JIS-C-2532-1999-R2005-ENG.pdf

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1、STD-JIS C 2532-ENGL L999 4933b08 0569292 034 J IS JAPANESE INDUSTRIAL STANDARD Translated and Published by Japanese Standards Association Electrical resistance wires, ribbons and sheets for general use ICs 29.060.10 Descriptors : sheet materials, resistors, electric wires, electrical resistance mate

2、rials, Reference number : JIS C 2532 : 1999 (E) alloys, filaments, materials by form 11 s Copyright Japanese Standards Association Provided by IHS under license with JSALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted

3、 without license from IHS -,-,- STD-JIS C 2532-ENGL 1999 = 4933bOB 0569293 T70 I I C 2532 : 1999 Foreword T h i s translation has been made based on the original Japanese Industrial Standard revised by the Minister of International Trade and Industry through deliberations at the Japanese Industrial

4、Standards Committee in accordance with the Industrial Standardization Law: Date of Establishment: 1976-11-01 Date of Revision: 1999-12-20 Date of Public Notice in Official Gazette: 1999-12-20 Investigated by: Japanese Industrial Standards Committee Divisional Council on Non-Ferrous Metals JIS C 2532

5、 : 1999, First English edition published in 2001-01 Translated and published by: Japanese Standards Association 4-1-24, Akasaka, Minato-ku, Tokyo, 107-8440 JAPAN In the event of any doubts arising as to the contents, the original JIS is to be the final authority. O JSA2001 All rights reserved. Unles

6、s otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm, without permission in writing from the publisher. Printed in Japan Copyright Japanese Standards Association Provided by IHS un

7、der license with JSALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STDmJIS C 2532-ENGL 1999 m 4933b08 05b9294 907 JAPANESE INDUSTRLAL STANDARD JIS C 2532 : 1999 Electrical resistance w

8、ires, ribbons and sheets for general use Introduction This Japanese Industrial Standard has been prepared based on the first edition of IEC 60182-4 Basic dimensions of winding wires-Part 4 : Diameters of conductors for round resistance wires issued in 1971 without modifying its techni- cal contents.

9、 Particular requirements not specified in the relevant IEC Standard are given as JIS requirements in the clauses (2 to 5 and 7 to 12). The dotted-under- lined descriptions (Attached Tables 2 and 3) are not contained in the corresponding International Standard. In addition, IEC 60182-4 was withdrawn

10、in 1990 and replaced by IEC 60317-0-1 Specifications for particular types of winding wires-Part O : General requirements- Section I : Enamelled round copper wire. This Standard has no corresponding relations with the said International Standard, in order that the scope is different from that of this

11、 Standard. 1 Scope This Standard specifies alloy wires, ribbons and sheets for electrical re- sistance (hereafter referred to as “wires, ribbons and sheets”) having volume resis- tivity of 1.5 p52.m or under. Remarks : The corresponding International Standard is as follows: IEC 60182-4 : 1971 Basic

12、dimensions of winding wires- Part 4 : Diameters of conductors for round re- sistance wires 2 Normative references The standards given in Attached Table 1 contain pro- visions which, through reference in this Standard, constitute provisions of this Standard. The most recent editions of the standards

13、shall be applied. 3 Definitions The definitions of the major terms used in this Standard shall be as follows: a) b) ribbon Coiled metals obtained by cutting sheets in longitudinal direction. volume resistivity Electrical resistance per unit cross section and unit length (Q-m). mean temperature coeff

14、icient The value obtained in a manner which rela- tive variation in electrical resistance of an electrical conductor due to tempera- ture is divided by the temperature difference between two given temperatures. Generally, it is given in E. conductor resistance The electrical resistance per unit leng

15、th in longitudi- nal direction of a conductor having a uniform cross section (52). Unit length is usually 1 m or 1 km and the conductor resistance is respectively given in Wm or Wkm. c) d) 4 Classification and symbol The classifications and symbols shall be as shown in Table 1. Copyright Japanese St

16、andards Association Provided by IHS under license with JSALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STD*JIS C 2532-ENGL 1999 = 9933608 0569275 843 I 2 C 2532 : 1999 Table 1 Classi

17、fication and symbol I Classification Symbol Property and usage (informative) Clas: 142 123 111 111 - - Type Electrical resistance iron- chromium for general use Electrical resistance nickel- chromium for general use Electrical resistance iron-nickel- chromium for general use Electrical resistance co

18、pper- manganese for general use Electrical resistance copper- nickel for general use Shapt Wire - Ribboi Sheet . Ferromagnetic and high resistance material suitable for general use (resistance element), having good resistance to heat and oxidation. Material is hard and cold bending workability is sl

19、ightly inferior, but this can be improved bj heating. GFC123 is lower than GFC142 on electric resist- ance, but better on workability. Electric resistance of GFC111 is lower than GFC123, whilst its workability is best so that the ribbons and sheets of GFC111 are suitable for press working. Attention

