Regular Higher Education 12th Five-Year Plan the foundation and application of materials: Materials Processing CADCAM(Chinese Edition)
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Regular Higher Education 12th Five-Year Plan the foundation and application of materials: Materials Processing CADCAM(Chinese Edition) (2013)
~EN PB NWISBN: 9787111397731 bzw. 7111397738, vermutlich in Englisch, Taschenbuch, neu.
Lieferung aus: China, Volksrepublik, Versandkosten nach: DEU.
Von Händler/Antiquariat, BookerStudy.
paperback. New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Pub Date: 2013 02 Publisher: China Machine Press regular higher education Twelfth Five-Year Plan textbooks: materials processing CADCAM foundation and Applications describes the basic theory of materials processing CADCAM materials processing CADCAM system development techniques focuses on materials processing basis of CAD-based UGNX sheet metal CAD class into the mold CAD. injection mold CAD. mold CAM technology. will enable learners mastered a commonly used material processing on the basis of theoretical knowledge. focusing CADCAM system practical application of skills. Ordinary higher education 12th Five-Year Plan textbook: materials processing the CADCAM foundation and the institutions of higher learning material forming and control engineering. mold design and manufacturing expertise. materials science and engineering. the materials are also available to engage in material reference machining mold of CADCAM systems research. development and application of engineering and technical personnel. Contents: the CADCAM system 1.3 1.2 Materials Processing Materials Processing CADCAM basic theory Preface 1 Chapter 1 Introduction to Materials Processing CADCAM 1.1 Materials processing CADCAM concept CADCAM material processing characteristics and key technologies 1.3.1 CADCAM system characteristics 1.3.2 1.4 Materials Processing CADCAM system key technologies CADCAM system the composition structure 1.4.1 CADCAM system hardware components 1.4.2 CADCAM system software composition the 1.5 common materials processing CADCAM the System 1.5.1 CATIA1.5.2 UniGraphics NX1.5.3 ProEngineer1.5.4 SolidWorks1. 6 Exercises Chapter 2 Part Modeling 2.1 2.1.2 geometric information of the the 2.1.1 physical structure of the general concept of 2.1.3 2.1.5 Euler Equation 2.2. 2.1.4 Boolean operations. physical representation of the topology information mode 2.2.1 boundary representation ( B Rep Act) 2.2.2 construct voxel method (CSG method) 2.2.3 CSG and B Rep mixed 2.4 2.3 curve and surface modeling 2.3.1 Curve Model 2.3.2 surface model parametric modeling 2.5 feature modeling 2.6 the mixed modeling 2.7 Exercises Chapter 3 parts assembly the 3.1 assembly modeling mode 3.2 assembly model indicates 3.3 assembly bottom-up assembly modeling constraint 3.4 assembly modeling method 3.4.1 3.4.2 3.5 assembly works from the top-down assembly modeling Figure 3.6 Exercises Chapter 4 Product data exchange 4.1 Product Data Exchange Interface 4.1.1 private data exchange interface 4.1.2 Universal Standard 4.2.1 IGES data exchange interface 4.2 IGES file structure 4.2.2 IGES problems in the application and development 4.3 4.3.3 STEP STEP Standard 4.3.1 STEP standard features 4.3.2 STEP standard architecture of a standard 4.4 Exercise 2 Chapter 5 of the material processing the CADCAM developed technology materials processing CADCAM system development 5.1 Materials Processing General Technology CADCAM system 5.1.4 CATIA secondary development platform development platform 5.1.1 UG NX platform 5.1.2 ProE secondary development platform 5.1.3 SolidWorks secondary development platform the secondary development 5.2 Materials Processing CADCAM system development process 5.2.1 5.2.3 Programming system analysis 5.2.2 system design the 5.2.4 system tests 5.2.5 system maintenance 5.3 parameters and geometry related technology 5.3.1 Parameters related technology 5.3.2 geometry associated technology 5.4 user defined features 5.4.1 Based on UG NX users ProE-based user