-O-22 0. IO-O.35 l’OO- 1’40 -
0.12-020 0.10-0.35 0~60-1’00 0.60-1.00
0.12-0.20 O*lO-0.35 0.60-1’00 030-l-20 0.60-1.00 -
0’10-0’15 O*lO-0.35 c’4o-o~;o 3.00-3’50 0.60-1.00 -
0’12-0.18 0’10-0.35 0’40-0.70 3’80-430
0’ 17-0.22 0.10-0.35 0.45-0.70 l-65-2.00
0.18-0.23 0.10-0.35 0~70-0~90 0~40-0’70 0.40-0.60 0.15-0.25
0’12-0’18 0.10-0.35 0~60-1’00 1’00-1’50 2)
O-75-1.25 0.08-0.15 ( 15NiCrlMol - 15Ni7Cr4Mo2 0.12-0.18 O.lO-O-35 O-60-1*00 1.50-2’00 0’75-1’25 O*lO-0.20 ( 15Ni2CrlMo15 )
16Ni8Cr6Mo2 O*12-0~20 IPlO-0’35 0’40-0’70 1.80-2’20 1~40-1’70 0.15-025 ( 16NiCr2Mo20_)
Cr
-
‘)
MO
-
- -
050-0.80 -
1’00-1~30 -
0.40-0’80 -
1’00-1~40 -
- 020-0.30
NOTE - In special cases, it may be desirable that the range of carbon and silicon content should be more closely controlled than in the ranges specified above. When this is necessary restricted ranges of carbon and silicon may be agreed to between the purchaser and the manufacturer.
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IS : 11169 ( Part 1 ) - 1984
TABLE 4 PERMISSIBLE VARIATION BETW-EEN SPECIFIED ANALYSIS AND PRODUCT ANALYSIS
CONSTITUENT
Carbon
Silicon
Manganese
Nickel
( Clause 4.3 )
LIMIT SROWNINT~BLES I,2 AND.? R~RCONTENTIN THE LADDLE ANALYSIS~PERCENT
r------- h---_-_-_~
Over U Ip
to and n&ding
- 0.030 0.030 0.20 0.20 0.60
- 0.15
0.15 0.45 0.45 1.00
K 2.0 1.0
- 1.0 1.0
*o”.o” 1”o.: 14.0
Chromium -
l’o.“, * I% 15.0
15.0 20.0
Molybdenum 0.10 0.60 0.60 1.15 1-75 3.0
Aluminium - 0.30
Boron - -
PERMISSIBLE DEVIATIONS PERCENT*
-/- 0.005 & 0.01 + 0.02
+ 0.03 - 0.00 * 0.03 + 0.05
* 0.04 + 0.05
+ 0.05 & 0.07 f 0.10 f 0.15
f 0.05 & 0.10 * 0.15 + 0.20
f 0.03 f 0.05 f 0.10
+ 0.05
r;;;:
*f means that in one cast the deviations may occur over the upper value or under the lower value of the specified range in Tables 1, 2 and 3 but not both at the same time.
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IS ; 11169 ( Part 1 ) - 1984
6.2 The tolerance and out-of-roundness of the bars/wire rods/wire shall be as follows:
Delivery Condition TOleratue Out-of-Roundness
As-rolled condition -I As-rolled and sphero- ) IS : 3739-1972* IS : 3739-1972* dize annealed condition J
Bars in other conditions XS : 9550-1980t IS : 9550-1980t
Wire rods up to 25 mm f 0’25 1 Wire rod over 25 mm to & 0.30 )
80 percent of diameter
@mm I tolerance
Wire As agreed to between the purchaser and the supplier
NOTE - For wire rods, more relaxed tolerances may be agreed to between the purchaser and the supplier when so required.
7. FREEDOM FROM DEFECTS
7.1 The steel shall be free from internal and surface defects likely to have an adverse effect during cold heading or subsequent heat treatment.
7.2 The bars and wires, shall be normally subjected to any non-destructive- test capable of revealing all the surface defects which would lead to rejection of the material on the basis of mutually agreed standard of acceptance.
In the absence of any non-destructive test, adequate number of samples shall be tested by macro-etching/microscopic examination and the acceptance surface defects level shall be as given below:
O.D. ( mm ) Defect Depth ( mm ), Max
2-6 0.06
7-10 0.08
11-15 0.10
16-20 0.12
21-30 0’15
31-100 To be mutually agreed
*Dimensional tolerances for carbon and alloy constructional steel products. tspecification for bright bars.
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IS : 11169 ( Part 1) - 1984
7.3 To ensure the freedom from defects harmful for cold heading products the purchaser may ask a cold heading test to be performed on representative samples of the supply lot. When such a test is agreed to, it shall -be conducted as per Appendix B.
