SAE J 2031-2012 High Tension Ignition Cable《高压点火电缆》.pdf

1、_ SAE Technical Standards Board Rules provide that: “This report is published by SAE to advance the state of technical and engineering sciences. The use of this report is entirely voluntary, and its applicability and suitability for any particular use, including any patent infringement arising there

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3、ublication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of SAE. TO PLACE A DOCUMENT ORDER: Tel: 877-606-7323 (inside USA and Canada) Tel: +1 724-776-497

4、0 (outside USA) Fax: 724-776-0790 Email: CustomerServicesae.org SAE WEB ADDRESS: http:/www.sae.org SAE values your input. To provide feedback on this Technical Report, please visit http:/www.sae.org/technical/standards/J2031_201408 SURFACE VEHICLE STANDARD J2031 AUG2014 Issued 1990-01 Reaffirmed 201

5、4-08 Superseding J2031 FEB2012 High Tension Ignition CableRATIONALE J2031 has been reaffirmed to comply with the SAE five-year review policy. 1. SCOPE The specifications contained in this SAE Standard pertain to high tension ignition cable used in road vehicle engine ignition systems. 2. REFERENCES

6、2.1 Applicable Documents The following publications form a part of this specification to the extent specified herein. Unless otherwise indicated, the latest issue of SAE publications shall apply. 2.1.1 UL Publication Available from Underwriters Laboratories Inc., 333 Pfingsten Road, Northbrook, FL 6

7、0062-2096, Tel: 847-272-8800, . UL 1581 Reference Standard for Electrical Wires, Cables, and Flexible Cords 2.2 Related Publications The following publications are provided for information purposes only and are not a required part of this SAE Technical Report. 2.2.1 ASTM Publication Available from A

8、STM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428-2959, Tel: 610-832-9585, www.astm.org ASTM D 471 Standard Test Method for Rubber Property - Effect of Liquids 2.2.2 SAE Publication Available from SAE International, 400 Commonwealth Drive, Warrendale, PA 15096-0001

9、, Tel: 877-606-7323 (inside USA and Canada) or 724-776-4970 (outside USA), www.sae.org. SAE J2032 Ignition Cable Assemblies 3. CABLE DIMENSIONS The average overall diameter of finished cable shall be 5 mm, 7 mm, or 8 mm. Other sizes are acceptable and dimensional control for these will be as agreed

10、on by manufacturer and customer. Allowable tolerance for either size shall be 0.3 mm. The average overall diameter shall be determined by taking the average of five sets of measurements along a 1 m length of finished cable. Each set of measurements shall consist of the determination of the maximum a

11、nd minimum diameter at the point of measurement. 4. TEST REQUIREMENTS When tested according to the methods outlined, the ignition cables covered by this document shall be capable of complying with the applicable requirements specified herein. Test methods and requirements for cable constructions oth

12、er than those specified previously will be as agreed on by manufacturer and customer. Figure 1 defines the applicability of the test and provides specific performance criteria. NOTE: Wherever the term “room temperature” is used, it shall be defined as 23 C 5 C. NOTE: Wherever the term “full draft, c

13、irculating-air oven” is used, the air shall be completely exchanged at least 8 times per h, but no more than 20 times per h. 4.1 Spark Test When agreed upon by the manufacturer and customer, an AC spark test shall be performed on 100% of production of each ignition wire to which it is applicable (se

14、e Figure 1). Apparatus shall consist of a voltage source, electrode, voltmeter, fault-current device or system, and the necessary electrical connections. The recommended apparatus and test method shall be that described in UL 1581, Section 900. Test potential shall be 25 kV for 5 mm, 25 kV for 7 mm

15、cable, and 30 kV for 7 mm High Energy or 8 mm cable. NOTE: This test is not a qualification test but an in-process test carried out under production conditions. Alternate methods for this test may be considered provided that insulation faults are detected with the same degree of certainty. 4.2 High

16、Potential Test Refer to A.1 in Appendix A for test apparatus. Immerse an approximate 1200 mm specimen for 4 h in a salt solution (3% m/m of NaCl in water) at room temperature with the ends twisted together and emerging approximately 400 mm above the surface of the solution. Apply a test voltage of 2

17、0 kV (rms) for 30 min between the conductor and the solution. NOTE: The applied potential is to be increased from near zero at an essentially uniform rate not to exceed 500 V/s. The cable shall not break down. Then increase the voltage at a rate not exceeding 500 V/s to the following levels: 5 mm ca

18、ble - 25 kV (rms) 7 mm cable - 30 kV (rms) 7 mm High Energy cable - 35 kV (rms) 8 mm cable - 35 kV (rms) Cable breakdown shall not occur below the voltage indicated. SAE INTERNATIONAL J2031 Reaffirmed AUG2014 Page 2 of 11_ FIGURE 1 - TEST APPLICABILITY AND PERFORMANCE CRITERIA SAE INTERNATIONAL J203

19、1 Reaffirmed AUG2014 Page 3 of 11_ 4.3 Capacitance Soak an approximate 1200 mm specimen in a salt solution (3% m/m NaCl in water) at 70 C 2 C for 24 h with each end of the cable emerging approximately 100 mm above the surface of the solution. Measure the capacitance between the conductor and the sol

20、ution. Immerse the same specimen in tap water at 23 C 2 C for 1 h with each end of the cable emerging approximately 100 mm above the surface of the water. Again, measure the capacitance between the conductor and the water. The frequency applicable to both measurements shall be 1000 Hz. Measured capa

21、citance values shall not exceed those agreed on between the cable manufacturer and the user. 4.4 Corona Resistance Affix an approximate 1200 mm specimen to a mandrel as specified in A.2 in Appendix A. Apply the test potential specified in Figure 1 for a period of 8 h. NOTE: The applied potential is

22、to be increased from near zero at an essentially uniform rate not to exceed 500 V/s. There shall be no breakdown of the cable, nor shall the surface of the specimen exhibit any cracks, fractures, or other defects. 4.5 Deformation Test Determine the average thickness of the covering(s) over the condu

23、ctor of an approximate 100 mm specimen of finished cable. Mount the specimen into the test apparatus shown in A.3 in Appendix A and load with the following mass: 5 mm cable - 312 g (include mass of test frame) 7 mm cable - 450 g (include mass of test frame) 7 mm High Energy cable - 450 g (include ma

24、ss of test frame) 8 mm cable - 510 g (include mass of test frame) Place the test unit into a full draft, circulating air oven maintained at the temperature specified in Figure 1 for a period of 4 h. Remove the test unit from the oven and cool within 10 s by immersing in cold water. Remove the specim

25、en and measure the depth of the indentation in the area of the application of the load using an optical device. The value of this measurement shall not exceed 50% of the original average thickness of the covering(s). 4.6 Thermal Overload Test Suspend an approximate 500 mm specimen, when a 12.5 mm ma

26、ndrel is used, or an approximate 800 mm specimen, when a 38 mm mandrel is used, vertically for 48 h in a full draft, circulating-air oven maintained at the temperature specified in Figure 1. Upon completion of the aging, remove the specimen from the oven and allow to cool to room temperature. Subjec

27、t the specimen to winding test as defined in A.4, Appendix A. On completion of the windings, there shall be no evidence of cracks, fractures, or other defects. For resistive cables, measure the resistance of the cable at room temperature before and after the test. The allowable change in resistance

28、shall not exceed the values specified in Figure 1. 4.7 Test for Shrinkage This test shall apply where shrinkage of the conductor covering(s) is important with respect to the attachment of the connector. Measure the exact length (200 mm minimum) of a suitable specimen at room temperature. Place the s

29、pecimen horizontally into a full draft, circulating-air oven maintained at the temperature specified in Figure 1 for a period of 15 min. Remove the specimen, cool to room temperature, and measure the length again. Maximum shrinkage shall not exceed the values shown in Figure 1. In addition, there sh

30、all be no evidence of cracks, fractures, or other defects in the surface of the specimen. SAE INTERNATIONAL J2031 Reaffirmed AUG2014 Page 4 of 11_ 4.8 Resistance to Flame Propagation For this test, a Bunsen or Tirrill gas burner having a barrel diameter of approximately 9.0 mm shall be employed. Wit

31、h the barrel vertical and the burner well away from the specimen, the height of the flame is to be adjusted to approximately 100 mm. The blue inner cone is to be approximately 50 mm high and the temperature at its tip is to be a minimum of 900 C as measured using a chromel-alumel thermocouple. Suspe

32、nd an approximate 500 mm specimen in a draft-free chamber and expose it to the tip of the inner cone of the flame, as shown in A.5 in Appendix A, for the period of time specified in Figure 1. Any combustion of the specimen must extinguish itself within the time specified in Figure 1 following the re

33、moval of the flame. 4.9 Low Temperature Test Affix one end of an approximate 400 mm specimen to a 25 mm rotatable mandrel and attach a 4.5 kg mass to the free end. Subject the specimen, in a vertical position (i.e., with the mass freely hanging), to the temperature specified in Figure 1 for a period

