Liquid-solid hydroforming technology and application(Chinese Edition)
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Liquid-solid hydroforming technology and application(Chinese Edition) (2013)
~EN PB NWISBN: 9787118083323 bzw. 7118083321, 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.Paperback. Pub Date: 2013 Pages: 288 Language: Chinese in Publisher: National Defence Industry Press liquid-solid hydroforming casting. forging and hot extrusion process one energy saving new technology. Liquid-solid hydroforming technology and application of more than ten National Natural Science Foundation of China. Aviation Science Foundation. the National Defense Pre-Research Foundation. the Shaanxi Provincial Natural Science Foundation project funded in the past more than 20 years of painstaking research. in the field of liquid-solid hydroforming The summary and generalization of the theory and application of the results. the results of the Shaanxi Provincial Science and Technology Prize. Third Prize. aviation and technological progress second prize. third prize. Liquid-solid high pressure forming technology and application system reveals high-pressure solidification of a liquid-solid forming the common law. based on a combination of experimental identification and parameter optimization fuzzy neural network / genetic algorithm multivariable systems modeling and optimization methods. and establish a forming theory. technology experiments. identification modeling and optimization of parameters of the associated system. Contents: Chapter 1 Introduction 1.1 the liquid solid hydroforming process characteristics and classification 1.1.1 the liquid forging 1.1.2 liquid squeezed 1.1.3 liquid infiltration squeeze 1.1.4 Vacuum sorptivety the squeeze 1.1.5 The semi-solid pressure forming the 2.1 liquid metal. 1.2 liquid solid hydroforming technology status and development trend 1.2.1-liquid-solid hydroforming technology Research 1.2.2 liquid solid hydroforming technology trends References Chapter 2 the liquid solid hydroforming mechanics metallurgical theory in pressure 2.1.5 2.1.1 pressure under the solidification behavior solidification process analysis 2.1.3 2.1.2 pressure on the melting point of the alloy pressure crystallization parameters 2.1.4 pressure on the segregation of materials of pressure on the composition of the alloy the 2.2 liquid to solid hydroforming in deformation behavior of materials 2.2.1 The combination of the mechanical model 2.2.2 2.2.3 2.2.6 semi-solid material forming The pressure variation 2.2.4 deformation harmonization calculated equation 2.2.5 deforming force mechanics of plastic flow model behavior with reference to Chapter 3 liquid-solid hydroforming 3.1 alloy liquid-solid high pressure forming and strengthening mechanisms of solid solution strengthening strengthening mechanisms 3.1.1 3.1.2 fine grain strengthening 3.1.3 dislocation strengthening 3.1.4 second phase strengthening 3.2 Metal Matrix composite liquid-solid hydroforming strengthen mechanisms 3.2.1 second phase strengthening 3.2.2 interface strengthening 3.2.3 dislocation strengthening 3.2.4 strengthening mechanisms 3.3 References Chapter 4 zinc alloy liquid mold liquid-solid hydroforming strengthening and toughening mechanism residence time 4.2.4 Pressure 4.2.5 dwell time 4.1 zinc alloy liquid forging forging device 4.2 zinc alloy liquid forging process parameters and material selection 4.2.2 mold of to select 4.2.1 pouring temperature temperature 4.2.3 pressurized ago 4.3 Liquid Forging zinc alloys 4.3.1 Liquid Forging zA27 alloy mechanical properties at room temperature 4.3.2 Liquid Forging on zinc alloy wear resistance 4.3.3 Liquid Forging on zinc alloy high temperature performance to affect 4.3.4 liquid forging zinc alloy 4.4 zinc alloy liquid forging defects and their control 4.4.1 surface defects and their control 4.4.2 internal defects and their control References Chapter 5 zinc aluminum tube . rods. profiles liquid squeeze 5.1 profiles liquid extrusion