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This book provides readers with the fundamental, analytical, and
quantitative knowledge of machining process planning and
optimization based on advanced and practical understanding of
machinery, mechanics, accuracy, dynamics, monitoring techniques,
and control strategies that they need to understanding machining
and machine tools. It is written for first-year graduate students
in mechanical engineering, and is also appropriate for use as a
reference book by practicing engineers. It covers topics such as
single and multiple point cutting processes; grinding processes;
machine tool components, accuracy, and metrology; shear stress in
cutting, cutting temperature and thermal analysis, and machine tool
chatter. The second section of the book is devoted to
"Non-Traditional Machining," where readers can find chapters on
electrical discharge machining, electrochemical machining, laser
and electron beam machining, and biomedical machining. Examples of
realistic problems that engineers are likely to face in the field
are included, along with solutions and explanations that foster a
didactic learning experience.
This book introduces state-of-the-art experimental and numerical
methods and examples for evaluating the drilling performance of
engineering and biological materials, particularly in thermal
aspects. The authors use a common pathway to present the
technological and analytical methods for both industry (metal)
drilling and orthopaedic surgery (bone) drilling research, making
this book a resource for both industrial and clinical readers who
wish to understand the evolution of technologies, techniques and
challenges in drilling. The authors also focus on advanced
engineering materials, such as titanium alloys and high-strength
cast irons, which have broad applications in the automotive,
aerospace, medical device and sports industries. This book is a
must-read for a broad audience, including engineering students in
upper-level undergraduate and graduate courses that involve
machining processes; for surgery residents, fellows, and practicing
surgeons; and for engineers in the medical device industry who
develop new bone cutting tools. Bridges the knowledge on drilling
from the manufacturing industry to healthcare; Covers the
experimental and modeling aspects of drilling thermal analysis;
Includes experimental studies that contain parameters and data that
emulate practical production and clinical drilling.
This book introduces state-of-the-art experimental and numerical
methods and examples for evaluating the drilling performance of
engineering and biological materials, particularly in thermal
aspects. The authors use a common pathway to present the
technological and analytical methods for both industry (metal)
drilling and orthopaedic surgery (bone) drilling research, making
this book a resource for both industrial and clinical readers who
wish to understand the evolution of technologies, techniques and
challenges in drilling. The authors also focus on advanced
engineering materials, such as titanium alloys and high-strength
cast irons, which have broad applications in the automotive,
aerospace, medical device and sports industries. This book is a
must-read for a broad audience, including engineering students in
upper-level undergraduate and graduate courses that involve
machining processes; for surgery residents, fellows, and practicing
surgeons; and for engineers in the medical device industry who
develop new bone cutting tools. Bridges the knowledge on drilling
from the manufacturing industry to healthcare; Covers the
experimental and modeling aspects of drilling thermal analysis;
Includes experimental studies that contain parameters and data that
emulate practical production and clinical drilling.
This book provides readers with the fundamental, analytical, and
quantitative knowledge of machining process planning and
optimization based on advanced and practical understanding of
machinery, mechanics, accuracy, dynamics, monitoring techniques,
and control strategies that they need to understanding machining
and machine tools. It is written for first-year graduate students
in mechanical engineering, and is also appropriate for use as a
reference book by practicing engineers. It covers topics such as
single and multiple point cutting processes; grinding processes;
machine tool components, accuracy, and metrology; shear stress in
cutting, cutting temperature and thermal analysis, and machine tool
chatter. The second section of the book is devoted to
"Non-Traditional Machining," where readers can find chapters on
electrical discharge machining, electrochemical machining, laser
and electron beam machining, and biomedical machining. Examples of
realistic problems that engineers are likely to face in the field
are included, along with solutions and explanations that foster a
didactic learning experience.
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