7.4 The material should be free from harmful microscopic defects like dendrities, blowholes, porosity, segregation, flakes, etc, which may impair the intended application of the material. A macro-etch test shall be pz&i;led to ensure freedom from such defects [ see 1S : 7739 ( Part 5 )-
.
7.5 The peeled or centreless ground material should be free from any decarburization. In all other conditions of delivery the depth of decarburization shall be as given below whilst being totally free from completely ferritic decarburized zone:
Diameter Permissible Depth of Ferritic-Pea&tic d Decarburization in the Condition?
r--h__y From up to C+AC Untreated or
mm mm or C+AC+IC AC mm mm
8 0.10 0.12
8 12 0.12 0.15
12 17 0.16 0.20
17 23 20 0.25
23 27 0.24 0.29 ( Ml07 x d )+0*05 ( 0.009 xd )+0*05
NOTE 1 - Decarburization shall be checked on 4 points of cross-section and the average reading shall not exceed the above limits.
NOTE 2 - If in special cases other values for the permissible depth of the ferritic pearlitic decarburixation are required, these shall be specially agreed at the time of the enquiry and order.
*Code of practice for preparation of metallographic specimens: Part 5 Iron and steel, TThe steels are usually delivered in one of the followpi heat treated conditions:
Annealed -Annealed and peeled AC + P Cold drawing and annealed C+AC Cold drawn and annealed and lightly
Cold reduced ( for example with a C+AC+IC reduction of 5 percent )
Cold heading and cold extruding case hardening steets are also delivered in the untreated condition, mainly to drawing shops.
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IS : 11169 ( Part 1 ) - 1984
8. HARDNESS
8.1 The maximum hardness for products delivered in annealed condition when determined in accordance with IS : 1500-1983* shall be given in Table 5.
TABLE 5 MAXIMUM HARDNESS FOR PRODUCTS DELIVERED IN THE ANNEALED CONDITION
STEEL DESIGNATION
4c2
5c3
7c3
lOC4
14C6
15c4
15C8
2OC8
2x4
25C8
3OC8
35C8
4OC8
45C8
2OC15
27Cl5
37c15
35Mn6Mo3
35Mn6Mo4
40Cr4
4UCr4Mo3
BEINELL HARDNESS,
Max HBS
120
120
120
130
140
140
140
150
150
150
160
160
170
170
170
198
190
190
190
200
200
STEEL DESIGNATION
25Cr13Mo6
4ONil4
35Ni5Cr2
30Ni13Cr5
llC15
15Cr3
16Mn5Cr4
20MnCr5
16Ni3Cr2
16Ni4Cr3
13Ni13Cr3
15Ni5Cr5
20Ni7Mo2
PONiCrMo2
15Ni5Cr4Mol
15Ni7Cr4Mo2
16Ni8Cr6Mo2
2lClOBT
26ClOBT
34C14BT
38Cr4Mk2BT
BXINELL HAKDNEIS
%S
190
190
190
200
170
140
160
170
160
180
190
200
180
180
180
180
190
160
160
190
206
*Method for Brine11 hardness test for metallic materials ( second rev&n ). *
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IS : 11169 ( Part 1) - 1984
9. MECHANICAL PROPERTIES
9.1 The mechanical properties of the steel in any particular condition of supply shall be according to the agreement between the purchaser and the manufacturer.
9.1.1 The mechanical properties including U.T.S. and reduction of area in the as-delivered condition shall be subject to agreement between the contracting parties.
9.2 Should the customer ask for it the steels specified in Tables 2 and 3 ’ shall be capable to satisfying the requirements for following recommended mechanical properties in the heat treated ( quenched and tempered ) condition:
Brine11 hardness ( see IS i 1500-1983* ) Ultimate tensile strength 7 0.2 percent proof stress ( for steels of k
Table 2 only ) as per IS : 1608-1972t
Elongation ( on 5*652/A ) i Izod impact strength ( as per IS : 1598-l-977$ )
9.2.1 The requirements for the mechanical properties referred to in 9.2 for different ruling sections is given in Tables 6 and 7 as a guidance.
9.2.2 The properties given in Tables 6 and 7 are applicable to test pieces taken on rounds in the direction of the fibre, the axis of which corresponds to Fig. 1.
10. METALLURGICAL PROPERTIES
10.1 The microstructure of the steel shall be fixed by mutual agreement between the purchaser and the manufacturer. When the material is required in spherodized annealed condition it will have a microstructure which is characterized by a high degree of spherodization of at least 90 percent of carbides, as revealed by a ~microstructure properly prepared and etched and viewed eat a magnification not less than x 500.
