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135   $aur|n|---|||||
181   $2rdacontent
182   $2rdamedia
183   $2rdacarrier
200 10$aMilling simulation $emetal milling mechanics, dynamics and clamping principles /$fWeihong Zhang, Min Wan
210  1$aLondon, England ;$aHoboken, New Jersey :$cISTE Ltd :$cJohn Wiley and Sons Inc,$d2016.
210  4$dİ2016
215   $a1 online resource (276 p.)
225 1 $aNumerical Methods in Engineering Series
300   $aDescription based upon print version of record.
311   $a1-119-26291-7 
311   $a1-78630-015-X 
320   $aIncludes bibliographical references and index.
327   $aCover; 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
327   $a1.4. 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
327   $a4.4. 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
327   $a3.2.1. 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
327   $a4.4.1. Source error analysis
410  0$aNumerical methods in engineering series.
606   $aMilling (Metal-work)$vHandbooks, manuals, etc
606   $aMilling (Metal-work)$xData processing
615  0$aMilling (Metal-work)
615  0$aMilling (Metal-work)$xData processing.
676   $a671.35
700   $aZhang$b Weihong$0932168
702   $aWan$b Min
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906   $aBOOK
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135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 14$aThe structure and dynamics of geographic ranges /$fKevin J. Gaston
205   $a1st ed.
210   $aOxford ;$aNew York $cOxford University Press$d2003
215   $a1 online resource (277 p.)
225 1 $aOxford series in ecology and evolution
300   $aIncludes index.
300   $aPreviously issued in print: 2003.
311 08$a0-19-852641-5 
311 08$a0-19-852640-7 
320   $aIncludes bibliographical references (p. [195]-257) and index.
327   $aCover; Contents; 1 Introduction; 1.1 The case of the green-backed heron; 1.2 Areography; 1.2.1 Necessity; 1.2.2 Opportunity; 1.3 This book; 2 Range edges; 2.1 Introduction; 2.2 Abiotic and biotic factors; 2.2.1 Physical barriers; 2.2.2 Climate; 2.2.3 Other abiotic factors and habitat; 2.2.4 Interspecific interactions-consumers; 2.2.5 Interspecific interactions-competitors; 2.2.6 Interspecific interactions-the consumed; 2.2.7 Multiple factors; 2.3 Population dynamics; 2.3.1 Single populations; 2.3.2 Multiple populations; 2.4 Genetics; 2.5 In conclusion; 3 Range size; 3.1 Introduction
327   $a3.2 Extents of occurrence and areas of occupancy3.3 Which range?; 3.4 Species-range size distributions; 3.4.1 Speciation; 3.4.2 Range dynamics; 3.4.3 Extinction; 3.5 Patterns in range size variation; 3.5.1 Taxonomic group; 3.5.2 Terrestrial versus marine systems; 3.5.3 Biogeographic region; 3.5.4 Latitude; 3.5.5 Longitude; 3.5.6 Trophic group; 3.5.7 Body size; 3.5.8 Dispersal ability; 3.5.9 Abundance; 3.5.10 Genetic variation; 3.6 In conclusion; 4 Abundance structure; 4.1 Introduction; 4.2 Intraspecific abundance distributions; 4.3 Intraspecific abundance-range size relationships
327   $a4.4 Environmental gradients and response curves4.5 Abundance profiles; 4.5.1 Patterns; 4.5.2 Mechanisms; 4.6 In conclusion; 5 Implications; 5.1 Introduction; 5.2 Range contractions and extinctions; 5.2.1 Niche and contagion models; 5.3 Protected areas; 5.4 Climate change; 5.5 Aliens; 5.6 Reintroductions; 5.7 Final words; Notes; References; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W
330 8 $aNo species occurs everywhere. Indeed, the majority are absent from most places and where they do occur they are usually quite rare. This text discusses the structure of these distributions, especially the factors that determine geographic range and related information.
410  0$aOxford series in ecology and evolution.
606   $aBiogeography
606   $aNatural history
615  0$aBiogeography.
615  0$aNatural history.
676   $a577
700   $aGaston$b Kevin J$0443106
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
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996   $aStructure and dynamics of geographic ranges$986877
997   $aUNINA