process principle and parameter selection 5.1.1 pipe liquid extrusion 5.1.2 bars the liquid extrusion 5.1.3 Other profiles liquid squeeze 5.2 liquid extrusion of zinc alloy performance of 5.2.1 Liquid Extrusion 5.3 liquid zinc alloy mechanical properties and wear resistance of 5.2.2 of liquid extrusion of zinc alloy extruded Aluminum Alloy 5.3.1 liquid extrusion affect the mechanical properties of the zLl08 alloy 5.3.2 the liquid extrusion the ZLl08 Alloy affect 5.4 liquid extrusion parts defects and its control method 5.4.1 surface defects 5.4.2 other defects 5.4.3 parts defects control refer to Chapter 6 aluminum matrix composite liquid infiltration squeeze 6.1 the liquid infiltration squeeze process parameters the the 6.2 liquid infiltration extrusion mold internal temperature field distribution 6.3 liquid infiltration squeeze the microstructure and properties of aluminum matrix composites 6.3 .1 liquid infiltration 6.3.2 liquid infiltration extrusion composite microstructure 6.3.3 liquid infiltration extrusion composite interface 6.4 liquid infiltration extrusion extruded aluminum matrix composite performance parts of the defects and their control macroscopic defect and its control method 6.4.2 Methods 6.4.1 microscopic defects and its control method reference to Chapter 7. the chopped carbon fiber reinforced magnesium matrix composite vacuum infiltration extrusion process 7.1 chopped carbon fiber 7.2.2 liquid metal infiltration dynamics model of the preparation of the preform 7.1.1 preform preform 7.1.2 carbon fiber surface statics model dealing with the theory of of 7.2 liquid metal infiltration process modeling 7.2.1 liquid metal infiltration 7.3 Vacuum the vacuum suction 45steel 7.3.1 7.3.2 The impact of liquid metal infiltration process factors influencing factors 7.3.3 Vacuum sorptivety the orthogonal experimental design 7.3.4 liquid metal infiltration behavior sorptivety experimental device designed Analysis 7.4 vacuum infiltration extrusion process research 7.4.1 7.4.2 vacuum infiltration extrusion process principle vacuum suction infiltration extrusion process parameters determine 7.4.3 liquid solid extrusion process variation of the process parameters and stable molding conditions 7.4. 4 process parameters on the forming process of the composite 7.5 vacuum suction infiltration extrusion of Csf / Mg composite microstructure and properties the 7.5.1 Csf/AZ91D composite tissue structure characteristic the 7.5.2 Csf/AZ91D composites strive} students can and its influencing factors the 7.5.3 Csf/AZ91D infiltration holes of the thermal expansion properties of the composite material damping of the the 7.5.4 Csf/AZ91D composite performance 7.6 Csf/AZ91D composite common defects and prevention measures 7.6.1 7.6.2 surface scratches 7.6 .3 parts hot crack 7.6.4 the surface crack 7.6.5 extruded samples of 8.1 liquid-solid extrusion composite modeling and optimization system designed 8.1 bending References Chapter 8 the liquid solid hydroforming system identification and modeling methods. 1 liquid-solid extrusion composite process modeling and optimization system architecture 8.1.2 Data acquisition system design and development 8.2 liquid-solid extrusion the composites process system modeling method 8.2.1 liquid-solid extrusion composite orthogonal test the design 8.2.2 liquid-solid extrusion composite dynamic system modeling method 8.3 liquid-solid extrusion process of composite neural network modeling method 8.3.2 8.3.1 the basic principles of neural network modeling method based on BP neural network process parameters Knowledge Base 8.4 The establishment of the liquid-solid extrusion composite process Fuzzy Neural Network Modeling Method 8.4.1 8.4.2 solution of the basic principles of fuzzy neural network modeling the composite fuzzy neural network system to establish 8.4.3 process parameter coupling analysis of solid extrusion Reference 9.1.2 Chapter 9 liquid-solid hydroforming system optimization and process control 9.1.1 Genetic