defined features custom characteristics 5.4.2 5.4.3 SolidWorks user since 5.5 Exercises Chapter 6 of the defining feature of the data processing program 6.1.1 table 6.1 table and chart-based program of the 6.1.2 tables formulaic 6.1.3 data fitting to pass data between the establishment of the program 6.2 file system 6.2.1 6.1.4 line diagram data file system module 6.2.2 CADCAM 6.3 database technology 6.4 Exercises Chapter 7 graphics to transform 7.1 two-dimensional graphic to transform 7.2 three-dimensional graphics to transform 7.3 Exercises Chapter 8 stamping die CADCAM system and its development 8.1 stamping mold the structure and function of the CADCAM system 8.1.1 of stamping die CADCAM system structure 8.1.2 the stamping die CADCAM system 8.2 the stamping die CADCAM system to achieve 8.2.1 stamping die stamping process design in the middle of the change and associated technologies 8.3.2 8.2.2 stamping die mold structure and parts the CAD8.3 stamping mold CADCAM system developed key technologies 8.3.1 stamping die design the process shapes associated technologies 8.3.3 punching die structure associated change 8.4 Exercises Chapter 9 of injection molds CADCAM system and its development a 9.1 injection mold CADCAM system structure and function of a 9.2 injection mold CADCAM system implementation of 9.3 injection mold CADCAM system developed 9.4 Exercise 3 key technology-based the UG NX material processing CADCAM Chapter 10 basic styling 10.1 sketch the 10.1.1 sketch plane 10.1.2 sketch design 10.1.3 sketch positioning 10.2 basis for physical design 10.2.1 Basic voxel features 10.2 .2 stretch body characteristics 10.2.3 rotator feature 10.2.4 swept volume 10.2.5 Boolean operations 10.3 feature design characteristics 10.3.2 hole features 10.3.1 boss 10.3.3 cavity characteristics of 10.3.4 pad characteristics 10.3 .5 keyway feature slot features 10.4 characteristic expression design 10.4.1 create expressions 10.4.2 Editing expression of 10.5 characteristics operating feature operations and editing 10.5.1 Overview 10.5.2 editing features 10.6 10.6.1 curve and surface design curve design 10.6.2 Surface Design basis 10.7 assembly design 10.7.1 assembled Overview 10.7.2 assembly ways and means 10.8 drawing 10.8.1 view operation 10.8.2 edit drawings 10.8.3 Dimensioning 10.7.4 10.7.3 exploded view of the assembly sequence. Notes 10.9 instance - reducer machine lid 10.9.1 reducer cover details of the overall design 10.9.2 cover design 10.10 Exercises Chapter 11 Surface Modeling 11.1 mesh surface 11.1.1 Ruled Surface 11.1.2 through surface mesh 11.2 sweep curved 11.2.1 created using a set of guide lines to use two sets of guide lines to create 11.2.3 through changes sweep swept swept surfaces to create surfaces 11.3 Editing Surfaces 11.3.1 trimmed surface swept surface 11.2.2 11.3.2 expand 12.1.2 UG NX sheet metal surfaces 11.3.3 Example 11.4 Problem Chapter 12 sheet metal design the basic concepts of the 12.1 UG NX sheet metal design foundation 12.1.1 sheet metal design 12.1.3 sheet metal features default 12.1.4 length 12.2.4 angle setting 12.2 flanges of sheet metal sketches 12.2.1 [flanging] Feature dialog width 12.2.3 12.2.2 12.2.5 radius 12.2.6 crimping direction 12.2.7 Options 12.2.8 The Other 12.3 stakeout 12.3.2 Contour Flange curved edge and contour flange 12.3.1 Lofted Flange 12.4 bending 12.4.1 [bending the constructor method 12.4.3 bend parameters dialog box 12.4.2 bending 12.4.4 application curve type 12.4.5 bending direction 12.4.6 12.5 the forming expand 12.5.1 [] list box 12.5.3 [forming expand] Operation Command 12.6] dialog box 12.5.2 [bending sheet metal hole with sheet metal trough forming expand 12.6 .1 sheet metal hole 12.6.2 sheet metal trough 12.7 sheet metal ribs 12.7.1 [tendon] characteristics 12.7.2 Select step 12.7.3 sheet metal rib type 12.7.4 sheet metal ribs option of the dialog box 12.8 sheet metal angle sheet gold in addition to the material 12.8.1 sheet metal angle 12.8.2 sheet metal cutout 12.9 stamping 12.9.1 12.9.2 entity stamping of sheet metal stamping 