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Machining Dynamics

Frequency Response to Improved Productivity

  • Book
  • © 2009

Overview

Authors:
  1. Tony L. Schmitz

    1. Mechanical and Aerospace Engineering, University of Florida, Gainesville

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    You can also search for this author in PubMed   Google Scholar

  2. Kevin S. Smith

    1. Mechanical Engineering and Engineering Science Dept., University of North Carolina, Charlotte

    View author publications

    You can also search for this author in PubMed   Google Scholar

  • Provides a clear description of predictive algorithms for process performance

  • Provides the necessary information in a manner that enables rapid implementation

  • Offers a comprehensive source of the fundamentals of machining dynamics that leads to reduced reliance on handbooks and rules of thumb

  • Includes functional MATLAB code for process predictions

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Table of contents (7 chapters)

  1. Front Matter

    Pages I-XI
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  2. Introduction

    • Tony L. Schmitz, Kevin S. Smith
    Pages 1-6

  3. Modal Analysis

    • Tony L. Schmitz, Kevin S. Smith
    Pages 7-57

  4. Turning Dynamics

    • Tony L. Schmitz, Kevin S. Smith
    Pages 59-98

  5. Milling Dynamics

    • Tony L. Schmitz, Kevin S. Smith
    Pages 99-171

  6. Surface Location Error in Milling

    • Tony L. Schmitz, Kevin S. Smith
    Pages 173-198

  7. Special Topics in Milling

    • Tony L. Schmitz, Kevin S. Smith
    Pages 199-234

  8. Tool Point Dynamics Prediction

    • Tony L. Schmitz, Kevin S. Smith
    Pages 235-287

  9. Back Matter

    Pages 289-303
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Keywords

About this book

"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.

 

Authors and Affiliations

  • Mechanical and Aerospace Engineering, University of Florida, Gainesville

    Tony L. Schmitz

  • Mechanical Engineering and Engineering Science Dept., University of North Carolina, Charlotte

    Kevin S. Smith

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