United States Department of Commerce Technology Administration National Institute of Standards and Technology NIST Monograph 177 Properties of Copper and Copper Alloys Cryogenic Temperatures at N. J. Simon, £. S. Drexler, and R. P. Reed NIST Monograph 177 Copper and Copper Properties of Alloys Cryogenic Temperatures at N. J. Simon E. S. Drexler R. P. Reed Materials Reliability Division Materials Science and Engineering Laboratory National Institute of Standards and Technology Boulder, CO 80303-3328 Sponsored by International Copper Association, Ltd. 708 Third Avenue NewYorl<, NY 10017 February 1992 U.S. DepartmentofCommerce RockwellA. Schnabel, Acting Secretary TechnologyAdministration RobertM.White, UnderSecretaryforTechnology National InstituteofStandards andTechnology JohnW. Lyons, Director National Institute of Standards and Technology Monograph 177 Natl. Inst. Stand. Techno!. Mono. 177, 850 pages (Feb. 1992) CODEN: NIMOEZ U.S. GOVERNMENT PRINTING OFFICE WASHINGTON: 1992 For sale by the Superintendent of Documents, U.S. Government Printing Office, Washington, DC 20402-9325 NOTE TO READERS The number of digits in some of the tables is an artifact of the computer program used to analyze the data. This program furnished tabular output with the same number of decimal places for all numbers. Thus, the number of digits given in the table does not represent the number of significant digits in the measured or calculated values. The letters A, B, 0, ... that follow the reference number in the tables and graphs are used to distinguish between data on alloys of different composition from the same reference. Each subsection of the monograph is intended to be self-contained, and usually does not require the reader to refer to other subsections. However, the table of characterization of materials and measurements and the list of references are found only at the end of each numbered section. For example, a subsection on thermal expansion of C10100-C10200 copper is self-contained, except for the characterization table and reference list found at the end of section 7 on thermal properties. iii TABLE OF CONTENTS 1. COPPER AND SELECT COPPER ALLOYS: INTRODUCTION 1-1 OXYGEN-FREE COPPER 2. TENSILE PROPERTIES 2-1 Tensile Yield Strength 2-1 Ultimate Tensile Strength 2-29 Elongation 2-51 Reduction of Area 2-61 Engineering Stress-Strain 2-68 3. IMPACT PROPERTIES 3-1 Impact Energy 3-1 4. FATIGUE PROPERTIES 4-1 Stress-controlled Axial Fatigue Life 4-1 Strain-controlled Axial Fatigue Life 4-18 Fatigue Crack Growth Rate 4-27 5. CREEP PROPERTIES 5-1 Creep Strain 5-1 6. ELASTIC PROPERTIES 6-1 Young's Modulus 6-1 Shear Modulus 6-11 Bulk Modulus 6-19 Polsson's Ratio 6-23 7. THERMAL PROPERTIES 7-1 Specific Heat 7-1 Thermal Conductivity 7-16 Magnetothermal Conductivity 7-20 Thermal Expansion Coefficient 7-23 Mean Thermal Expansion 7-35 8. ELECTROMAGNETIC PROPERTIES 8-1 Electrical Resistivity 8-1 Residual Resistivity Ratio 8-15 Magnetoresistance 8-23 Magnetic Susceptibility 8-29 Magnetization 8-38 V TABLE OF CONTEhfTS (continued) BERYLLIUM COPPER 9. TENSILE PROPERTIES 9-1 Tensile Yield Strength 9-1 Ultimate Tensile Strength 9-48 Tensile Elongation 9-96 Tensile Reduction of Area 9-138 Engineering Stress-Strain 9-160 10. IMPACT PROPERTIES 10-1 Impact Energy 10-1 11. FATIGUE PROPERTIES 11-1 Stress-controlled Flexural Fatigue Life 11-1 Stress-controlled Axial Fatigue Life 11-19 Stress-controlled Flexural Fatigue Life 11-22 Strain-controlled Axial Fatigue Life 11-56 12. CREEP PROPERTIES 12-1 Creep Strain 12-1 13. ELASTIC PROPERTIES 13-1 Young's Modulus 13-1 Shear Modulus 13-6 Poisson's Ratio 13-11 14. THERMAL PROPERTIES 14-1 Specific Heat 14-1 Thermal Conductivity 14-4 Thermal Expansion Coefficient 14-8 Mean Thermal Expansion 14-14 15. ELECTROMAGNETIC PROPERTIES 15-1 Electrical Resistivity 15-1 Magnetic Susceptibility 15-36 vl 1 TABLE OF CONTENTS (continued) PHOSPHOR BRONZE 16. TENSILE PROPERTIES 16-1 Tensile Yield Strength 16-1 Ultimate Tensile Strength 16-13 Strain to Failure 16-20 Reduction of Area 16-27 Stress-Strain 16-32 17. IMPACT PROPERTIES 17-1 Impact Energy 17-1 18. FATIGUE PROPERTIES 18-1 Reversed Bending Fatigue 18-1 Stress-controlled Fatigue 18-8 19. CREEP PROPERTIES 19-1 Creep Strain 19-1 20. ELASTIC PROPERTIES 20-1 Young's Modulus 20-1 Shear Modulus 20-5 Poisson's Ratio 20-1 21. THERMAL PROPERTIES 21-1 Specific Heat 21-1 Thermal Conductivity 21-8 Thermal Expansion Coefficient 21-16 Mean Thermal Expansion 21-20 22. ELECTROMAGNETIC PROPERTIES 22-1 Electrical Resistivity 22-1 Magnetoresistance 22-16 Magnetic Susceptibility 22-17 vii