12.9.3 stamping pits 12.9.4 stamping Cutout 12.10 sheet metal bridging 12.10.1 [sheet Jinqiao then characteristics to dialog box 12.10.2 select steps to 12.11 instance 12.11.1 start the software and sheet metal substrate with sheet metal flanges 12.11.3 lofting 12.11.2 sheet metal crimping contour flange 12.11.4 sheet metal bending sheet metal angle 12.11.5 sheet metal hole with sheet metal trough 12.11.6 sheet metal stamping and sheet metal stamping and sheet metal bridging 12.12 Exercises 12.11.8 entities 12.11.7 embedded curved edges with sheet metal slot Cutout the 13 Chapter progressive die CAD13.1 rough design 13.2.3 waste nesting 13.1.1 rough Builder 13.1.2 blank nesting nesting 13.1.3 rough instance 13.2 scrap design 13.2.1 waste design preparatory 13.2.2 waste Design Example 13.3 material the nesting designed 13.3.1 create the strip nesting 13.3.2 process simulation 13.3.4 strip nesting arrangements 13.3.3 strip Examples 13.4 moldbase standard mold base design and management 13.4.1 13.4.2 The component set 13.4.3 Design Tools 13.4.4 punch pressure calculation and mold design example 13.5 blanking inserts designed 13.5.1 to design and freeform design 13.5.2 Array 13.5.3 association 13.5.4 blanking insert Design Example 13.6 functional components designed 13.6.1 design bending punch or die components 13.6.2 the design forming punch or die components 13.6.3 tool handling components 13.6.4 Design Burring components 13.6.5 the design guide pin 13.6.6 Design buoyant pin the conical hole components 13.6.11 13.6.10 Design 13.6.7 design and installation of components 13.6.8 Design countersunk holes components 13.6.9 design countersink components design pit components 13.6.13 13.6.12 designed incision forming component design inverted bevel component 13.6.14 designing a user defined components 13.6.15 design examples of the functional components of 13.7 standard parts management and structural design 13.7.1 standard parts management 13.7. 2 multi-mode standard design. make way for 13.7.3 the slot design 13.7.4 cavity design 13.7.5 mounting holes designed 13.8 Exercises Chapter 14 of the injection mold the CAD14.1 injection mold structure composed of 14.2 injection mold design interface Introduction 14.2.1 wizard toolbar 14.2.2 injection mold injection mold tools 14.2.3 parting Manager 14.3 UG injection mold design process 14.4 simple shell the injection molds UG typing 14.4.1 mold design project initialization 14.4.2 set the mold coordinates the system 14.4.3 workpiece design 14.4.4 layout design 14.4.5 parting prepared 14.4.6 products the parting 14.5 digital camera back UG typing and gating system settings 14.5.1 mold design project initialization 14.5.2 Setting mold coordinate system 14.5.3 workpiece design the 14.5.4 layout design the 14.5.5 product genotyping preparation 14.5.6 Product parting 14.5.7 create a the runner system 14.6 torch handle the UG typing 14.6.1 mold design project initialization 14.6. The 2 Set mold coordinate system 14.6.3 workpiece design 14.6.4 layout design 14.6.5 Product typing prepare 14.6.6 Product parting 14.7 Exercises Chapter 15 mold CAM15.1 UG NX technical foundation of the basics of CNC machining 15.1.1 CNC knowledge 15.1.2 UG NX CAM basics 15.1.3 UG NX CAM processing environment 15.2 UG NX CNC machining basic operation 15.2.1 create a tool group to create a processing method to create geometry 15.2.4 15.2.5 15.2.3 15.2.2 create a program group Create operation 15.2.6 tool path 15.2.7-processing shop documentation the 15.3 plane milling 15.3.1 Overview 15.3.2 processing geometry 15.3.3 cutting mode 15.3.4 parameter settings 15.3.5 cavity milling design example 15.4 15.4 general steps to create a cavity milling characteristics of the the .1 cavity milling 15.4.2 15.4.3 15.4.4 parameter geometry set the 15.5 fixed axis surface contour milling the 15.5.1 fixed the shaft curved contour milling 15.5.2 commonly used method of driving 15.5.3 area the milling drive method 15.5.4 toolpath 15.6 Exercises References set Satisfaction guaranteed,or money back.
