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國外機械與電子信息教材系列制造自動化:金屬切削力學.機床振動和CNC設計(第2版)(英文版) 版權信息
- ISBN:9787121361166
- 條形碼:9787121361166 ; 978-7-121-36116-6
- 裝幀:一般膠版紙
- 冊數:暫無
- 重量:暫無
- 所屬分類:>
國外機械與電子信息教材系列制造自動化:金屬切削力學.機床振動和CNC設計(第2版)(英文版) 本書特色
本書重點介紹了金屬切削過程力學、機床動力學及振動、進給驅動設計和控制、CNC設計原理、傳感器輔助加工和數控編程技術等知識。從切削過程力學的基本原理開始,深度討論了振動及顫振問題 ;也討論了數控編程和計算機輔助設計/計算機輔助制造(CAD/CAM)技術。文中還詳細介紹了驅動執行機構、反饋傳感器的選擇、進給驅動系統的建模與控制、軌跡實時生成和插補算法的設計、面向數控系統的誤差分析等。每一章都包括從企業實際、設計項目和工作問題中篩選的案例。 本書特別適合高年級本科生和研究生,以及研發工程師閱讀,將在這本書中找到一個清楚和徹底的方式來學習金屬切削力學的工程原理、機床振動、數控系統設計、傳感器輔助加工,以及CAD/CAM技術等。
國外機械與電子信息教材系列制造自動化:金屬切削力學.機床振動和CNC設計(第2版)(英文版) 內容簡介
本書重點介紹了金屬切削過程力學、機床動力學及振動、進給驅動設計和控制、CNC設計原理、傳感器輔助加工和數控編程技術等知識。從切削過程力學的基本原理開始,深度討論了振動及顫振問題 ;也討論了數控編程和計算機輔助設計/計算機輔助制造(CAD/CAM)技術。文中還詳細介紹了驅動執行機構、反饋傳感器的選擇、進給驅動系統的建模與控制、軌跡實時生成和插補算法的設計、面向數控系統的誤差分析等。每一章都包括從企業實際、設計項目和工作問題中篩選的案例。 本書特別適合高年級本科生和研究生,以及研發工程師閱讀,將在這本書中找到一個清楚和有效的方式來學習金屬切削力學的工程原理、機床振動、數控系統設計、傳感器輔助加工,以及CAD/CAM技術等。
國外機械與電子信息教材系列制造自動化:金屬切削力學.機床振動和CNC設計(第2版)(英文版) 目錄
CHAPTER ONE INTRODUCTION?............................................................................................1
CHAPTER TWO MECHANICS OF METAL CUTTING?...............................................4
2.1 Introduction?..................................................................................................................................4
2.2 Mechanics of Orthogonal Cutting?.....................................................................................4
2.3 Mechanistic Modeling of Cutting Forces?....................................................................15
2.4 Theoretical Prediction of Shear Angle?..........................................................................18
2.5 Mechanics of Oblique Cutting?..........................................................................................19
2.5.1 Oblique?Cutting?Geometry?..................................................................................................19
2.5.2 Solution?of?Oblique?Cutting?Parameters?..........................................................................21
2.5.3 Prediction?of?Cutting?Forces?...............................................................................................25
2.6 Mechanics of Turning Processes?......................................................................................27
2.7 Mechanics of Milling Processes?........................................................................................35
2.7.1 Mechanics?of?Helical?End?Mills?........................................................................................41
2.8 Analytical Modeling of End Milling Forces?...............................................................43
2.8.1 Mechanistic?Identification?of?Cutting?Constants?in?Milling?.........................................46
2.9 Mechanics of Drilling?............................................................................................................47
2.10 Tool Wear and Tool Breakage.........................................................................................54
2.10.1 Tool?Wear?.............................................................................................................................56
2.10.2 Tool?Breakage?.....................................................................................................................61
2.11 Problems?....................................................................................................................................62 CHAPTER THREE STRUCTURAL DYNAMICS OF MACHINES?...................66
3.1 Introduction?...............................................................................................................................66
3.2 Machine Tool Structures......................................................................................................66
3.3 Dimensional Form Errors in Machining?.....................................................................68
3.3.1 Form?Errors?in?Cylindrical?Turning?..................................................................................68
3.3.2 Boring?Bar?..............................................................................................................................70
3.3.3 Form?Errors?in?End?Milling?................................................................................................71
3.4 Structural Vibrations in Machining...............................................................................74
3.4.1 Fundamentals?of?Free?and?Forced?Vibrations?..................................................................75
3.4.2 Oriented?Frequency?Response?Function...........................................................................82
3.4.3 Design?and?Measurement?Coordinate?Systems?...............................................................833.4.4 Analytical?Modal?Analysis?for?Multi?CDegree-of-Freedom?Systems?..........................85
3.4.5 Relative?Frequency?Response?Function?between?Tool?and?Workpiece?......................90
3.5 Modal Testing of Machine Structures?...........................................................................92
3.5.1 Theory?of?Frequency?Response?Testing?...........................................................................92
3.5.2 Experimental?Procedures?in?Modal?Testing?.....................................................................97
3.6 Experimental Modal Analysis for Multi?CDegree-of-Freedom Systems?........98
3.7 Identification of Modal Parameters?.............................................................................109
3.7.1 Global?Nonlinear?Optimization?of?Modal?Parameter?Identification?.........................113
3.8 Receptance Coupling of End Mills to Spindle-Tool Holder Assembly?........115
