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Milling simulation : metal milling mechanics, dynamics and clamping principles /

Reliable scheduling in cutting conditions is very important in machining processes, and this requires thorough understanding of the physical behaviors of the machining process, which cannot be achieved without understanding the underlying mechanism of the processes. The book describes the mechanics...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Zhang, Weihong
Otros Autores: Wan, Min
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Somerset : Wiley, 2016.
Colección:Numerical methods in engineering series.
Temas:
Acceso en línea:Texto completo

MARC

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245 1 0 |a Milling simulation :  |b metal milling mechanics, dynamics and clamping principles /  |c Weihong Zhang, Min Wan. 
260 |a Somerset :  |b Wiley,  |c 2016. 
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490 1 |a Numerical Methods in Engineering Series 
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505 0 |6 880-01  |a Cover; Title Page; Copyright; Contents; Preface; Introduction; 1: Cutting Forces in Milling Processes; 2: Surface Accuracy in Milling Processes; 3: Dynamics of Milling Processes; 4: Mathematical Modeling of the Workpiece-Fixture System; Bibliography; Index; Other titles from ISTE in Numerical Methods in Engineering; EULA; I.1. Cutting force modeling; I.2. Surface quality simulation; I.3. Chatter stability analysis; I.4. Clamping system design; I.5. Purpose of this book; 1.1. Formulations of cutting forces; 1.2. Milling process geometry ; 1.3. Identification of the cutting force coefficients. 
505 8 |a 1.4. Ternary cutting force model including bottom edge cutting effect1.5. Cutting force prediction in peripheral milling of a curved surface; 2.1. Predictions of surface form errors; 2.2. Control strategy of surface form error; 2.3. Surface topography in milling processes; 3.1. Governing equation of the milling process; 3.2. Method for obtaining the frequency response function; 3.3. Prediction of stability lobe; 4.1. Criteria of locating scheme correctness; 4.2. Analysis of locating scheme correctness; 4.3. Analysis of workpiece stability. 
505 8 |a 4.4. Modeling of the workpiece-fixture geometric default and compliance4.5. Optimal design of the fixture clamping sequence; 1.1.1. Mechanics of orthogonal cutting; 1.1.2. Cutting force model for a general milling cutter; 1.2.1. Calculations of uncut chip thickness; 1.2.2. Determination of entry and exit angles; 1.3.1. Calibration method for general end mills; 1.3.2. Calibration method in the frequency domain; 1.3.3. Calibration method involving four cutter runout parameters; 1.3.4. Identification of shear stress, shear angle and friction angle using milling tests. 
505 8 |a 3.2.1. Derivation of calculation formulations3.2.2. Identification of model parameters; 3.3.1. Improved semi-discretization method; 3.3.2. Lowest envelope method; 3.3.3. Time-domain simulation method; 4.1.1. The DOFs constraining principle; 4.1.2. The locating scheme; 4.1.3. Judgment criteria of locating scheme correctness; 4.1.4. Analysis of locating scheme incorrectness; 4.2.1. Localization source errors; 4.2.2. Fixture modeling; 4.2.3. Locating scheme correctness; 4.3.1. Modeling of workpiece stability; 4.3.2. Solution techniques to the model of workpiece stability. 
500 |a 4.4.1. Source error analysis. 
504 |a Includes bibliographical references and index. 
520 |a Reliable scheduling in cutting conditions is very important in machining processes, and this requires thorough understanding of the physical behaviors of the machining process, which cannot be achieved without understanding the underlying mechanism of the processes. The book describes the mechanics and dynamics together with the clamping principles in milling processes, and can be used as a guideline for graduate students and research engineers who wish to be effective manufacture engineers and researchers. Many books have focused on common principles, which are suitable for general machining processes, e.g., milling, turning and drilling, etc. This book specifically aims at exploring the mechanics and dynamics of milling processes. Original theoretical derivations and new observations on static cutting force models, dynamic stability models and clamping principles associated with milling processes are classified and detailed. The book is indented as a text for graduate students and machining engineers who wish to intensively learn milling mechanism and machine tool vibration. 
590 |a ProQuest Ebook Central  |b Ebook Central Academic Complete 
650 0 |a Milling (Metal-work) 
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700 1 |a Wan, Min. 
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830 0 |a Numerical methods in engineering series. 
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880 8 |6 505-01/Grek  |a 1.4.1. Calculations of FB(ϕ)1.4.2. Calculations of FB(ϕ); 1.4.3. Calibration of Kqc (q = T, R); 1.4.4. Calibrations of Kq, B (q = T, R); 1.4.5. Experimental work; 1.5.1. Calculations of instantaneous uncut chip thickness; 1.5.2. Calculations of entry and exit angles; 2.1.1. Calculation of cutting forces and process geometries; 2.1.2. Iterative algorithms of surface form errors; 2.2.1. Development of control strategy; 2.2.2. Verification of control strategy; 2.3.1. Prediction method for flat-end milling; 2.3.2. Prediction method for multi-axis ball end milling. 
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