34、 of 4 h. Without removing the sample from the freezing chamber, wind it a minimum of three turns onto the rotatable mandrel at a speed of one turn/second. There shall be no evidence of cracks, fractures, or other defects. NOTE: If the test device is precooled, a freezing time of 2 h is sufficient. 4

35、.10 Mechanical Strength Test An approximate 1200 mm specimen shall be suspended as defined by A.6 in Appendix A and subjected to the following force for a period of 5 min: 5 mm cable - 180 N 7 mm cable - 250 N 7 mm High Energy cable - 250 N 8 mm cable - 250 N 4.10.1 Resistive Cable For resistive cab

36、les, measure the resistance prior to the test on the full length of the specimen and again after the test on a 250 mm straight portion of the specimen that was under stress. The change in the resistance per unit length shall not exceed the value shown in Figure 1. 4.10.2 Reactive Cable For reactive

37、cables, verify with approximately 12 V DC that there is no discontinuity in a 250 mm straight portion of the specimen that was under stress. 4.11 Stripping of Insulation Where cables are required to be stripped, it shall be possible to remove at least 20 mm of insulation from the conductor cleanly a

38、nd without difficulty. Specific stripping force values, when required, shall be agreed on between the manufacturer and the user. 4.12 Resistance to Oil Measure the diameter of an approximate 400 mm specimen and then immerse for 48 h in ASTM No. 1 oil at a temperature of 90 C 2 C with the cable ends

39、emerging approximately 50 mm above the surface of the oil. (The oil shall be stirred during the test.) Remove the specimen, wipe off the excess oil, and cool to room temperature. The maximum change in diameter shall not exceed 15% nor decrease more than 5%. Subject the specimen to winding test as sp

40、ecified in A.4, Appendix A. On completion of the windings, there shall be no evidence of cracks, fractures, or other defects. SAE INTERNATIONAL J2031 Reaffirmed AUG2014 Page 5 of 11_ 4.13 Resistance to Fuel Measure the diameter of an approximate 400 mm specimen and then immerse in ASTM fuel C at roo

41、m temperature for 30 min with cable ends emerging approximately 100 mm above the surface of the fuel. Remove the sample and allow to dry for approximately 30 min. The maximum change in diameter shall not exceed 15% nor decrease more than 5%. Subject the specimen to winding test as specified in A.4,

42、Appendix A. On completion of the windings, there shall be no evidence of cracks, fractures, or other defects. 4.14 Accelerated Life Test Subject an approximate 1200 mm specimen to winding test as specified in A.4 in Appendix A, and then as specified in A.2. The specimen, while secured to the mandrel

43、, shall then be subjected to each of the five tests outlined in the sequence listed. Test voltages shall be 15 kV (rms) for 5 mm and 7 mm cable and 20 kV (rms) for 7 mm High Energy and 8 mm cable. The test voltage shall be applied for 30 min while the mandrel is contained within a close-fitting, non

44、magnetic metallic sleeve, which may have flared ends. Conditioning prior to the application of the test potential shall be conducted with the sleeve in position. NOTE: The applied potential is to be increased from near zero at an essentially uniform rate not to exceed 500 V/s. The sequence of the hi

45、gh temperature resistance test and low temperature resistance test may be reversed. When immersed in liquids, the cable ends shall emerge approximately 100 mm above the surface of the liquid. There shall be no breakdown of the test specimen at any point in the sequential testing procedure. 4.14.1 Re

46、sistance to Salt Water Place the test specimen in a full draft, circulating-air oven maintained at 90 C 2 C for 4 h and then immediately immerse in a salt solution (3% m/m of NaCl in water) and maintain at 50 C 2 C for 16 h. Remove the specimen from the solution, drain for 30 min at room temperature

47、, and then apply the specified voltage. 4.14.2 Resistance to Oil Place the test specimen in a full draft, circulating-air oven maintained at 90 C 2 C for 4 h and then immediately immerse in ASTM No. 1 oil and maintain at 90 C 2 C for 16 h. Remove the specimen from the oil, drain for 30 min at room t

48、emperature, and then apply the specified voltage. 4.14.3 Resistance to Fuel Immerse the test specimen in ASTM fuel C at room temperature for 30 min. Remove the specimen from the fuel, drain for 4 h with or without the sleeve, and then apply the specified voltage with the metallic sleeve in place. 4.14.4 High Temperatur