20、 is required that any classes have inferior brazing property. Maximum temperature for use is 500 “C. GFC1428 GFC1238 GFClllFI GFClllR GFC 1 1 1P 111 112 108 101 69 Wire GNC 1128 GNC1088 GNClOlVi GNC69W GNC108 is the highest class of resistance material having small temperature coefficient of resista

21、nce, and enough toughness and resistance to heat and corrosion. GNC112 is inferior to GNC108 on temperature coefficient of resistance, toughness and resistance to heat and corro- sion, etc. GNC101 has better resistance to heat and corrosion next to GNC112 and suits high resistive material. The tempe

22、ra ture coefficient of resistance of GNClO1 is bigger than that of GNC108 and GNC112. Any of them has inferior brazing property. GNC108 and GNC69 are non-magnetic. Maxi- mum temperature for use is 500 “C. Non-magnetic and middle resistance material, having good resistance to corrosion and slight dif

23、ficulty to braze. This material tends to cause the hardening and martensite transformation by working and become weak magnetic. The temperature coefficient of resistance, toughness and resistance to heat is slightly inferior to GNC108, GNCl12 and GNC101. Maximum temperature for use is 300 “C. Middle

24、 resistance material, having poor resistance to corro- sion and oxidation but good property to work and weld. The electrical resistance and mechanical properties are inferior to GCN49. Damp proof treatment and coating against oxidation are needed. Maximum temperature for use is 150 “C. 112 108 101 R

25、ibbor GNC 112R GNC108R GNClOlR 112 108 101 Sheet GNC112P GNC108P GNC 10 1P 72 - 44 Wire Wire GSU72W GCM44W 44 Sheet GCM44P 49 30 15 10 5 49 30 15 10 5 49 30 15 10 5 - - GCN49W GCN3OW GCN15W GCNlOW GCN5W GCN49, GCN30 Middle resistance material having fairly better resistance to corrosion, smaller tem

26、perature coefficient of resistance and good property to work and weld which is easy to use. ihe temperature coefficient of resistance and mechanical yoperty of GCN30 is inferior to those of GCN49. The ;hennoelectromotive force to copper of any materials is .arge and GCN49 is also available to a ther

27、mocouple. XN15, GCN10, GCN5 Low resistance material having good property to work and )raze but relatively larger temperature coefficient of resist- ince. me resistance to corrosion of these materials is better than tlectrical copper materials. Pertaining to temperature :oefficient of resistance and

28、mechanical property, GCN5 is nferior to GCN10 and GCN10 is inferior to GCN15. Maxi- num temperature of GCN15, GCN10 and GCN5 are respec- ively 250 O C , 220 “C and 200 O C . Wire Ribbon sheet WN49R JCN30R JCN15R 3CNlOR 3CN5R XN49P 3CN30P 3CN15P 3CNlOP 3CN5P Copyright Japanese Standards Association P

29、rovided by IHS under license with JSALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STDgJIS C 2532-ENGL 1999 4733608 0567276 7BT = 28 3 C 2532 : 1999 Wire Table 1 (concluded) Classific

30、ation Electrical resistance nickel- aluminium for general use Electrical resistance nickel for general use 9.6 Wire 1 Symbol GNA28W GN9.6W _ _ _ _ _ _ _ Property and usage (informative) Ferromagnetic middle resistance material having relatively s m a l l electric resistance, relatively larger temper

31、ature coefficient of resistance, fairly good mechanical property and resistance to corrosion and heat, but slight difficulty to braze. Maximum temperature for use is 500 O C . Ferromagnetic low resistance material having large tem- perature coefficient of resistance, good mechanical property to work

32、 and braze, resistance to corrosion and heat, and special property of resistance against alkali. This suits heat resistive lead wire (conductor) due to low resistance. Maximum temperature for use is 500 OC. 5 Quality 5.1 Appearance The wires, ribbons and sheets shall have smooth surface and be free

33、from scratches? twists, cracks, adhesive substances and other defects detrimen- tal to service. 5.2 Chemical composition The chemical composition of the wires, ribbons and sheets shall be as given in Table 2. Copyright Japanese Standards Association Provided by IHS under license with JSALicensee=IHS

34、 Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STDSJIS C 2532-ENGL 2999 I 4733608 05b9297 bLb - - 4 C 2532 : 1999 Ni +Al + Si + Mn 98.5 min. Table 2 Chemical composition I Type Chemical compositio

35、n % (mim) Symbol I Al - 4 to 6 - 2 to 4 C 0.10 - Si 1.5 max. 1.5 max. - Fe Others Re- - mainder Re- - mainder Electrical resistance iron-chromium for general use GFC 142 -E GFC123 0.10 max. to 26 - max. to 21 - 0.10 ma3 - 0.15 GFC111 2 to3 1.5 max. 0.75 to 1.6 0.75 to 1.6 1.0 to 3 . 0 1.0 max. 1.0 m

36、ax. - - - - mainder 1.5 15 max. 1 L. 1 toi8 GNC112 Electrical resistance nickeI-chromium for general use mainder max. 2.5 19 max. 1 L. 1 to21 1.0 18 max. IYo37 I to21 - mainder - Ni + Cr + Si 99.0 min. Re- - mainder - Cu + Mn + Ni 98.0 min. - Cu + Ni + Mn 99.0 min. 1.5 - 9.0 max. to 10.5 2.0 8.0 18.

