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Ultraprecision Machining of Hybrid Freeform Surfaces Using Multiple-Axis Diamond Turning [electronic resource] / by Dennis Wee Keong Neo.

By: Neo, Dennis Wee Keong [author.].
Contributor(s): SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Springer Theses, Recognizing Outstanding Ph.D. Research: Publisher: Singapore : Springer Nature Singapore : Imprint: Springer, 2017Edition: 1st ed. 2017.Description: XVIII, 115 p. 97 illus. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9789811040832.Subject(s): Manufactures | Machinery | Machines, Tools, Processes | Machinery and Machine ElementsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 670 Online resources: Click here to access online
Contents:
Introduction -- Literature review -- Initial Development of CAD/CAM Technologies -- Development of Hybrid FTS/SSS Diamond Turning -- Novel Surface Generation of Complex Hybrid Freeform Surfaces -- Development of Surface Analytical Model for Accurate Hybrid Freeform Surfaces -- Integration and Implementation -- Conclusions and Recommended Future Works.
In: Springer Nature eBookSummary: This thesis focuses on producing hybrid freeform surfaces using an advanced diamond-turning process, understanding the generation of surface accuracies (form errors) and how the choice of cutting strategies affects these, as well as simplifying the complications of generating cutting paths for such freeform surfaces. The breakthroughs behind this thesis are the development of novel, multiple-axis, diamond turning techniques to overcome the limitations of conventional diamond turning processes, an analytical model to optimize the generation of ultraprecise freeform surfaces, and an add-on tool path processor for CAD/CAM software solutions. It appeals to researchers and scholars with a strong machining background who are interested in the field of manufacturing ultraprecise freeform surfaces or in the field of optimizing ultraprecision machining processes.
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Introduction -- Literature review -- Initial Development of CAD/CAM Technologies -- Development of Hybrid FTS/SSS Diamond Turning -- Novel Surface Generation of Complex Hybrid Freeform Surfaces -- Development of Surface Analytical Model for Accurate Hybrid Freeform Surfaces -- Integration and Implementation -- Conclusions and Recommended Future Works.

This thesis focuses on producing hybrid freeform surfaces using an advanced diamond-turning process, understanding the generation of surface accuracies (form errors) and how the choice of cutting strategies affects these, as well as simplifying the complications of generating cutting paths for such freeform surfaces. The breakthroughs behind this thesis are the development of novel, multiple-axis, diamond turning techniques to overcome the limitations of conventional diamond turning processes, an analytical model to optimize the generation of ultraprecise freeform surfaces, and an add-on tool path processor for CAD/CAM software solutions. It appeals to researchers and scholars with a strong machining background who are interested in the field of manufacturing ultraprecise freeform surfaces or in the field of optimizing ultraprecision machining processes.

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