A Comprehensive Guide To Modern Machining Process By Pandey And Shan PDF ^HOT^
Modern Machining Process By Pandey And Shan PDF: An Essential Textbook for Engineering Students
If you are looking for a comprehensive and up-to-date textbook on modern machining processes, you should consider Modern Machining Process By Pandey And Shan PDF. This book covers unconventional machining methods that are gradually gaining commercial acceptance, such as abrasive jet machining, water jet machining, laser beam machining, hot machining, plasma arc machining and more. It also gives a balanced account of both theory and applications, contains illustrative exercises and an extensive bibliography. The book is written by P. C. Pandey and H. S. Shan, who are experts in the field of production and mechanical engineering.
A Comprehensive Guide to Modern Machining Process By Pandey And Shan PDF
Modern Machining Process By Pandey And Shan PDF is suitable for students of engineering, as well as practicing engineers who want to learn more about the latest developments in machining technology. The book explains the principles, mechanisms, advantages, limitations and applications of various modern machining processes in a clear and concise manner. It also provides examples, case studies, numerical problems and solutions to help the readers understand and apply the concepts better.
Modern Machining Process By Pandey And Shan PDF is available online for free download from various sources. You can also buy the hard copy from McGraw-Hill Education or other online retailers. The book has 168 pages and was published in 1980. However, it is still relevant and useful today as it covers the most important and emerging topics in modern machining processes.
Modern Machining Process By Pandey And Shan PDF is a must-read for anyone who wants to learn more about the fascinating world of modern machining processes. It will help you to enhance your knowledge, skills and creativity in this field.
What is Modern Machining Process?
Modern machining process is a term that refers to the use of unconventional methods to remove material from a workpiece and create a desired shape or surface finish. Unlike conventional machining processes, such as turning, milling, drilling and grinding, which use mechanical energy to cut or shear the material, modern machining processes use other forms of energy, such as thermal, electrical, chemical or optical energy. These processes can achieve higher accuracy, efficiency and quality than conventional processes, especially for hard, brittle and complex materials.
Why is Modern Machining Process Important?
Modern machining process is important because it can offer many benefits and advantages over conventional machining processes. Some of these benefits are:
It can machine materials that are difficult or impossible to machine by conventional methods, such as ceramics, composites, superalloys and biomaterials.
It can produce complex shapes and features that are difficult or impossible to produce by conventional methods, such as micro-holes, micro-grooves, micro-channels and nano-structures.
It can improve the surface quality and integrity of the machined parts, such as reducing surface roughness, residual stress, distortion and heat-affected zone.
It can reduce the tool wear and tool cost, as well as the cutting force and power consumption.
It can increase the productivity and flexibility of the machining process, as well as the environmental friendliness and safety.
What are Some Examples of Modern Machining Processes?
There are many types of modern machining processes that use different forms of energy and mechanisms to remove material from a workpiece. Some of the most common and widely used modern machining processes are:
Abrasive jet machining (AJM): It uses a high-velocity jet of abrasive particles mixed with a carrier gas (such as air or nitrogen) to erode the material by mechanical abrasion.
Water jet machining (WJM): It uses a high-pressure jet of water to cut the material by hydraulic erosion.
Laser beam machining (LBM): It uses a focused beam of coherent light to vaporize or melt the material by thermal energy.
Hot machining (HM): It uses a heated tool or workpiece to soften the material and facilitate the cutting process by thermal energy.