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ReserarchID
050SW
Crossref Journal DOI 10.17406/gjre
Print ISSN 0975-5861
e-ISSN 2249-4596
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In the present work, a new local hot working method is proposed to achieve a higher diameterenlargement ratio and higher processing efficiency than those that can be obtained by cold working. Further, a high-frequency induction-heating device is built; this device is installed in a diameterenlargement processing machine developed originally. A local diameter-enlargement part was formed by processing after being heated locally by the heating device, and its diameter-enlargement deformation behavior and its surface temperature were investigated experimentally. The diameter-enlargement ratio achieved with the proposed method was twice the diameter-enlargement ratio that can be achieved by cold working, with local heating for 120 s. This hot working method was effective for the diameterenlargement forming process. The diameter-enlargement deformation behavior can be predicted approximately by a cycle parameter considering the effect of blue shortness.
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