NOTE - It should be taken into account that the spherodization of ~the cementite is more difficult for steels with lower carbon content.
10.2 If for the steel grades included in Tables 2 and 3, a controlled austenitic grain size is required then the austenitic grain size will be determined according to IS : 2853-1964s and should be between 5 to 8. The portion of grains of other sizes ( outside 5 to 8 ) shall be less than 20 percent and must not be coarser than 4.
*Methods for Brine11 hardness test for metallic materials ( second reuision ). iMethod for tensile testing of steel products (first reuision b fIzod impact test for metals (first revision ). §Method of determining austenitic grain size of steel.
14
IS : 11169 ( Part 1) - 1984
TABLE 6 RECOMMENDED MECHANICAL PROPERMES ACHIEVABLE IN COMMONLY USED STEELS IN HARDENED AND
TEMPERED CONDTMON ( clauses 9.2.1 and 9.2.2 )
STEEL DESIQ- TENSILB ~'ZPICROENT MINIMUM PERCENTAUE LIBZITING NATION STRENGTH PROOFSTRESS PERCIWUGE IMPACTRA RULING
MPa MPa Min OFEL;F$ATION STRENC+TH SECTIO~,~~
JOULES
2oc8 540-690 490-640
-
370 295 -
25CXl 580-730 540-690
-
390 330
35C8 620-770 420 580-730 365 540-690 325
4OC8 660-810 450 620-770 390 580-730 340
45C8 700-850 460 660-810 410 620-7 70 375
4OCr4 1 000-l 200 880 900-I 180 680 800-950 570
40Cr4Mo3 1 100-l 300 900 1 000-I 200 750
900-l 100 700
20 22 -
::
17
::
:8” 19 14 16 17
:: 14 IO 11 12
’ 45 50
45 50 -
2: 50
z 50 25 48 45
:: 50
z 50
-iii- 39 -
30 -
i: 29
20 20 20
;:
as 29
z: 34
16
1g
10.3 Inclusion rating of the specimen shall not exceed the following limits:
Thin Heavy
A 2 I ‘5
E 2 1’5 2 l-5
D 2 1’5
10.3.1 Inclusion rating shall be determined in accordance with IS : 4163-1967*. The worst field of each inclusion from each specimen shall be recorded as a rating for the specimen.
NOTE - In case of minimum rulphur specified, the level of sulphide inclusion shall be mutually agreed to between the purchaser and the supplier.
*Methods of determination inclusion content in steel by microscopic method.
15
IS : 11169 ( Part 1 ) - 1984
11. HARDENABILITY
11.1 For steels ordered on the basis of end-quenched hardenability the requirements shall be mutually agreed to between the purchaser and the manufacturer.
11.1.1 The method of testing Jominy hardenability of steel shall be in accordance with IS : 3848-1981*.
li.1.2 For steels ordered on the basis of core hardenability, the values should be as given in Appendix C. The hardening process should be as given in Appendix C.
TABLE 7 MECHANICAL PROPERTIES OF CASE HARDENING STEELS IN THE REPINED AND QUENCHED CONDITION ( CORE PROPERTIES)
( Clauses 9.2.1 and 9.2.2 )
k STEEL TENSILE DESIC+NA- STRENOTH,
TION Min
9 ii)
iii) iv) v)
vi) vii)
viii)
1oc4 500 14C6 500
1 lCl5 15Cr3 16Mn5Cr4 20MnCr5 16Ni3Cr2 16Ni4Cr3
ix)
x)
13Ni13Cr3
15Ni 16Cr5
xi)
xii)
20Ni7Mo2
20Ni7CrMo2
xiii)
xiv)
15Ni5Cr4Mol
15Ni7Cr4Mo2
xv) 16Ni8Cr6Mo2
MPa
600 600 800
1 000 700 850 800 750 850 800
1 350 1 200 1 150
850 700 900 800 750
1 000 950
1 100 1 000
950 1 350 1 200 1 150
ELONGATION, IZOD hWJ!INC? Min, GATJQE IXPACT RULING
VALUE, Min SECTION LENGTH
5.65 dr PERCENT
(IF SPEGUWED) JOULES mm
::
17 13 i0
1: 12
- 12
s -
12
11
s
s -
s -
-
15 Over 15
up to 30 30
z): 30
3”: 60 90
1:: 30
60 90
NOTE-~ agreed.
ore properties for wire diameter 12 mm and below should be mutually
*Method for end quench testing for hardenability of steel (Jirst revision ).