Von Händler/Antiquariat, BookerStudy.
paperback. New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Pub Date: 2013 02 Publisher: China Machine Press regular higher education Twelfth Five-Year Plan textbooks: materials processing CADCAM foundation and Applications describes the basic theory of materials processing CADCAM materials processing CADCAM system development techniques focuses on materials processing basis of CAD-based UGNX sheet metal CAD class into the mold CAD. injection mold CAD. mold CAM technology. will enable learners mastered a commonly used material processing on the basis of theoretical knowledge. focusing CADCAM system practical application of skills. Ordinary higher education 12th Five-Year Plan textbook: materials processing the CADCAM foundation and the institutions of higher learning material forming and control engineering. mold design and manufacturing expertise. materials science and engineering. the materials are also available to engage in material reference machining mold of CADCAM systems research. development and application of engineering and technical personnel. Contents: the CADCAM system 1.3 1.2 Materials Processing Materials Processing CADCAM basic theory Preface 1 Chapter 1 Introduction to Materials Processing CADCAM 1.1 Materials processing CADCAM concept CADCAM material processing characteristics and key technologies 1.3.1 CADCAM system characteristics 1.3.2 1.4 Materials Processing CADCAM system key technologies CADCAM system the composition structure 1.4.1 CADCAM system hardware components 1.4.2 CADCAM system software composition the 1.5 common materials processing CADCAM the System 1.5.1 CATIA1.5.2 UniGraphics NX1.5.3 ProEngineer1.5.4 SolidWorks1. 6 Exercises Chapter 2 Part Modeling 2.1 2.1.2 geometric information of the the 2.1.1 physical structure of the general concept of 2.1.3 2.1.5 Euler Equation 2.2. 2.1.4 Boolean operations. physical representation of the topology information mode 2.2.1 boundary representation ( B Rep Act) 2.2.2 construct voxel method (CSG method) 2.2.3 CSG and B Rep mixed 2.4 2.3 curve and surface modeling 2.3.1 Curve Model 2.3.2 surface model parametric modeling 2.5 feature modeling 2.6 the mixed modeling 2.7 Exercises Chapter 3 parts assembly the 3.1 assembly modeling mode 3.2 assembly model indicates 3.3 assembly bottom-up assembly modeling constraint 3.4 assembly modeling method 3.4.1 3.4.2 3.5 assembly works from the top-down assembly modeling Figure 3.6 Exercises Chapter 4 Product data exchange 4.1 Product Data Exchange Interface 4.1.1 private data exchange interface 4.1.2 Universal Standard 4.2.1 IGES data exchange interface 4.2 IGES file structure 4.2.2 IGES problems in the application and development 4.3 4.3.3 STEP STEP Standard 4.3.1 STEP standard features 4.3.2 STEP standard architecture of a standard 4.4 Exercise 2 Chapter 5 of the material processing the CADCAM developed technology materials processing CADCAM system development 5.1 Materials Processing General Technology CADCAM system 5.1.4 CATIA secondary development platform development platform 5.1.1 UG NX platform 5.1.2 ProE secondary development platform 5.1.3 SolidWorks secondary development platform the secondary development 5.2 Materials Processing CADCAM system development process 5.2.1 5.2.3 Programming system analysis 5.2.2 system design the 5.2.4 system tests 5.2.5 system maintenance 5.3 parameters and geometry related technology 5.3.1 Parameters related technology 5.3.2 geometry associated technology 5.4 user defined features 5.4.1 Based on UG NX users ProE-based user defined features custom characteristics 5.4.2 5.4.3 SolidWorks user since 5.5 Exercises Chapter 6 of the defining feature of the data processing program 6.1.1 table 6.1 table and chart-based program of the 6.1.2 tables formulaic 6.1.3 data fitting to pass data between the establishment of the program 6.2 file system 6.2.1 6.1.4 line diagram data file system module 6.2.2 CADCAM 6.3 