Algorithms 9.1 liquid-solid extrusion forming the basic principles of the system genetic algorithm optimization of the basic principles and methods of genetic algorithm to optimize the key technical issues to deal with 9.2 liquid solid squeeze pressure forming composite craft genetic algorithm optimized system 9.2.1 ANN / GA-based liquid-solid extrusion composite optimization of process parameters 9.2.2 composites process parameters based on the FNN / GA liquid-solid extrusion multi-objective optimization 9.2.3 9.4.1 liquid solid hydroforming process control system the modeling optimization methods compare 9.3 liquid-solid extrusion process optimization of composite system software 9.3.2 9.3.1 of the main interface program development database maintenance program development 9.4 liquid solid extrusion The the composite extrusion speed control system design 9.4.2 liquid-solid extrusion the composite packing process control system design 9.4.3 liquid-solid extrusion the composite process switch control system 9.4.4 liquid-solid extrusion the composite process control system interface design Reference the literature Chapter 10 liquid solid hydroforming process application instance 10.1 liquid forging process forming a waveguide bend 10.2 liquid forging process the forming zinc alloy bearing cage 10.3 liquid forging the artillery shell 10.4 liquid forging forming air compressor aluminum alloy the rod 10.5 Zhuduan double control forming magnesium alloy wheels 10.6 the local loading certain domain Feeding prepared aluminum road wheels 10.7 liquid forging the infiltration process forming local enhanced the composite piston 10.8 thixotropic pressure forming aluminum-magnesium alloy parts 10.9 liquid (dip infiltration) extrusion process forming alloy composite tube. rod member and shaped pieces of Reference 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.Paperback. Pub Date: 2013 Pages: 288 Language: Chinese in Publisher: National Defence Industry Press liquid-solid hydroforming casting. forging and hot extrusion process one energy saving new technology. Liquid-solid hydroforming technology and application of more than ten National Natural Science Foundation of China. Aviation Science Foundation. the National Defense Pre-Research Foundation. the Shaanxi Provincial Natural Science Foundation project funded in the past more than 20 years of painstaking research. in the field of liquid-solid hydroforming The summary and generalization of the theory and application of the results. the results of the Shaanxi Provincial Science and Technology Prize. Third Prize. aviation and technological progress second prize. third prize. Liquid-solid high pressure forming technology and application system reveals high-pressure solidification of a liquid-solid forming the common law. based on a combination of experimental identification and parameter optimization fuzzy neural network / genetic algorithm multivariable systems modeling and optimization methods. and establish a forming theory. technology experiments. identification modeling and optimization of parameters of the associated system. Contents: Chapter 1 Introduction 1.1 the liquid solid hydroforming process characteristics and classification 1.1.1 the liquid forging 1.1.2 liquid squeezed 1.1.3 liquid infiltration squeeze 1.1.4 Vacuum sorptivety the squeeze 1.1.5 The semi-solid pressure forming the 2.1 liquid metal. 1.2 liquid solid hydroforming technology status and development trend 1.2.1-liquid-solid hydroforming technology Research 1.2.2 liquid solid hydroforming technology trends References Chapter 2 the liquid solid hydroforming mechanics metallurgical theory in pressure 2.1.5 2.1.1 pressure under the solidification behavior solidification process analysis 2.1.3 2.1.2 pressure on the melting point of the alloy pressure crystallization parameters 2.1.4 pressure on the segregation of materials of pressure on the composition of the alloy the 2.2 liquid to solid hydroforming in deformation behavior of materials 