37、0 max. to 10.5 to20.0 10.0 1.0 - to 13.0 to 4.0 0.5 42.0 - to 2.5 to 48.0 GSU72 0.08 Iw; Electrical resistance iron-nickel-chromium for general use Electrical resistance copper-manganese for general use GCM44 Electrical resistance copper-nickel for general use GCN30 GCN15 ;1“2.0 I max. to 7.0 GCN10

38、GCN5 1.0 max. /Oc3.0 1 - - - 3 . 0 m8x. -I Electrical resistance nickel-aluminium for general use Electrical resistance nickel for general use GNA28 2.5 max. GN9.6 0.2 max. 0.10 to0.501 2. 1 o.2o max. I - 0.05 max. Note (1) Nickel may contain a small amount of cobalt. 5.3 Volume resistivity The volu

39、me resistivity of wires, ribbons and sheets shall be as given in Table 3. However, this article does not apply to the wires of diameter less than 0.135 5 mm and the ribbons and sheets of thickness less than 0.50 mm. Copyright Japanese Standards Association Provided by IHS under license with JSALicen

40、see=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STDIJIS C 2532-ENGL Lqqq 4733608 05b7298 552 W f0.06 f0.05 f 0.05 300 150 50 -2 400 +1 500 -2 500 f 0.030 1 200 f0.030 I50 5 C 2532 : 1999 Tab

41、le 3 Volume resistivity and characteristics Symbol Volume resistivity Property and usage (informative) w * m Classification Mean temperature coefficient 100 O C ) . force to copper 100 “Cl I I Shape itandard alue mesistance ron- 1.42 GFC142W GFC123W f 0.06 f0.06 1.23 br :hromi- general EL 1.11 GFC 1

42、1 1 W GFC 111R Ise I 111 IRibbon 111 Sheet Electrical 112 Wire resistance nickel- -# 112 Ribbon GFC 11 1P GNC112W 1.12 GNC112R GNC 112P GNC108W :hromium ror general I I use 108 Wire H- 108 Ribbon 1.08 GNC 108R GNC108P 1 108 I Sheet 1.01 101 Wire H- 101 Ribbor f 0.05 f0.030 GNC 10 1 W GNC 10 1R 101 S

43、heet H- 69 Wire GNClOlP , GNC69W + 20.5 + 0.690 GSU72W 0.720 Wire Wire resistance iron-nickel- chromium for general Electrical resistance 0.440 f 2 1 150 copper- for general use 44 Sheet GCM44P Copyright Japanese Standards Association Provided by IHS under license with JSALicensee=IHS Employees/1111

44、111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STDOJIS C 2532-ENGL 1999 m 4933b08 05b9299 499 m 6 C 2532 : 1999 Table 3 (concluded) Classification Symbol Volume resistivity PQ*m Property and usage (informative)

45、Thermo- electro- motive force to copper rivBK (O to 100 “Cl Maximum operation temperature Mean temperature coefficient . 10-W (23 to 100 O C ) “C Class - 49 Shape Standard value Tolerance - GCN49W 0.490 0.300 400 Electrical resistance copper- nickel for general use Wire I80 - 41 f0.030 f0.024 49 GCN

46、49R Ribbon Sheet Wire 49 30 - GCN49P GCN30W 200 - 32 300 30 30 - GCN3OR GCN3OP Ribbon Sheet 15 15 - 500 250 GCN15W GCN15R f 0.015 ir0.012 Wire Ribbon 0.150 0.100 - 25 - 18 15 10 - GCN15P GCNlOW Sheet Wire 700 220 10 10 - Ribbon Sheet GNClOR GCNlOP 5 Wire GCN5W 0.050 10.007 5 1 500 - 13 200 5 5 - GCN

47、5R Ribbon Sheet GCN5P 28 - 9.6 - GNA28W 0.280 f 0.025 2 200 - 20.5 500 Electrical resistance nickel- aluminium for general use Electrical resistance nickel for general use Wire Wire GN9.6W 0.096 O k0.015 O 4 500 - 22 500 5.4 Mechanical property The mechanical property of wires, ribbons and sheets sh

48、all be as given in Table 4. However, this article does not apply to the wires hav- ing diameter of less than 0.200 mm and the ribbons and sheets having thickness of less than 0.50 mm. Copyright Japanese Standards Association Provided by IHS under license with JSALicensee=IHS Employees/1111111001, User=Wing, Bernie Not for Resale, 03/15/2007 23:33:23 MDTNo reproduction or networking permitted without license from IHS -,-,- STD-JIS C 2532-ENGL 1979 m 4933b08 0569300 T30 7 C 2532 : 1999 - Cl