16
IS : 11169 ( Part 1 ) - 1984
TENSILE TEST PIECE
r-f-1 t+--j- IMPACT TEST PIECE
i. .j 4
All dimensions in millimetres.
FIG. 1 LOCATION OF THE TEST PIECE IN THE PRODUCTS TO BE DELIVERED
17
IS : 11169 ( Part 1 ) - 1984
12. SAMPLING
12.1 For the purpose of this standard, products belonging to the same cast and same annealing condition shall constitute a lot. Samples shall be tested.from each lot.
12.2 The ladle analysis shall be supplied by the producer. If a product analysis is required by the purchaser at least one sample product shall be taken from each heat.
12.2.1 For product analysis the selection of samples shall be carried out in accordance with IS : 3711-1966*.
12.3 For determination of hardness of annealed materials, one sample product shall be taken for each lot, subject to the minimum of at least two samples from each heat.
12.4 Test pieces for mechanical tests shall be taken in the longitudinal direction of the product in accordance with Fig. 1. Two test pieces shall be taken from each annealing batch.
12.5 General condition for selection and preparation of samples shall be in accordance with IS : 3711-1966*.
13. RETESTS
13.1 Retest for Product Analysis - If the results of the product analysis do not meet the composition requirements given in Tables 1 to 4, unless otherwise agreed to between the purchaser and the manufacturer, two new samples shall be taken on different pieces from the same cast. Should the two analysis satisfy the requirements, the lot represented shall be accepted. Should either of the two tests fail, the material shall be taken as not complying with this standard.
13.2 Retests for Hardness and Mechanical Tests - If the samples selected under 12.3 and 12.4 fail to meet the requirements under 9.1.1 and 9.2.1 two further samples shall be selected from the same heat-treat- ment batch. The consignment shall be considered to conform to the requirements if both the additional tests are satisfactory. Should either ofthe samples fail, the manufacturer shall have the right, if he so desires, to reheat-ireat the product in any suitable manner, before two fresh samples are taken for testing. Should the two tests satisfy the requirements ofthis standard, the lot represented shall be accepted. Should either of the samples fail the material shall be taken as not complying with this standard.
*Method for selection and preparation of samples and test pieces for mechanical tests for wrought steel.
18
IS : 11169 ( Part 1 ) - 1984
14. PACKING AND MARKING
14.1 Steel bars shall be suitably bundled and packed as per order. A metal tag, giving the following informations, shall be attached to each bundle:
a) Name and trade-mark of the manufacturer,
b) Steel grade, and
c) The cast number or any other identification by which the steel can be traced to the cast and heat treatment batch from which it was made.
14.1.1 The colour code scheme specified in IS : 2049-1978* as required by the purchaser may be adopted to mark the grade of the material.
14.2 The material may also be marked with the IS1 Certification Mark.
NOTE - The use of the IS1 Certification Mark is governed by the provisions of the Indian Standards Institution ( Certification Marks ) Act and the Rules and Regu- lations made thereunder. The IS1 Mark on products covered by an Indian Standard conveys the assurance that they have been produced to comply with the require- ments of that standard under a well-defined system of inspection, testing and quality control which is devised and supervisedby IS1 and operated by the producer. IS1 marked products -are also continuously checked by IS1 for conformity to that standard as a further safeguard. Details of conditions under which a licence for the use of the IS1 Certification Mark may be granted to manufacturers or processors, may be obtained from the Indian Standards Institution.
APPENDIX A
( Clause 0.4 )
BASIS FOR ORDER
A-l. While placing an order for the steels covered by this standard the purchaser should specify clearly the following:
a) Grade; b) Quality ( requirement class );
c) Size;
d) Finish;
e) Tests required;
f) Special requirments, such as coating, bundling or packing;
g) Method of manufacture; and
h) Test reports, if required. I.
*Colour code for tbe identification of wrought steels for general engineering purposes (first reuision ) .
19
IS : 11169 ( Part 1) - 1984
APPENDIX B ( Clause 7.3 )
TEST TO ENSURE THE FREEDOM FROM HARMFUL DEFECTS
B-l. The cold heading test applies only for products having diameter between 6 mm and 30 mm ( both figures included ). If this test is required and if not otherwise agreed at the time of enquiry and order, straight test pieces with parallel cut and faces and an initial height of h, ~7: 1.5 x do ( d,, = diameter of the test piece ) are to be prepared without altering the original surface of the same product. Samples from products which have not been heat-treated after hot-rolling may be transformed into the heat-treated condition to be obtained prior to cold heading.