database technology 6.4 Exercises Chapter 7 graphics to transform 7.1 two-dimensional graphic to transform 7.2 three-dimensional graphics to transform 7.3 Exercises Chapter 8 stamping die CADCAM system and its development 8.1 stamping mold the structure and function of the CADCAM system 8.1.1 of stamping die CADCAM system structure 8.1.2 the stamping die CADCAM system 8.2 the stamping die CADCAM system to achieve 8.2.1 stamping die stamping process design in the middle of the change and associated technologies 8.3.2 8.2.2 stamping die mold structure and parts the CAD8.3 stamping mold CADCAM system developed key technologies 8.3.1 stamping die design the process shapes associated technologies 8.3.3 punching die structure associated change 8.4 Exercises Chapter 9 of injection molds CADCAM system and its development a 9.1 injection mold CADCAM system structure and function of a 9.2 injection mold CADCAM system implementation of 9.3 injection mold CADCAM system developed 9.4 Exercise 3 key technology-based the UG NX material processing CADCAM Chapter 10 basic styling 10.1 sketch the 10.1.1 sketch plane 10.1.2 sketch design 10.1.3 sketch positioning 10.2 basis for physical design 10.2.1 Basic voxel features 10.2 .2 stretch body characteristics 10.2.3 rotator feature 10.2.4 swept volume 10.2.5 Boolean operations 10.3 feature design characteristics 10.3.2 hole features 10.3.1 boss 10.3.3 cavity characteristics of 10.3.4 pad characteristics 10.3 .5 keyway feature slot features 10.4 characteristic expression design 10.4.1 create expressions 10.4.2 Editing expression of 10.5 characteristics operating feature operations and editing 10.5.1 Overview 10.5.2 editing features 10.6 10.6.1 curve and surface design curve design 10.6.2 Surface Design basis 10.7 assembly design 10.7.1 assembled Overview 10.7.2 assembly ways and means 10.8 drawing 10.8.1 view operation 10.8.2 edit drawings 10.8.3 Dimensioning 10.7.4 10.7.3 exploded view of the assembly sequence. Notes 10.9 instance - reducer machine lid 10.9.1 reducer cover details of the overall design 10.9.2 cover design 10.10 Exercises Chapter 11 Surface Modeling 11.1 mesh surface 11.1.1 Ruled Surface 11.1.2 through surface mesh 11.2 sweep curved 11.2.1 created using a set of guide lines to use two sets of guide lines to create 11.2.3 through changes sweep swept swept surfaces to create surfaces 11.3 Editing Surfaces 11.3.1 trimmed surface swept surface 11.2.2 11.3.2 expand 12.1.2 UG NX sheet metal surfaces 11.3.3 Example 11.4 Problem Chapter 12 sheet metal design the basic concepts of the 12.1 UG NX sheet metal design foundation 12.1.1 sheet metal design 12.1.3 sheet metal features default 12.1.4 length 12.2.4 angle setting 12.2 flanges of sheet metal sketches 12.2.1 [flanging] Feature dialog width 12.2.3 12.2.2 12.2.5 radius 12.2.6 crimping direction 12.2.7 Options 12.2.8 The Other 12.3 stakeout 12.3.2 Contour Flange curved edge and contour flange 12.3.1 Lofted Flange 12.4 bending 12.4.1 [bending the constructor method 12.4.3 bend parameters dialog box 12.4.2 bending 12.4.4 application curve type 12.4.5 bending direction 12.4.6 12.5 the forming expand 12.5.1 [] list box 12.5.3 [forming expand] Operation Command 12.6] dialog box 12.5.2 [bending sheet metal hole with sheet metal trough forming expand 12.6 .1 sheet metal hole 12.6.2 sheet metal trough 12.7 sheet metal ribs 12.7.1 [tendon] characteristics 12.7.2 Select step 12.7.3 sheet metal rib type 12.7.4 sheet metal ribs option of the dialog box 12.8 sheet metal angle sheet gold in addition to the material 12.8.1 sheet metal angle 12.8.2 sheet metal cutout 12.9 stamping 12.9.1 12.9.2 entity stamping of sheet metal stamping 12.9.3 stamping pits 12.9.4 stamping Cutout 12.10 sheet metal bridging 12.10.1 [sheet Jinqiao then characteristics to dialog box 12.10.2 select steps to 12.11 instance 12.11.1 start the software and sheet metal substrate with sheet metal flanges 12.11.3 lofting 12.11.2 sheet metal crimping contour