06427nam a2200373Ii 4500991003224959707536070802s2003 enka sb 001 0 eng d97807506543710750654376b13651444-39ule_instBibl. Dip.le Aggr. Ingegneria Innovazione - Sez. Ingegneria Innovazioneeng670.4222Swift, K. G.472777Process selection[e-book] :from design to manufacture /K.G. Swift and J.D. Booker2nd ed.Oxford [England] ;Boston :Butterworth-Heinemann,2003xvi, 316 p. :ill. ;25 cmIncludes bibliographical references (p. [309]-312) and indexPreface * Notation * Part 1:A Strategic View; The Problem; Manufacturing Information for Design; Product Introduction Processes; A Process Selection Strategy; Part 2: Selecting Candidate Processes; Introduction; PRIMA Selection; Manufacturing Processes; Surface Engineering Processes; Assembly Systems; Joining Processes; Process Information Maps (PRIMAs): Casting Processes; Sand Casting; Shell Moulding; Gravity Die Casting; Pressure Die Casting; Centrifugal Casting; Investment Casting; Ceramic Mould Casting; Plaster Mould Casting; Squeeze Casting; Plastic & Composite Processing; Injection Moulding; Reaction Injection Moulding; Compression Moulding; Transfer Moulding; Vacuum Forming; Blow Moulding; Rotational Moulding; Contact Moulding; Continuous Extrusion (Plastics); Forming Processes; Hot Forging; Rolling; Drawing; Cold Forming; Cold Heading; Swaging; Superplastic Forming; Sheet Metal Shearing; Sheet Metal Forming; Spinning; Powder Metallurgy; Continuous Extrusion (Metals); Machining Processes; Turning and Boring; Milling; Planing and Shaping; Drilling Broaching; Reaming; Grinding; Honing; Lapping; Nontraditional Machining Processes; Electrical Discharge Machining (EDM); Electrochemical Machining (ECM); Electron Beam Machining (EBM) Laser Bean Machining (LBM); Chemical Machining (CM); Ultrasonic Machining (USM); Surface Engineering Processes; Hot Dipping; HardFacing; Cladding; Thermal Spraying; Chemical Vapour Deposition (CVD); Physical Vapour Deposition (PVD); Electroplating; Chemical Coating; Mechanical Treatments; Chemical Treatments; Painting; Assembly Technologies; Feeding Devices; Transfer Mechanisms; Manual Assembly Systems; Flexible Assembly Systems; Dedicated Assembly Systems; Joining Processes; Tungsten Inert-gas Welding (TIB); Metal Inert-gas Welding (MIG); Manual Metal Arc Welding (MMA); Submerged Arc Welding (SAW); Electron Beam Welding (LBM); Plasma Arc Welding (PAW); Resistance Welding (Spot, Seam, Projection, Flash, Electro-slag; Solid State Welding (Cold, Diffusion, Explosive, Friction, Ultrasonic; Thermit Welding (TW); Gas Welding (GW); Brazing; Soldering; Thermoplastic Welding; Adhesive Bonding; Mechanical Fastening; Combining the Use of the Selection Matrices and PRIMAs; Manufacturing Processes; Surface Engineering Processes; Assembly Systems; Joining Processes; Part III - Costing Designs; Introduction; Assembly Sequence Diagrams; Component Costing; Development of the Model; Basic Processing Cost (Pc); Relative Cost Coefficient (Rc); Material Cost (Mc); Model Validation; Component Costing Case Studies; Manual Assembly Costing; Development of the Model; Assembly Costing Case Studies; Concluding Remarks; Sample Questions for Students; References Bibliography; Appendices; Weld Joint Design; Blank Manufacturing Analysis Table; Guidelines for Assembly Orientated DesignThe definitive practical guide to choosing the optimum manufacturing process, written for students and engineers. Process Selection provides engineers with the essential technological and economic data to guide the selection of manufacturing processes. This fully revised second edition covers a wide range of important manufacturing processes and will ensure design decisions are made to achieve optimal cost and quality objectives. Expanded and updated to include contemporary manufacturing, fabrication and assembly technologies, the book puts process selection and costing into the context of modern product development and