3.8.1 Experimental?Procedure?....................................................................................................118
3.9 Problems?....................................................................................................................................120 CHAPTER FOUR MACHINE TOOL VIBRATIONS?.................................................125
4.1 Introduction?.............................................................................................................................125
4.2 Stability of Regenerative Chatter Vibrations in Orthogonal Cutting?.........126
4.2.1 Stability?of?Orthogonal?Cutting.......................................................................................126
4.2.2 Dimensionless?Analysis?of?Stability?Lobes?in?Orthogonal?Cutting..........................132
4.2.3 Chatter?Stability?of?Orthogonal?Cutting?with?Process?Damping?..............................135
4.3 Chatter Stability of Turning Operations?...................................................................139
4.4 Chatter Stability of Turning Systems with Process Damping?.........................142
4.4.1 Metal?Cutting?Forces?.........................................................................................................144
4.4.2 Process?Damping?Gains?Contributed?by?Flank?Wear?..................................................145
4.4.3 Stability?Analysis?...............................................................................................................147
4.5 Experimental Validation?....................................................................................................148
4.6 Analytical Prediction of Chatter Vibrations in Milling?......................................149
4.6.1 Dynamic?Milling?Model?...................................................................................................149
4.6.2 Zero-Order?Solution?of?Chatter?Stability?in?Milling?...................................................154
4.6.3 Multi-Frequency?Solution?of?Chatter?Stability?in?Milling?.........................................160
4.7 Chatter Stability of Drilling Operations?....................................................................172
4.7.1 Dynamic?Drilling?Force?Model?.......................................................................................173
4.8 Frequency Domain Solution of Drilling Stability?..................................................176
4.9 Semidiscrete Time Domain Solution of Chatter Stability?.................................178
4.9.1 Orthogonal?Cutting?............................................................................................................178
4.9.2 Discrete?Time?Domain?Stability?Solution?in?Milling?..................................................182
4.10 Problems....................................................................................................
CHAPTER TWO MECHANICS OF METAL CUTTING?...............................................4
2.1 Introduction?..................................................................................................................................4
2.2 Mechanics of Orthogonal Cutting?.....................................................................................4
2.3 Mechanistic Modeling of Cutting Forces?....................................................................15
2.4 Theoretical Prediction of Shear Angle?..........................................................................18
2.5 Mechanics of Oblique Cutting?..........................................................................................19
2.5.1 Oblique?Cutting?Geometry?..................................................................................................19
2.5.2 Solution?of?Oblique?Cutting?Parameters?..........................................................................21
2.5.3 Prediction?of?Cutting?Forces?...............................................................................................25
2.6 Mechanics of Turning Processes?......................................................................................27
2.7 Mechanics of Milling Processes?........................................................................................35
2.7.1 Mechanics?of?Helical?End?Mills?........................................................................................41
2.8 Analytical Modeling of End Milling Forces?...............................................................43
2.8.1 Mechanistic?Identification?of?Cutting?Constants?in?Milling?.........................................46
2.9 Mechanics of Drilling?............................................................................................................47
2.10 Tool Wear and Tool Breakage.........................................................................................54
2.10.1 Tool?Wear?.............................................................................................................................56
2.10.2 Tool?Breakage?.....................................................................................................................61
2.11 Problems?....................................................................................................................................62 CHAPTER THREE STRUCTURAL DYNAMICS OF MACHINES?...................66
3.1 Introduction?...............................................................................................................................66
3.2 Machine Tool Structures......................................................................................................66
3.3 Dimensional Form Errors in Machining?.....................................................................68