flange 12.11.4 sheet metal bending sheet metal angle 12.11.5 sheet metal hole with sheet metal trough 12.11.6 sheet metal stamping and sheet metal stamping and sheet metal bridging 12.12 Exercises 12.11.8 entities 12.11.7 embedded curved edges with sheet metal slot Cutout the 13 Chapter progressive die CAD13.1 rough design 13.2.3 waste nesting 13.1.1 rough Builder 13.1.2 blank nesting nesting 13.1.3 rough instance 13.2 scrap design 13.2.1 waste design preparatory 13.2.2 waste Design Example 13.3 material the nesting designed 13.3.1 create the strip nesting 13.3.2 process simulation 13.3.4 strip nesting arrangements 13.3.3 strip Examples 13.4 moldbase standard mold base design and management 13.4.1 13.4.2 The component set 13.4.3 Design Tools 13.4.4 punch pressure calculation and mold design example 13.5 blanking inserts designed 13.5.1 to design and freeform design 13.5.2 Array 13.5.3 association 13.5.4 blanking insert Design Example 13.6 functional components designed 13.6.1 design bending punch or die components 13.6.2 the design forming punch or die components 13.6.3 tool handling components 13.6.4 Design Burring components 13.6.5 the design guide pin 13.6.6 Design buoyant pin the conical hole components 13.6.11 13.6.10 Design 13.6.7 design and installation of components 13.6.8 Design countersunk holes components 13.6.9 design countersink components design pit components 13.6.13 13.6.12 designed incision forming component design inverted bevel component 13.6.14 designing a user defined components 13.6.15 design examples of the functional components of 13.7 standard parts management and structural design 13.7.1 standard parts management 13.7. 2 multi-mode standard design. make way for 13.7.3 the slot design 13.7.4 cavity design 13.7.5 mounting holes designed 13.8 Exercises Chapter 14 of the injection mold the CAD14.1 injection mold structure composed of 14.2 injection mold design interface Introduction 14.2.1 wizard toolbar 14.2.2 injection mold injection mold tools 14.2.3 parting Manager 14.3 UG injection mold design process 14.4 simple shell the injection molds UG typing 14.4.1 mold design project initialization 14.4.2 set the mold coordinates the system 14.4.3 workpiece design 14.4.4 layout design 14.4.5 parting prepared 14.4.6 products the parting 14.5 digital camera back UG typing and gating system settings 14.5.1 mold design project initialization 14.5.2 Setting mold coordinate system 14.5.3 workpiece design the 14.5.4 layout design the 14.5.5 product genotyping preparation 14.5.6 Product parting 14.5.7 create a the runner system 14.6 torch handle the UG typing 14.6.1 mold design project initialization 14.6. The 2 Set mold coordinate system 14.6.3 workpiece design 14.6.4 layout design 14.6.5 Product typing prepare 14.6.6 Product parting 14.7 Exercises Chapter 15 mold CAM15.1 UG NX technical foundation of the basics of CNC machining 15.1.1 CNC knowledge 15.1.2 UG NX CAM basics 15.1.3 UG NX CAM processing environment 15.2 UG NX CNC machining basic operation 15.2.1 create a tool group to create a processing method to create geometry 15.2.4 15.2.5 15.2.3 15.2.2 create a program group Create operation 15.2.6 tool path 15.2.7-processing shop documentation the 15.3 plane milling 15.3.1 Overview 15.3.2 processing geometry 15.3.3 cutting mode 15.3.4 parameter settings 15.3.5 cavity milling design example 15.4 15.4 general steps to create a cavity milling characteristics of the the .1 cavity milling 15.4.2 15.4.3 15.4.4 parameter geometry set the 15.5 fixed axis surface contour milling the 15.5.1 fixed the shaft curved contour milling 15.5.2 commonly used method of driving 15.5.3 area the milling drive method 15.5.4 toolpath 15.6 Exercises References set Satisfaction guaranteed,or money back.
Daten vom 20.04.2022 13:17h
ISBN (andere Schreibweisen): 7-111-39773-8, 978-7-111-39773-1
ISBN (andere Schreibweisen): 7-111-39773-8, 978-7-111-39773-1
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