B-2. The test pieces for cold heading test shall be headed, at ambient temperatures to one-third or one-fifth of their initial height or as agreed to between the purchaser and the supplier. If for very large sample diameter or insufficient capacity~of the press the heading test cannot be carried out at ambient temperature, it may be carried out, after agree- ment, at approximately 500°C. Where necessary, other requirements and test conditions can be agreed to at the time of enquiry and order.
B-3. The frequency and intensity of the perfection on the cold headed test pieces for acceptance shall be as below:
Grade 0 - No cracks
01 - Cracks width 0.10 mm
1 - Cracks width 0*10/0.25 mm
2 - Cracks width 0*25/0,50 mm
The heat is acceptable if ( a ) not more than 10 percent samples show grade 01 and ( b ) no sample shows grade 1 nor higher.
Any other acceptance criterion for cold heading test has to be mutually agreed upon.
B-4. Minimum of 10 or 10 percent coils per lot/cast shall be tested for above at both ends of coil. For rods up to 500 in number, the sample shall be 1 percent or 10 pieces, whichever is more at both ends and above 500 bars in a lot, the samples taken shall be 1 percent.
20
IS : 11169 ( Part 1 ) - 1984
APPENDIX C
( Clauses 2.2 and 11.1.2)
DIAMETER UP TO WHICH, AFTER QUENCHING IN AN OIL OF HIGH QUENCHING CAPACITY, A HARDNESS OF 40,
45 OR 48 HRC CAN BE ACHIEVED FOR THE CORE (~THE VALUES ARE FOR GUIDANCE ONLY )
Steel Designation ( Old Designation )
Hardness in the Core
(HRC)
35C8 40
4OC8 ( C 40 ) 40
45C8 ( C 45 ) 40
2OC15 (20 Mb 2 ) -
27C15 (27 Mn 2) -
37C15 ( 37 Mn 2 ) 40
35Mn6Mo3 ( 35 Mn 2 Mo29 -
4OCr4 ( 40 Cr 1) ’ 40
40Cr4Mo3 ( 40 Cr 1 MO 28 ) 48
25Cr13Mo6 ( 25 Cr 3 MO 55 ) -
40 Ni 14 ( 40 IVi 3 ) - -
35Ni5Cr2 ( 35 Ni 1 Cr 60 ) -
3ONilSCr5 ( 30 Ni 4 Crl ) -
21ClOBT 40
26ClOBT 40
34C 14BT 40
38Cr4Mn2BT -
Maximum Dia
( mm )
8
11
12 -
-
15
28
28 -
-
-
12
16
26
Hardening Temperature (“C)
840-880
830-860
830-860 -
-
820-850 -
850-880
850-880 -
-
-
-
880
880
850 -
NOTE - For steels where n0 values have been indicated, the requirements should
be mutually agreed, if necessary.
21
INTERNATIONAL SYSTEM OF UNITS ( SI UNITS )
Base Units
QUANTITY
Length
Mass
Time
Electric current
Thermodynamic temperature
Luminous intensity
Amount of substance
Supplementary Unit8
QUANTITY
Plane angle
Solid angle
Derived Units
QUAXTXTY
Force
Energy
Power
Flux
Flux density
Frequency
Electric conductance
Electromotive force
Pressure, stress
UNIT
metre
kilogram
second
ampere
kelvin
candela
mole
UNIT
radian
steradinn
UNIT
newton
joule
watt
weber
tesla
hertz
siemens
volt
Pascal
SYXEOL
m
kg
A EC
cd
mol
SPxnoL
rad
Sr
SYXl3OL
N
J W
LYb
T
II2
s
V
Pa
1 N = 1 kg.m/s’
1 J = 1 N.m
1 W=lJ/r
1 Wb = 1 V.r
1 T = 1 Wb/m*
1 Hz - I c/s (s-1) 1 S = 1 A/V
1 v - l W/A
1 Pa = 1 N/m*
IS-11169 ( Part 2 ) : 1999
Indian Standard
STEELS FOR COLD HEADING/COLD EXTRUSION APPLICATIONS-
SPECIFICATION PART 2 STAINLESS STEELS
UDC 669’14’018’8
Q BIS 1990
BUREAU OF INDIAN STANDARDS MANAK BHAVAN, 9 BAHADUR SHAH ZAFAR MARG
NEW DELHI 110002 ..-C
January 1.&O \
Price Groap 2 .
Alloy Steels and Special Steels Sectional Committee, SMDC 19
FOREWORD.
This Indian Standard ( Part 2 ) was adopted by the Bureau of Indian Standards on 25 May 1989, after the draft finalized by the Alloy Steels and Special Steels Sectional Committee had been approved by the Structural and Metals Division Council.