3.3.1 Form?Errors?in?Cylindrical?Turning?..................................................................................68
3.3.2 Boring?Bar?..............................................................................................................................70
3.3.3 Form?Errors?in?End?Milling?................................................................................................71
3.4 Structural Vibrations in Machining...............................................................................74
3.4.1 Fundamentals?of?Free?and?Forced?Vibrations?..................................................................75
3.4.2 Oriented?Frequency?Response?Function...........................................................................82
3.4.3 Design?and?Measurement?Coordinate?Systems?...............................................................833.4.4 Analytical?Modal?Analysis?for?Multi?CDegree-of-Freedom?Systems?..........................85
3.4.5 Relative?Frequency?Response?Function?between?Tool?and?Workpiece?......................90
3.5 Modal Testing of Machine Structures?...........................................................................92
3.5.1 Theory?of?Frequency?Response?Testing?...........................................................................92
3.5.2 Experimental?Procedures?in?Modal?Testing?.....................................................................97
3.6 Experimental Modal Analysis for Multi?CDegree-of-Freedom Systems?........98
3.7 Identification of Modal Parameters?.............................................................................109
3.7.1 Global?Nonlinear?Optimization?of?Modal?Parameter?Identification?.........................113
3.8 Receptance Coupling of End Mills to Spindle-Tool Holder Assembly?........115
3.8.1 Experimental?Procedure?....................................................................................................118
3.9 Problems?....................................................................................................................................120 CHAPTER FOUR MACHINE TOOL VIBRATIONS?.................................................125
4.1 Introduction?.............................................................................................................................125
4.2 Stability of Regenerative Chatter Vibrations in Orthogonal Cutting?.........126
4.2.1 Stability?of?Orthogonal?Cutting.......................................................................................126
4.2.2 Dimensionless?Analysis?of?Stability?Lobes?in?Orthogonal?Cutting..........................132
4.2.3 Chatter?Stability?of?Orthogonal?Cutting?with?Process?Damping?..............................135
4.3 Chatter Stability of Turning Operations?...................................................................139
4.4 Chatter Stability of Turning Systems with Process Damping?.........................142
4.4.1 Metal?Cutting?Forces?.........................................................................................................144
4.4.2 Process?Damping?Gains?Contributed?by?Flank?Wear?..................................................145
4.4.3 Stability?Analysis?...............................................................................................................147
4.5 Experimental Validation?....................................................................................................148
4.6 Analytical Prediction of Chatter Vibrations in Milling?......................................149
4.6.1 Dynamic?Milling?Model?...................................................................................................149
4.6.2 Zero-Order?Solution?of?Chatter?Stability?in?Milling?...................................................154
4.6.3 Multi-Frequency?Solution?of?Chatter?Stability?in?Milling?.........................................160
4.7 Chatter Stability of Drilling Operations?....................................................................172
4.7.1 Dynamic?Drilling?Force?Model?.......................................................................................173
4.8 Frequency Domain Solution of Drilling Stability?..................................................176
4.9 Semidiscrete Time Domain Solution of Chatter Stability?.................................178
4.9.1 Orthogonal?Cutting?............................................................................................................178
4.9.2 Discrete?Time?Domain?Stability?Solution?in?Milling?..................................................182
4.10 Problems....................................................................................................
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國外機械與電子信息教材系列制造自動化:金屬切削力學.機床振動和CNC設計(第2版)(英文版) 作者簡介
Yusuf Altintas,國際制造自動化領域知名學者、教授。Yusuf Altintas教授現任加拿大皇家科學院院士(RSC)、國際生產工程學會(CIRP)主席、加拿大工程院院士、美國機械工程師學會(ASME)和國際制造工程師學會(SME)會士、加拿大英屬哥倫比亞大學(UBC)機械工程系終身教授。作為享譽世界的制造領域著名專家,主要研究方向為金屬切削、機床振動、控制和虛擬加工等,其專著《Manufacturing Automation-Metal Cutting Mechanics, Machine Tool Vibrations, and CNC Design》(第2版)被業界廣泛使用。他領導的實驗室開發了先進加工過程仿真工具(CUT*PRO)、虛擬加工過程仿真工具(MACH*PRO), 以及開放式模塊化數控加工系統(Virtual CNC),這些產品被全球機械加工領域超過200家公司和研究機構使用。
Yusuf Altintas國際制造自動化領域知名學者、教授。Yusuf Altintas教授現任加拿大皇家科學院院士(RSC)、國際生產工程學會(CIRP)主席、加拿大工程院院士、美國機械工程師學會(ASME)和國際制造工程師學會(SME)會士、加拿大英屬哥倫比亞大學(UBC)機械工程系終身教授。作為享譽世界的制造領域著名專家,主要研究方向為金屬切削、機床振動、控制和虛擬加工等,其專著《Manufacturing Automation-Metal Cutting Mechanics, Machine Tool Vibrations, and CNC Design》(第2版)被業界廣泛使用。他領導的實驗室開發了先進加工過程仿真工具(CUT*PRO)、虛擬加工過程仿真工具(MACH*PRO), 以及開放式模塊化數控加工系統(Virtual CNC),這些產品被全球機械加工領域超過200家公司和研究機構使用。
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