2.2.1 The combination of the mechanical model 2.2.2 2.2.3 2.2.6 semi-solid material forming The pressure variation 2.2.4 deformation harmonization calculated equation 2.2.5 deforming force mechanics of plastic flow model behavior with reference to Chapter 3 liquid-solid hydroforming 3.1 alloy liquid-solid high pressure forming and strengthening mechanisms of solid solution strengthening strengthening mechanisms 3.1.1 3.1.2 fine grain strengthening 3.1.3 dislocation strengthening 3.1.4 second phase strengthening 3.2 Metal Matrix composite liquid-solid hydroforming strengthen mechanisms 3.2.1 second phase strengthening 3.2.2 interface strengthening 3.2.3 dislocation strengthening 3.2.4 strengthening mechanisms 3.3 References Chapter 4 zinc alloy liquid mold liquid-solid hydroforming strengthening and toughening mechanism residence time 4.2.4 Pressure 4.2.5 dwell time 4.1 zinc alloy liquid forging forging device 4.2 zinc alloy liquid forging process parameters and material selection 4.2.2 mold of to select 4.2.1 pouring temperature temperature 4.2.3 pressurized ago 4.3 Liquid Forging zinc alloys 4.3.1 Liquid Forging zA27 alloy mechanical properties at room temperature 4.3.2 Liquid Forging on zinc alloy wear resistance 4.3.3 Liquid Forging on zinc alloy high temperature performance to affect 4.3.4 liquid forging zinc alloy 4.4 zinc alloy liquid forging defects and their control 4.4.1 surface defects and their control 4.4.2 internal defects and their control References Chapter 5 zinc aluminum tube . rods. profiles liquid squeeze 5.1 profiles liquid extrusion process principle and parameter selection 5.1.1 pipe liquid extrusion 5.1.2 bars the liquid extrusion 5.1.3 Other profiles liquid squeeze 5.2 liquid extrusion of zinc alloy performance of 5.2.1 Liquid Extrusion 5.3 liquid zinc alloy mechanical properties and wear resistance of 5.2.2 of liquid extrusion of zinc alloy extruded Aluminum Alloy 5.3.1 liquid extrusion affect the mechanical properties of the zLl08 alloy 5.3.2 the liquid extrusion the ZLl08 Alloy affect 5.4 liquid extrusion parts defects and its control method 5.4.1 surface defects 5.4.2 other defects 5.4.3 parts defects control refer to Chapter 6 aluminum matrix composite liquid infiltration squeeze 6.1 the liquid infiltration squeeze process parameters the the 6.2 liquid infiltration extrusion mold internal temperature field distribution 6.3 liquid infiltration squeeze the microstructure and properties of aluminum matrix composites 6.3 .1 liquid infiltration 6.3.2 liquid infiltration extrusion composite microstructure 6.3.3 liquid infiltration extrusion composite interface 6.4 liquid infiltration extrusion extruded aluminum matrix composite performance parts of the defects and their control macroscopic defect and its control method 6.4.2 Methods 6.4.1 microscopic defects and its control method reference to Chapter 7. the chopped carbon fiber reinforced magnesium matrix composite vacuum infiltration extrusion process 7.1 chopped carbon fiber 7.2.2 liquid metal infiltration dynamics model of the preparation of the preform 7.1.1 preform preform 7.1.2 carbon fiber surface statics model dealing with the theory of of 7.2 liquid metal infiltration process modeling 7.2.1 liquid metal infiltration 7.3 Vacuum the vacuum suction 45steel 7.3.1 7.3.2 The impact of liquid metal infiltration process factors influencing factors 7.3.3 Vacuum sorptivety the orthogonal experimental design 7.3.4 liquid metal infiltration behavior sorptivety experimental device designed Analysis 7.4 vacuum infiltration extrusion process research 7.4.1 7.4.2 vacuum infiltration extrusion process principle vacuum suction infiltration extrusion process parameters determine 7.4.3 liquid solid extrusion process variation of the process parameters and stable molding conditions 7.4. 