IS 11169 ( Part I ) Steels for cold heading/cold extrusion applications : Part 1 Wrought carbon and low alloy steels was issued in 1984. This standard covers:
a) Carbon steels, b) Alloy steels, c) Carbon steels with boron, and d) Alloy steels with boron.
In view of the special requirements of stainless steels for cold heading/cold extrusion application, it was recommended by the committee to treat this topic as a separate part of the standard,
This standard is exclusively covering the application of stainless steels for cold heading processes. This standard ( Part 2 1 has been prepared keeping in view that the particulars to be specified while ordering the steel are as per ( Part 1 ) of this standard.
In & preparation of this standard ( Part 2 ), manufacturing and trade practices followed in the country in this field have been kept in view. Also due weightage has been given to the! need for international coordination in standardization. The following Indian and international standards have been referred:
IS 1570 ( Part 5 ) : 1985
IS 6527 : 1972
IS0 4954 : 1979
DIN 1654 ( Part 5 ) : 1980
Schedules for wrought steels : Part 5 Stainless and heat-resisting steels (first revision )
Stainless steel wire rod
Steels for cold heading and cold extruding
Steels for cold heading and cold extruding, technical conditions of delivery for stainless steels. ( DIN).
Deutsches Institut fiir Normung
For the purpose of deciding whether a particular requirement of this standard is complied with, the final value, observed or calculated, expressing the result of a test or analysis, shall be rounded off in accordance with IS 2 : 1960 ‘Rules for rounding off numerical values ( revised )‘. The number of significant places retained in the rounded off value should be the same as that of the specified value m this standard.
Is 11169 ( Part 2 ) : 1989
Indian Standard
STEELS FOR COLD HEADING/COLD EXTRUSION APPLICATIONS-
SPECIFICATION PART 2 STAINLESS STEELS
1 SCOPE
1.1 This standard ( Part 2 ) covers the require- ments for wrought stainless steels intended for cold heading and are delivered as wires, wire rods or bars. It applies to ferritic, martensitic and austenitic stainless steels.
2 REFERENCES
2.1 The Indian Standards listed below are necessary adjuncts to this standard:
IS No. Title
IS 228 ( in parts ) Methods of chemical analysis of steels ( second revision )
IS 2049 : 1978 Colour code for the identi- fication of wrought steels for general engineering purposes (Jirst revision )
Table 1 Summary of Quality Requirement Classes
IS 3711 : 1966 Method for selection and pre- paration of samples and test pieces for mechanical tests for wrought steels
IS 8910 : 1978 General technical delivery requirements for steel and steel products
3 SUPPLY OF MATERIAL
3.1 General requirements relating to the supply of material shall conform to IS 8910 : 1978. Steel covered by the standard shall be ordered and delivered on any one of the following basis:
a) Chemical composition, or
b) Chemical composition and mechanical properties.
4 REQUIREMENT CLASSES
4.1 When steel is ordered in accordance with this standard, one of the three classes ( see Table 1 ) shall be agreed at the time of enquiry.
1
SI No.
QaalityTyRpceplllrement Rcqat,;;+ent
6 6 1 2 3
i) Chemical composition:
a) Ladle analysis X x X
b) Check analysis x - -
ii) Mechanical properties:
a) Supply condition* X X X
b) At room temperature? - x X
c) At temperature from - - - 50 to 300°ct
*As per delivery conditions covered under 10.
tin the heat treatment conditions specified in Tables 5 and 6.
5 MANUFACTURE
5.1 Unless otherwise agreed to in the order, the processes used in making the steel are left to the discretion of the manufacturer. When so desired, the purchaser shall be informed of the steel making process.
6 CHEMICAL COMPOSITION
6.1 The ladle analysis of different grades of steel when carried out either in accordance with relevant parts of 1s 228 or any other established instru- mental/chemical method should conform to the values given in Table 2. In case of dispute, the procedure given in various parts of IS 228 ( in parts ) shall be the referee method.
6.1.1 For cases where the methods of chemical analysis are not covered in any part of IS 228, mutually agreed methods may be adopted by the manufacturer and the customer.
IS 11169 ( Pnrt 2 ) : 1989
Table 2 Chemical Compositiolt ( Applicable to LadIe AnaIysis )
C Clauses 6.1, 6.2 and 12.1 )
Sl IUQ.
