Minimizing Machining Distortion in Aluminum Alloys through Successful Application of Uphill Quenching—A Process Overview

    Volume 6, Issue 7 (July 2009)

    ISSN: 1546-962X

    CODEN: JAIOAD

    Published Online: 31 July 2009

    Page Count: 14


    Croucher, Tom
    Tom Croucher and Associates, Norco, CA

    (Received 7 April 2008; accepted 4 June 2009)

    Abstract

    Recently, emphasis has been placed on achieving maximum dimensional stability in a wide range of critical aluminum components such as large complex aerospace machined parts, space mirrors, optical stages, lens mounts, and computer disks. In these cases, absolute stability is required before putting a part into service. In many cases, successful operation of a complete system hinges on the stability of a single part such as a space mirror in a satellite or a component of a laser guided missile. Proper application of the uphill quenching process has enabled the successful production of parts to provide minimum stresses resulting in the optimum component at the lowest cost. Basic principles for achieving dimensional stability and considerations for proper application of unique tools such as polyalkylene glycol polymer (glycol) quenching and uphill quenching to achieve maximum dimensional stability are discussed. Properly applied, and combined with an understanding of all factors contributing to part instability, these tools can be used as effective elements in a systems approach, which when effectively employed by experienced technicians, will achieve results not obtainable by other means. In addition, examples are provided illustrating successful use of the process to produce low stress parts.


    Paper ID: JAI101770

    DOI: 10.1520/JAI101770

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    Author
    Title Minimizing Machining Distortion in Aluminum Alloys through Successful Application of Uphill Quenching—A Process Overview
    Symposium , 0000-00-00
    Committee D02