4 process parameters on the forming process of the composite 7.5 vacuum suction infiltration extrusion of Csf / Mg composite microstructure and properties the 7.5.1 Csf/AZ91D composite tissue structure characteristic the 7.5.2 Csf/AZ91D composites strive} students can and its influencing factors the 7.5.3 Csf/AZ91D infiltration holes of the thermal expansion properties of the composite material damping of the the 7.5.4 Csf/AZ91D composite performance 7.6 Csf/AZ91D composite common defects and prevention measures 7.6.1 7.6.2 surface scratches 7.6 .3 parts hot crack 7.6.4 the surface crack 7.6.5 extruded samples of 8.1 liquid-solid extrusion composite modeling and optimization system designed 8.1 bending References Chapter 8 the liquid solid hydroforming system identification and modeling methods. 1 liquid-solid extrusion composite process modeling and optimization system architecture 8.1.2 Data acquisition system design and development 8.2 liquid-solid extrusion the composites process system modeling method 8.2.1 liquid-solid extrusion composite orthogonal test the design 8.2.2 liquid-solid extrusion composite dynamic system modeling method 8.3 liquid-solid extrusion process of composite neural network modeling method 8.3.2 8.3.1 the basic principles of neural network modeling method based on BP neural network process parameters Knowledge Base 8.4 The establishment of the liquid-solid extrusion composite process Fuzzy Neural Network Modeling Method 8.4.1 8.4.2 solution of the basic principles of fuzzy neural network modeling the composite fuzzy neural network system to establish 8.4.3 process parameter coupling analysis of solid extrusion Reference 9.1.2 Chapter 9 liquid-solid hydroforming system optimization and process control 9.1.1 Genetic Algorithms 9.1 liquid-solid extrusion forming the basic principles of the system genetic algorithm optimization of the basic principles and methods of genetic algorithm to optimize the key technical issues to deal with 9.2 liquid solid squeeze pressure forming composite craft genetic algorithm optimized system 9.2.1 ANN / GA-based liquid-solid extrusion composite optimization of process parameters 9.2.2 composites process parameters based on the FNN / GA liquid-solid extrusion multi-objective optimization 9.2.3 9.4.1 liquid solid hydroforming process control system the modeling optimization methods compare 9.3 liquid-solid extrusion process optimization of composite system software 9.3.2 9.3.1 of the main interface program development database maintenance program development 9.4 liquid solid extrusion The the composite extrusion speed control system design 9.4.2 liquid-solid extrusion the composite packing process control system design 9.4.3 liquid-solid extrusion the composite process switch control system 9.4.4 liquid-solid extrusion the composite process control system interface design Reference the literature Chapter 10 liquid solid hydroforming process application instance 10.1 liquid forging process forming a waveguide bend 10.2 liquid forging process the forming zinc alloy bearing cage 10.3 liquid forging the artillery shell 10.4 liquid forging forming air compressor aluminum alloy the rod 10.5 Zhuduan double control forming magnesium alloy wheels 10.6 the local loading certain domain Feeding prepared aluminum road wheels 10.7 liquid forging the infiltration process forming local enhanced the composite piston 10.8 thixotropic pressure forming aluminum-magnesium alloy parts 10.9 liquid (dip infiltration) extrusion process forming alloy composite tube. rod member and shaped pieces of Reference Satisfaction guaranteed,or money back.
Daten vom 08.10.2021 15:30h
ISBN (andere Schreibweisen): 7-118-08332-1, 978-7-118-08332-3
ISBN (andere Schreibweisen): 7-118-08332-1, 978-7-118-08332-3
Zuerst gefunden: 08.10.2021 15:30:23
Zuletzt gefunden: 08.10.2021 15:30:23
Kleinster Preis: € 84,18 (vom 08.10.2021 15:30:23)
Höchster Preis: € 84,18 (vom 08.10.2021 15:30:23)
Fundstellen insgesamt: 1
Zuletzt gefunden: 08.10.2021 15:30:23
Kleinster Preis: € 84,18 (vom 08.10.2021 15:30:23)
Höchster Preis: € 84,18 (vom 08.10.2021 15:30:23)
Fundstellen insgesamt: 1
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