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"Machining dynamics: Frequency response to improved productivity"
will train engineers and students in the practical application of
machining dynamics, with a particular focus on milling. The book is
arranged such that the steps required to improve machining
productivity through chatter avoidance and reduced surface location
error (forced vibrations resulting in part geometric errors) are
clearly evident. The following topics are covered in detail: modal
analysis, including experimental methods, to obtain the tool point
frequency response function; descriptions of turning and milling,
including force modeling, time domain simulation, stability lobe
diagram algorithms, and surface location error calculation for
milling; and receptance coupling methods for tool point frequency
response prediction, including beam theory. Numerical examples are
included, as well as the MATLAB code used to develop the figures.
Mechanical Vibrations: Modeling and Measurement describes essential
concepts in vibration analysis of mechanical systems. It
incorporates the required mathematics, experimental techniques,
fundamentals of model analysis, and beam theory into a unified
framework that is written to be accessible to undergraduate
students, researchers, and practicing engineers. To unify the
various concepts, a single experimental platform is used throughout
the text. Engineering drawings for the platform are included in an
appendix. Additionally, MATLAB programming solutions are integrated
into the content throughout the text.
This book trains engineers and students in the practical
application of machining dynamics, with a particular focus on
milling. The book walks readers through the steps required to
improve machining productivity through chatter avoidance and
reduced surface location error, and covers in detail topics such as
modal analysis (including experimental methods) to obtain the tool
point frequency response function, descriptions of turning and
milling, force modeling, time domain simulation, stability lobe
diagram algorithms, surface location error calculation for milling,
beam theory, and more. This new edition includes updates throughout
the entire text, new exercises and examples, and a new chapter on
machining tribology. It is a valuable resource for practicing
manufacturing engineers and graduate students interested in
learning how to improve machining productivity through
consideration of the process dynamics.
This book trains engineers and students in the practical
application of machining dynamics, with a particular focus on
milling. The book walks readers through the steps required to
improve machining productivity through chatter avoidance and
reduced surface location error, and covers in detail topics such as
modal analysis (including experimental methods) to obtain the tool
point frequency response function, descriptions of turning and
milling, force modeling, time domain simulation, stability lobe
diagram algorithms, surface location error calculation for milling,
beam theory, and more. This new edition includes updates throughout
the entire text, new exercises and examples, and a new chapter on
machining tribology. It is a valuable resource for practicing
manufacturing engineers and graduate students interested in
learning how to improve machining productivity through
consideration of the process dynamics.
Mechanical Vibrations: Modeling and Measurement describes essential
concepts in vibration analysis of mechanical systems. It
incorporates the required mathematics, experimental techniques,
fundamentals of model analysis, and beam theory into a unified
framework that is written to be accessible to undergraduate
students, researchers, and practicing engineers. To unify the
various concepts, a single experimental platform is used throughout
the text. Engineering drawings for the platform are included in an
appendix. Additionally, MATLAB programming solutions are integrated
into the content throughout the text.
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