Evaluation of Copper-Beryllium Contacts for High Current Density Pulsed Applications
Low-resistance metal-to-metal contacts, both static and sliding contacts, are of interest to many scientific and technical applications as magnetic confinement fusion, railguns, and electrical motors. In fusion applications, silver-coated copper contacts and low-current-density designs are preferred...
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| Published in | IEEE transactions on plasma science Vol. 47; no. 8; pp. 4048 - 4051 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.08.2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| Abstract | Low-resistance metal-to-metal contacts, both static and sliding contacts, are of interest to many scientific and technical applications as magnetic confinement fusion, railguns, and electrical motors. In fusion applications, silver-coated copper contacts and low-current-density designs are preferred, while in other applications, high current densities are required. For high-pressure high-current-density sliding contacts, contact pairs such as aluminum/copper are preferred as in railguns, while for electrical motors, copper-copper alloys are preferred. Copper-beryllium alloy, C172, is investigated as static contacts for high-current-density pulsed-power applications. To subject the contacts to suitable current pulses and pressures, a special electrical contact assembly has been developed allowing contact pressures from 0 to 66 MPa and current densities from 62 to 263 kA/cm 2 . The contacts were studied under different current density pressure combinations with repeated 60-<inline-formula> <tex-math notation="LaTeX">\mu \text{s} </tex-math></inline-formula> pulses in air, while current evolution and surface modifications were followed. Besides some surface oxidation, no evidence of other surface modifications like welding or surface melting were found. |
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| AbstractList | Low-resistance metal-to-metal contacts, both static and sliding contacts, are of interest to many scientific and technical applications as magnetic confinement fusion, railguns, and electrical motors. In fusion applications, silver-coated copper contacts and low-current-density designs are preferred, while in other applications, high current densities are required. For high-pressure high-current-density sliding contacts, contact pairs such as aluminum/copper are preferred as in railguns, while for electrical motors, copper–copper alloys are preferred. Copper–beryllium alloy, C172, is investigated as static contacts for high-current-density pulsed-power applications. To subject the contacts to suitable current pulses and pressures, a special electrical contact assembly has been developed allowing contact pressures from 0 to 66 MPa and current densities from 62 to 263 kA/cm2. The contacts were studied under different current density pressure combinations with repeated 60-[Formula Omitted] pulses in air, while current evolution and surface modifications were followed. Besides some surface oxidation, no evidence of other surface modifications like welding or surface melting were found. Low-resistance metal-to-metal contacts, both static and sliding contacts, are of interest to many scientific and technical applications as magnetic confinement fusion, railguns, and electrical motors. In fusion applications, silver-coated copper contacts and low-current-density designs are preferred, while in other applications, high current densities are required. For high-pressure high-current-density sliding contacts, contact pairs such as aluminum/copper are preferred as in railguns, while for electrical motors, copper-copper alloys are preferred. Copper-beryllium alloy, C172, is investigated as static contacts for high-current-density pulsed-power applications. To subject the contacts to suitable current pulses and pressures, a special electrical contact assembly has been developed allowing contact pressures from 0 to 66 MPa and current densities from 62 to 263 kA/cm 2 . The contacts were studied under different current density pressure combinations with repeated 60-<inline-formula> <tex-math notation="LaTeX">\mu \text{s} </tex-math></inline-formula> pulses in air, while current evolution and surface modifications were followed. Besides some surface oxidation, no evidence of other surface modifications like welding or surface melting were found. |
| Author | Lindero-Hernandez, Miguel Ramos-Lopez, Gonzalo Nieto-Perez, Martin |
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| SubjectTerms | Aluminum Beryllium Beryllium base alloys Capacitors Contact pressure Contacts Copper Copper base alloys copper–beryllium Current density Current pulses Electric contacts High current Melting Metals Motors Oxidation pulsed power Railguns RLC circuits Silver Springs |
| Title | Evaluation of Copper-Beryllium Contacts for High Current Density Pulsed Applications |
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