Laser Assisted Machining of Hard to Machine Materials
Title | Laser Assisted Machining of Hard to Machine Materials PDF eBook |
Author | Bruno Markus Jau |
Publisher | |
Pages | 296 |
Release | 1981 |
Genre | Laser beam cutting |
ISBN |
Hybrid Machining
Title | Hybrid Machining PDF eBook |
Author | Xichun Luo |
Publisher | Academic Press |
Pages | 328 |
Release | 2018-06-27 |
Genre | Mathematics |
ISBN | 0128131136 |
Hybrid Machining: Theory, Methods, and Case Studies covers the scientific fundamentals, techniques, applications and real-world descriptions of emerging hybrid machining technology. This field is advancing rapidly in industrial and academic contexts, creating a great need for the fundamental and technical guidance that this book provides. The book includes discussions of basic concepts, process design principles, standard hybrid machining processes, multi-scale modeling approaches, design, on-machine metrology and work handling systems. Readers interested in manufacturing systems, product design or machining technology will find this one-stop guide to hybrid machining the ideal reference. - Includes tables of recommended processing parameters for key engineering materials/products for each hybrid machining process - Provides case studies covering real industrial applications - Explains how to use multiscale modeling for hybrid machining
Laser Assisted Machining of Hard to Machine
Title | Laser Assisted Machining of Hard to Machine PDF eBook |
Author | Bruno Markus Jau |
Publisher | |
Pages | 148 |
Release | 1981 |
Genre | |
ISBN |
Modern Manufacturing Processes
Title | Modern Manufacturing Processes PDF eBook |
Author | Muammer Koç |
Publisher | John Wiley & Sons |
Pages | 549 |
Release | 2019-09-04 |
Genre | Technology & Engineering |
ISBN | 1118071921 |
Provides an in-depth understanding of the fundamentals of a wide range of state-of-the-art materials manufacturing processes Modern manufacturing is at the core of industrial production from base materials to semi-finished goods and final products. Over the last decade, a variety of innovative methods have been developed that allow for manufacturing processes that are more versatile, less energy-consuming, and more environmentally friendly. This book provides readers with everything they need to know about the many manufacturing processes of today. Presented in three parts, Modern Manufacturing Processes starts by covering advanced manufacturing forming processes such as sheet forming, powder forming, and injection molding. The second part deals with thermal and energy-assisted manufacturing processes, including warm and hot hydrostamping. It also covers high speed forming (electromagnetic, electrohydraulic, and explosive forming). The third part reviews advanced material removal process like advanced grinding, electro-discharge machining, micro milling, and laser machining. It also looks at high speed and hard machining and examines advances in material modeling for manufacturing analysis and simulation. Offers a comprehensive overview of advanced materials manufacturing processes Provides practice-oriented information to help readers find the right manufacturing methods for the intended applications Highly relevant for material scientists and engineers in industry Modern Manufacturing Processes is an ideal book for practitioners and researchers in materials and mechanical engineering.
Laser Assisted Mechanical Micromachining of Hard-to-machine Materials
Title | Laser Assisted Mechanical Micromachining of Hard-to-machine Materials PDF eBook |
Author | Ramesh K. Singh |
Publisher | |
Pages | |
Release | 2007 |
Genre | Lasers |
ISBN |
There is growing demand for micro and meso scale devices with applications in the field of optics, semiconductor and bio-medical fields. In response to this demand, mechanical micro-cutting (e.g. micro-milling) is emerging as a viable alternative to lithography based micromachining techniques. Mechanical micromachining methods are capable of generating three-dimensional free-form surfaces to sub-micron level precision and micron level accuracies in a wide range of materials including common engineering alloys. However, certain factors limit the types of workpiece materials that can be processed using mechanical micromachining methods. For difficult-to-machine materials such as tool and die steels, limited machine-tool system stiffness and low tool flexural strength are major impediments to the use of mechanical micromachining methods.
High-Speed Machining
Title | High-Speed Machining PDF eBook |
Author | Kapil Gupta |
Publisher | Academic Press |
Pages | 328 |
Release | 2020-01-31 |
Genre | Technology & Engineering |
ISBN | 0128150211 |
High-Speed Machining covers every aspect of this important subject, from the basic mechanisms of the technology, right through to possible avenues for future research. This book will help readers choose the best method for their particular task, how to set up their equipment to reduce chatter and wear, and how to use simulation tools to model high-speed machining processes. The different applications of each technology are discussed throughout, as are the latest findings by leading researchers in this field. For any researcher looking to understand this topic, any manufacturer looking to improve performance, or any manager looking to upgrade their plant, this is the most comprehensive and authoritative guide available. - Summarizes important R&D from around the world, focusing on emerging topics like intelligent machining - Explains the latest best practice for the optimization of high-speed machining processes for greater energy efficiency and machining precision - Provides practical advice on the testing and monitoring of HSM machines, drawing on practices from leading companies
Laser-Assisted Machining
Title | Laser-Assisted Machining PDF eBook |
Author | Sandip Kunar |
Publisher | John Wiley & Sons |
Pages | 500 |
Release | 2024-05-07 |
Genre | Technology & Engineering |
ISBN | 1394214634 |
LASER-ASSISTED MACHINING This unique book develops exhaustive engineering perceptions of different laser-assisted techniques, reviews the engineering context of different laser fabrication techniques, and describes the application of laser-assisted fabrication techniques. Lasers are essential in the area of material processing because they can produce coherent beams with little divergence. The fabrication process known as surface cladding includes joining (soldering, welding), material removal (laser-aided drilling, cutting, etc.), deformation (extrusion, bending), and material addition. Some remarkable advantages of laser-assisted material development include faster processing rates and preservation of essential alloying components. However, the lack of widespread understanding of various material phenomena and how laser parameters affect them prevents the technology from being widely accepted on an industrial scale. Among the subjects Laser-Assisted Machining covers include high-powered lasers in material processing applications, laser-based joining of metallic and non-metallic materials, direct laser cladding, laser surface processing, laser micro and nano processing, emerging laser materials processing techniques, solid-state lasers, laser cutting, drilling and piercing, laser welding, laser bending or forming, laser cleaning, laser automation and in-process sensing, femtosecond laser micromachining, laser-assisted micro-milling/grinding, laser-assisted jet electrochemical micro-machining, laser-assisted water jet micro-machining, hybrid laser-electrochemical micromachining process, quill and nonreciprocal ultrafast laser writing, laser surface engineering, ultrashort pulsed laser surface texturing, laser interference patterning systems, laser interference lithography, laser-guided discharge texturing. Audience The book will be used by researchers in the fields of manufacturing technology and materials science as well as engineers and high-level technicians for a better understanding of various innovative and novel techniques to cope with the need of micromachining, as well as microfabrication industries for successful implementation of microproduct manufacturing.