Steel Grade
(1)’ (2)
i) Ferritic steei x 07Cr17
ii) Martensitic steel x 12Cr12
(3) (4)
0.12 1-o -Max: *
068-0’15 1-o
iii) Austenitic steel 0’030 x02Cr19NilO Max
x04Cr19NilO
xWCr17Ni12Mo2
xO4Crl8NilOTi
xO4Cr17Ni12Mo2Ti
x 02Cr17Nil2MoZ
Elements, Percent c
Carbon Silicon (C) (SC)
1-O
O-OS Max
1’0
0’08 E-0 MUX
0.08 Max
O-08 Max
f-0
0’030 14 Ma-X
Manga- N;;y C%h&one Molybde- nese num
Su:Spwr Phos- Others’ phorus,
(P) Max
0
2-O
2’0
2-o
2-o
2-O
2-O
8Q-12’0
10’5-12’0
10-O.14-O
9’0-12Q
10’0-14-0
10%14’0
17.5-20.0
17-o-20.0
160-18.0
17-O-19+
16’0-18.0
16%18.0
(8) (%
- O-030
- O-030
- 0’030
- O-030
2-0-3.0 0’030
- 0.030
20-3-O o-030
2’0-3’0 O-030
(11)
-
-
-
-
-
6.2 The permissible variation in the case of product analysis from the limits specified in Table 2 shall be according to Table 3.
Table 3 Permissibb Deviation in Check AnaIysis
( Clauses 6.2 and 12.1 )
Constituent Permissible Content in Permissible Cast Analysis, Percent Deviation
(Percent)
Over Including
Carbon
Silicon Manganese
Chromium 11.5 20 f 020 Molybdenum 2-O 3.0 f 0.10 Nickel 8.0 14’0 & 0.15 Sulphur - 0.03 f 0’005 Phosphorus - OU5 f @005 Titanium 0’40 0.80 f 0’05
7 FREEDOM FROM DEFECTS
7.1 The material shall be free from harmful inter- nal and surface defects.
2
8 MECHANICAL PROPLRTIES
8.1 For all steels, which are ordered, shall be of the treatment conditions indicated in 10, the maximum values for tensile and yield strength (TS) and the minimum value for reduction of area (RA) as specified in Table 4 shall apply.
8.2 For all steels which are ordered in accordance with the requirements of Class 2, the mechanical properties specified in Table 5 shall apply for reference test pieces which are heat treated io accordance with the recommendations of Table 6.
9 CORROSION RESISTANCE
9.1 The performance of stainless steeIs under various conditions of chemical attack cannot be characterized by test values as general norms. If desired, a corrosion test shall be agreed to at the time of enquiry and order.
10 TREATME&T CONDITION OF DELIVERY
10.0 The steels shall be usually delivered in one of the foltowing treatment conditions unless speci- fically agreed to. at the time of enquiry/order.
,
IS 11169 ( Part 2 > : 1989
Table 4 Treatment
( CIause 8.1 )
Steel Grade Treatment for Fe&tic and Martensitic Grades
x07017 x 12cr12 x02Cr19NilO xO4Cr19NilO x04Cr17NilZMo2 xOlCrlSNilOTi2 xO4Cr17Ni12Mo2Ti
x02017Nil2Mo2
ACorAC+P:C+-AC:C+AC+LC Treatment for Austenitic Grades
--- -- L ” - Q or Q+P C+Q E+Q-tLC
m r L \
Reduction Teosile Reduction 5ze--- Strength in Area
“‘%?” in Area
str%:th
Re$rrc;an
MPa Percent Percent Percent Max Min Max Mitt Max Min
570 63 570 60 620 65 600 60 600 62 640 62 630 55 630 55 680 55 680 5.5 680 55 730 55 680 55 680 55 730 55 680 5.5 680 55 730 55 680 5s 680 55 730 55 680 5s 680 55 730 55
Table 5 Mechanical Properties of Steels as per Heat Treatment Condition in Table 6
( Clause 8.2 ) k.
Steel Grade Heat Yield Point or Tensile Elongation Impact U Treatment 0.2% Proof St;;gth Percent Condition Stress, MPa
Min tiP;l
N;tc$$ mm
G.L(.%& /s;; *
Ferritic xOlCr17 Annealed 270 450-600 20 - Martensitic x 12012 Quenched & 450 600-750 18 50
Tempered Austenitic xOXrI9NilO Quenched 175 450- 700 50 60
x04Cr19NilO 185 500-700 50 60 x04Cr17Ni12MoZ 205 500-700 45 60 xO4CrlSNilOTi 205 500-750 40 60 x04Cr17Nil2Mo2Ti 225 500-750 40 60 x02Cr17Ni12Mo2 225 500-750 40 60
Table 6 Heat Treatment Condition
( Clause 8.2 )
Steel Grade Annealing Quenching Tempering c-_&-7 r-- ~-h------, Temp “C
Temp “C Cooling Temp “C Cooling Medium Medium
Ferritic x07Crl7 750-850 Air/water - - -
Martensitic x 12CrI2 700.780 Furnace 950-l 000 Oil or Air 750-850 or Air
Austcnitic x02Cr19NilO - 1 000-I 050 x 04Cr19NilO - - 1 000-l 050
x 04Cr17Ni12Mo2 - - 1050-I ioo
x04Crl8NilOTi - 1 020-l 070
x04Cr17Ni12Mo2Ti - - 1050-I 100
x02Cr17Ni12Mo2 - - 1050-I 100
I 3
0
i
1s 11169 ( Part 2 ) : 1989
10.1 Ferrltic and Martensitlc St&s
AnneaIed ( spheroidization of carbides )
Annealed ( spheroidized ) and peeled
Cold drawn and annealed ( spheroidized )
Cold drawn, annealed ( spheroi- dized ) and lightly cold reduced ( for example, with reduction of 5 percent )
10.2 Austenltic Steels
Quenched
Quenched and peeled
Cold drawn and quenched
Cold dr;,a quenched and lightly reduced ( for example, with reduction of 5 percent )
11 SAMPUNG
AC
AC+P
C+AC
C+AC+LC
Q
Q+P C+Q C+Q+LC
12 RETESTS
12.1 Retest for Product Analysis
If the results of product analysis do not meet the composition requirements given in Tables 2 and 3, unless otherwise agreed to between the purchaser and the manufacturer, two new samples shall be taken on different pieces from the same cast. Should the two analysis satisfy the requirements. the lot represented shall be accepted. Should either of the tests fail, the material shall be taken as not complying with this standard.
12.2 Retest for Mechanical Tests in the Heat Treated Condition
11.1 Sampling for Chemical Analysis
The ladle analysis shall be supplied by the producer. If a product analysis is required by the purchaser, at least one sample product shall be taken from each cast.
If the samples selected fail to meet the require- ments stipulated, two further samples shall be selected from the same heat treatment batch or lot. The consignment shall be considered to conform to the requirements if both the additional tests are satisfactory. If either of the samples fails, the manufacturer shall have the right, if he so desires in case of heat-treated material, to reheat- treat the product in any suitable manner before two fresh samples are taken for testing. If the two tests satisfy the requirements of this standard, the lot represented shall be accepted and if either of the samples fails, the material shall be taken as not complying with this standard.
13 PACKING OF MATERIALS AND MARKING
13.1 Steel bars shall be suitably bundled. A metal tag giving the following information shall be attached to each bundle:
a) Name or trade-mark of the manufacturer,
b) Steel grade, and
11.2 Sampling for Mechanical Properties
If required by the purchaser, one sample product shall be taken from each size grouping of each heat-treated batch for testing. If the product is continuously heat-treated, the sampling for mechanical tests shall be as agreed to between the purchaser and the manufacturer.
General conditions for selection and preparation of samples and test pieces shall be in accordance with IS 3711 : 1966. to mark the grade of the material.
c) The cast number or any other identification mark by which the steel can be traced to the cast and heat treatment batch from which it was made.
13.2 The colour scheme specified in IS 2049 : 1978 or as required by th: purchaser may be adopted _
Standard Mark
The use of the Standard Mark LS governed by the provisions of the Bureau of Indian Standards Act, 1980 and the Rules and Regulations made thereunder. The Standard Mark on products covered by an Indian Standard conveys the assurance that they have been produced to comply with the requirements of that standard under a well defined system of inspection, testing and quality control which IS devised and supervised by BIS and operated by the producer. Standard marked products are also contmuously checked by BIS for conformity to that srandard as a further safeguard. Details of conditions under which a hcence for the use of the Standard Mark may be granted to manufacturers or producers may be obtained from the Bureau of Indian Standards.
-
BIS is a statutory institution established under the BurMu o/ Indian Smmfiw~ Act, 1986 to promote harmonious development of the activities & standardization, marking and quality certification of goods and attending to connected matters in the country.
. ’ Copyright
BIS has the copyright of all its publications. No part of these publications may be reproduced in any form without the prior permission in writing of BIS. This does not preclude the free use, in the course of implementing the standard, of necessary details, such as symbols and sizes, type or grade designations. Enquiries relating to copyright be addressed to the Director ( Publications j. BIS.
Revision of Indian Standards
Indian Standards are reviewed periodically and revised, when necessary and amendments, u any, arc issued from time to time. Users of Indian Standards should ascertain that they are in possession of the latest amendments or edition. Comments on this Indian Standard may be sent to BIS giving the following reference:
Dot : No. MTD 16 ( 3338 )
Amendments Issued Since Publlcrtlom
Amend No. Date of Issue Text Affected
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