manufacturing, based on parameters such as materials requirements, design considerations, quality and economic factors. Key features of the book include: manufacturing process information maps (PRIMAs) provide detailed information on the characteristics and capabilities of 65 processes and their variants in a standard format; process capability charts detailing the processing tolerance ranges for key material types; strategies to facilitate process selection; detailed methods for estimating costs, both at the component and assemby level. The approach enables an engineer to understand the consequences of design decisions on the technological and economic aspects of component manufacturing, fabrication and assembly. This comprehensive book provides both a definitive guide to the subject for students and an invaluable source of reference for practising engineers. * manufacturing process information maps (PRIMAs) provide detailed information on the characteristics and capabilities of 65 processes in a standard format * process capability charts detail the processing tolerance ranges for key material types * detailed methods for estimating costs, both at the component and assembly levelElectronic reproduction.Amsterdam :Elsevier Science & Technology,2007.Mode of access: World Wide Web.System requirements: Web browser.Title from title screen (viewed on July 25, 2007).Access may be restricted to users at subscribing institutionsManufacturing processesDecision makingDecision support systemsProduction planningElectronic books.localBooker, J. D.Original07506543769780750654371(DLC) 2003045197(OCoLC)51738100Referexhttp://www.sciencedirect.com/science/book/9780750654371An electronic book accessible through the World Wide Web; click for informationPublisher descriptionhttp://catdir.loc.gov/catdir/description/els031/2003045197.html.b1365144403-03-2224-01-08991003224959707536Process selection224765UNISALENTOle02624-01-08m@ -engenk0002960oam 22007095 450 991078169150332120200520144314.01-283-15183-997866131518340-8213-8790-110.1596/978-0-8213-8780-1(CKB)2550000000041928(EBL)727535(OCoLC)735604808(SSID)ssj0000529806(PQKBManifestationID)12242529(PQKBTitleCode)TC0000529806(PQKBWorkID)10560748(PQKB)11232153(MiAaPQ)EBC727535(Au-PeEL)EBL727535(CaPaEBR)ebr10480985(CaONFJC)MIL315183(OCoLC)742517382(OCoLC)ocn711989062(The World Bank)2011014931(US-djbf)16727126(EXLCZ)99255000000004192820110408d2011 uy 0engurcn|||||||||txtrdacontentcrdamediacrrdacarrierUnleashing the potential of renewable energy in India /Gevorg Sargsyan ... [and others]Washington, D.C. :World Bank,c2011.xv, 39 pages illustrations ;26 cmWorld Bank studyDescription based upon print version of record.0-8213-8780-4 Includes bibliographical references.Contents; Acknowledgments; Acronyms and Abbreviations; Executive Summary; Figures; Tables; 1. Why: Role of Renewable Energy in India; Boxes; 2. How Much: Economic and Financial Potential of Renewable Energy; 3. What: Establishment of an Enabling Environment for Renewable Energy DevelopmentIndia has 150GW of renewable energy potential, about half in the form of small hydropower, biomass, and wind and half in solar, cogeneration, and waste-to-energy. Developing renewable energy can help India increase its energy security, reduce the adverse impacts on the local environment, lower its carbon intensity, contribute to more balanced regional development, and realize its aspirations for leadership in high-technology industries. This study aims to answers critical questions on why renewable energy development is relevant in Indian context, on how much development is economically feasibWorld Bank e-Library.Energy developmentIndiaRenewable energy sourcesIndiaEnergy developmentRenewable energy sources333.79/40954Sargsyan Gevorg1973-1473108World Bank.DLCDLCYDXYDXCPBWXIULDLCBOOK9910781691503321Unleashing the potential of renewable energy in India3686169UNINA