Improving the machinability of steels for precision forging

A laboratory study has been carried out to develop engineering steel grades with optimized machinability and forgeability for precision forging applications. Increased sulphur levels (up to 0.15%) may be tolerable in a range of engineering steel types to improve machinability without seriously impai...

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Published in:Materials in engineering 1992, Vol.13 (1), p.23-28
Main Authors: Reynolds, J.H., Lane, K.A.G.
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Language:English
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description A laboratory study has been carried out to develop engineering steel grades with optimized machinability and forgeability for precision forging applications. Increased sulphur levels (up to 0.15%) may be tolerable in a range of engineering steel types to improve machinability without seriously impairing forgeability, especially in conjunction with sulphide shape modifying additives such as calcium or tellurium. Alternatively, for certain grades, boron or lead additions could have a similar beneficial effect. For some applications, the use of bright drawn bar may be preferable to turned bar.
doi_str_mv 10.1016/0261-3069(92)90048-M
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title Improving the machinability of steels for precision forging
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