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Sheet Metal Forming Optimization : Bioinspired Approaches.

By: Kakandikar, Ganesh M.
Contributor(s): Nandedkar, Vilas M.
Material type: materialTypeLabelBookPublisher: Milton : CRC Press, 2017Description: 1 online resource (248 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9781498796156; 149879615X.Subject(s): Sheet-metal workDDC classification: 671.8/23 Online resources: Taylor & Francis Click here to view. | OCLC metadata license agreement
Contents:
""Cover""; ""Half Title ""; ""Title Page ""; ""Copyright Page ""; ""Table of Contents ""; ""Preface ""; ""Authors ""; ""Chapter 1: Introduction to Metal Forming ""; ""1.1 Introduction ""; ""1.2 Drawing/Deep Drawing Process ""; ""1.3 State of Stress in Deep Drawing ""
""1.4 Description and Significance of Intrinsic Sheet Metal Properties """"1.4.1 Strain Hardening Coefficient â#x80;#x9C;nâ#x80;#x9D; ""; ""1.4.2 Strain Rate Sensitivity â#x80;#x9C;mâ#x80;#x9D; ""; ""1.4.3 Normal and Planar Anisotropy ""; ""1.5 Formability of Sheet Metal ""; ""1.6 Strain-Defined Failure-Limit Curves ""
""1.7 Construction of Forming-Limit Diagram """"1.8 Thickness Gradient ""; ""Bibliography ""; ""Chapter 2: Process Parameters in Drawing ""; ""2.1 Blank-Holding Force ""; ""2.2 Friction in Drawing ""; ""2.3 Frictional Problems in Deep Drawing ""; ""2.4 Contact Regions in Deep Drawing ""
""2.5 Lubrication Mechanism in Deep Drawing """"2.6 Micromechanism ""; ""2.7 Generalized Stribeck Curve ""; ""2.8 How to Control Friction Level ""; ""2.9 Ploughing and Adhesion ""; ""2.10 Friction and Drawability ""; ""2.11 Process Improvements ""; ""2.12 Die Profile Radius and Punch-Nose Radius ""
Scope and content: "Automotive and aerospace components, utensils, and many other products are manufactured by a forming/drawing process on press machines of very thin sheet metal, 0.8 to 1.2 mm. It is imperative to study the effect of all involved parameters on output of this type of manufacturing process. This book offers the readifers with application and suitability of various evolutionary, swarm, and bio-inspired optimization algorithms for sheet metal forming processes. Book initiates by presenting basics of metal forming, formability followed by discussion of process parameters in detail, prominent modes of failure, basics of optimization and various bioinspired approaches followed by optimization studies on various industrial components applying bioinspired optimization algorithms.Key Features:- Focus on description of basic investigation of metal forming, as well as evolutionary optimization- Presentation of innovative optimization methodologies to close the gap between those formulations and industrial problems, aimed at industrial professionals- Includes mathematical modeling of drawing/forming process- Discusses key performance parameters, such as Thinning, Fracture, and Wrinkling- Includes both numerical and experimental analysis"--Provided by publisher.
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""Cover""; ""Half Title ""; ""Title Page ""; ""Copyright Page ""; ""Table of Contents ""; ""Preface ""; ""Authors ""; ""Chapter 1: Introduction to Metal Forming ""; ""1.1 Introduction ""; ""1.2 Drawing/Deep Drawing Process ""; ""1.3 State of Stress in Deep Drawing ""

""1.4 Description and Significance of Intrinsic Sheet Metal Properties """"1.4.1 Strain Hardening Coefficient â#x80;#x9C;nâ#x80;#x9D; ""; ""1.4.2 Strain Rate Sensitivity â#x80;#x9C;mâ#x80;#x9D; ""; ""1.4.3 Normal and Planar Anisotropy ""; ""1.5 Formability of Sheet Metal ""; ""1.6 Strain-Defined Failure-Limit Curves ""

""1.7 Construction of Forming-Limit Diagram """"1.8 Thickness Gradient ""; ""Bibliography ""; ""Chapter 2: Process Parameters in Drawing ""; ""2.1 Blank-Holding Force ""; ""2.2 Friction in Drawing ""; ""2.3 Frictional Problems in Deep Drawing ""; ""2.4 Contact Regions in Deep Drawing ""

""2.5 Lubrication Mechanism in Deep Drawing """"2.6 Micromechanism ""; ""2.7 Generalized Stribeck Curve ""; ""2.8 How to Control Friction Level ""; ""2.9 Ploughing and Adhesion ""; ""2.10 Friction and Drawability ""; ""2.11 Process Improvements ""; ""2.12 Die Profile Radius and Punch-Nose Radius ""

""4.1.2 Shape Optimization ""

"Automotive and aerospace components, utensils, and many other products are manufactured by a forming/drawing process on press machines of very thin sheet metal, 0.8 to 1.2 mm. It is imperative to study the effect of all involved parameters on output of this type of manufacturing process. This book offers the readifers with application and suitability of various evolutionary, swarm, and bio-inspired optimization algorithms for sheet metal forming processes. Book initiates by presenting basics of metal forming, formability followed by discussion of process parameters in detail, prominent modes of failure, basics of optimization and various bioinspired approaches followed by optimization studies on various industrial components applying bioinspired optimization algorithms.Key Features:- Focus on description of basic investigation of metal forming, as well as evolutionary optimization- Presentation of innovative optimization methodologies to close the gap between those formulations and industrial problems, aimed at industrial professionals- Includes mathematical modeling of drawing/forming process- Discusses key performance parameters, such as Thinning, Fracture, and Wrinkling- Includes both numerical and experimental analysis"--Provided by publisher.

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