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公开(公告)号:US20250059636A1
公开(公告)日:2025-02-20
申请号:US18939813
申请日:2024-11-07
Applicant: MATERION CORPORATION
Inventor: John E. GATEHOUSE , Michael J. GEDEON , Fritz GRENSING , Bruce D. SCHMECK , Jeffrey S. HOYER , Michael F. TYSON , Karl R. ZIEGLER
Abstract: A process for producing a copper-beryllium alloy product. The process comprises preparing a base alloy having 0.15 wt %-4.0 wt % beryllium and having grains and an initial cross section area. The process further comprises cold working the base alloy to a percentage of cold reduction of area (CRA) greater than 40%, based on the initial cross section area, and heat treating the cold worked alloy to produce the copper-beryllium alloy product. The grain structure of the copper-beryllium alloy product has an orientation angle of less than 45° when viewed along the direction of the cold working. The copper-beryllium alloy product demonstrates a fatigue strength of at least 385 MPa after 106 cycles of testing.
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公开(公告)号:US20220220597A1
公开(公告)日:2022-07-14
申请号:US17609088
申请日:2020-05-05
Applicant: MATERION CORPORATION
Inventor: John E. GATEHOUSE , Michael J. GEDEON , Fritz GRENSING , Bruce D. SCHMECK , Jeffrey S. HOYER , Michael F. TYSON , Karl R. ZIEGLER
Abstract: A process for producing a copper-beryllium alloy product. The process comprises preparing a base alloy having 0.15 wt %-4.0 wt % beryllium and having grains and an initial cross section area. The process further comprises cold working the base alloy to a percentage of cold reduction of area (CRA) greater than 40%, based on the initial cross section area, and heat treating the cold worked alloy to produce the copper-beryllium alloy product. The grain structure of the copper-beryllium alloy product has an orientation angle of less than 45° when viewed along the direction of the cold working. The copper-beryllium alloy product demonstrates a fatigue strength of at least 385 MPa after 106 cycles of testing.
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