Ultraprecision Machining of Hybrid Freeform Surfaces Using Multiple-Axis Diamond Turning

Nonfiction, Science & Nature, Technology, Machinery, Manufacturing
Cover of the book Ultraprecision Machining of Hybrid Freeform Surfaces Using Multiple-Axis Diamond Turning by Dennis Wee Keong Neo, Springer Singapore
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Dennis Wee Keong Neo ISBN: 9789811040832
Publisher: Springer Singapore Publication: April 24, 2017
Imprint: Springer Language: English
Author: Dennis Wee Keong Neo
ISBN: 9789811040832
Publisher: Springer Singapore
Publication: April 24, 2017
Imprint: Springer
Language: English

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.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

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.

More books from Springer Singapore

Cover of the book Information Systems Design and Intelligent Applications by Dennis Wee Keong Neo
Cover of the book Sliding Window Algorithm for Mobile Communication Networks by Dennis Wee Keong Neo
Cover of the book Human Chromosome Variation: Heteromorphism, Polymorphism and Pathogenesis by Dennis Wee Keong Neo
Cover of the book Man-Made Ecology of East Kazakhstan by Dennis Wee Keong Neo
Cover of the book Changing Spatial Elements in Chinese Socio-economic Five-year Plan: from Project Layout to Spatial Planning by Dennis Wee Keong Neo
Cover of the book Mindfulness Among Students by Dennis Wee Keong Neo
Cover of the book Referent Similarity and Nominal Syntax in Task-Based Language Teaching by Dennis Wee Keong Neo
Cover of the book Computer Engineering and Technology by Dennis Wee Keong Neo
Cover of the book Propagation of Multidimensional Nonlinear Waves and Kinematical Conservation Laws by Dennis Wee Keong Neo
Cover of the book Harmony Search and Nature Inspired Optimization Algorithms by Dennis Wee Keong Neo
Cover of the book Genome Analysis and Human Health by Dennis Wee Keong Neo
Cover of the book Computational Science and Technology by Dennis Wee Keong Neo
Cover of the book Multidimensional Analysis of Conversational Telephone Speech by Dennis Wee Keong Neo
Cover of the book Low Carbon Energy Supply by Dennis Wee Keong Neo
Cover of the book Green Composites by Dennis Wee Keong Neo
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy