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MARC Record from marc_columbia

Record ID marc_columbia/Columbia-extract-20221130-028.mrc:131487296:6539
Source marc_columbia
Download Link /show-records/marc_columbia/Columbia-extract-20221130-028.mrc:131487296:6539?format=raw

LEADER: 06539cam a2200661 i 4500
001 13726100
005 20220219224259.0
006 m o d
007 cr cnu|||unuuu
008 180611t20182018enk ob 001 0 eng d
035 $a(OCoLC)on1039718511
035 $a(NNC)13726100
040 $aN$T$beng$erda$epn$cN$T$dN$T$dYDX$dOPELS$dEBLCP$dUAB$dOCLCF$dVRC$dNLE$dMERER$dUKMGB$dU3W$dOCLCQ$dLVT$dD6H$dUMR$dSTF$dKNOVL$dCEF$dAU@$dOCLCQ$dS2H$dOCLCO$dOCLCQ
066 $c(S
015 $aGBB890606$2bnb
016 7 $a018870161$2Uk
019 $a1039931250$a1229756857
020 $a9780323511346$q(electronic bk.)
020 $a0323511341$q(electronic bk.)
020 $z9780323511339
020 $z0323511333
035 $a(OCoLC)1039718511$z(OCoLC)1039931250$z(OCoLC)1229756857
037 $a9780323511346$bIngram Content Group
050 4 $aTP1175.R43
072 7 $aTEC$x009010$2bisacsh
082 04 $a668.4/192$223
049 $aZCUA
245 00 $aRecycling of polyurethane foams /$cedited by Sabu Thomas, Ajay Vasudeo Rane, Krishnan Kanny, Abitha V.K., Martin George Thomas.
264 1 $aKidlington, Oxford :$bWilliam Andrew, an imprint of Elsevier,$c[2018]
264 4 $c©2018
300 $a1 online resource
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
490 1 $aPlastics Design Library
504 $aIncludes bibliographical references and index.
588 0 $aOnline resource; title from PDF title page (EBSCO, viewed June 13, 2018).
520 $aRecycling of Polyurethane Foams introduces the main degradation/depolymerization processes and pathways of polyurethane foam materials, focusing on industrial case studies and academic reviews from recent research and development projects. The book can aid practitioners in understanding the basis of polymer degradation and its relationship with industrial processes, which can be of substantial value to industrial complexes the world over. The main pathways of polymer recycling via different routes and industrial schemes are detailed, covering all current techniques, including regrinding, rebinding, adhesive pressing and compression moulding of recovered PU materials that are then compared with depolymerization approaches. The book examines life cycle assessment and cost analysis associated with polyurethane foams waste management, showing the potential of various techniques. This book will help academics and researchers identify and improve on current depolymerization processes, and it will help industry sustainability professionals choose the appropriate approach for their own waste management systems, thus minimizing the costs and environmental impact of their PU-based end products.
505 0 $aFront Cover; Recycling of Polyurethane Foams; Copyright Page; Contents; List of Contributors; 1 Introduction to Polymer and Their Recycling Techniques; 1.1 Introduction of Plastics and Their Classification; 1.2 Classification of Polymers; 1.3 Recycling of Thermoplastics Is Possible but not With Thermosets. Why?; 1.4 Polymerization Reactions; 1.5 Economic and Environmental Impact of Plastic Waste; 1.6 Economic Issues Relating to Recycling; 1.7 Various Thermoplastics and Their Applications; 1.7.1 Polyolefins; 1.7.2 Vinyl Polymers; 1.7.3 Polystyrenes; 1.7.4 Acrylate and Methacrylate Polymers
505 8 $a1.7.5 Polyamide (i.e., Nylons)1.7.6 Polycarbonates; 1.7.7 Celluloid; 1.7.8 Linear Polyester; 1.7.9 Polyfluorethane; 1.7.10 Polyacetals; 1.7.11 Polysulfones; 1.7.12 Polyphenylene Sulfide; 1.7.13 Modified Polyphenylene Oxide (PPO); 1.8 Various Thermosetting Plastics; 1.8.1 Unsaturated Polyester; 1.8.2 Phenol Formaldehyde Resins; 1.8.3 Melamine Resins; 1.8.4 Polyepoxides; 1.8.5 Polyimide; 1.8.6 Polyurethane; 1.8.7 Polyorganosiloxanes; 1.9 Systems for Plastic Recycling; 1.10 Recycling of Thermoplastics; 1.10.1 Size Reduction and Cleaning; 1.10.2 Further Separation
505 8 $a1.10.3 Processing/Remelting to Make Products1.11 PET Bottle/Container Recycling Process; 1.12 PU Recycling Processes; 1.12.1 Mechanical Recycling; 1.12.2 Chemical Recycling; 1.13 Recycling of Thermoset Plastics; 1.14 Recycling and Reuse of Elastomeric Materials; 1.14.1 Incineration; 1.14.2 Pyrolysis; 1.14.3 Grinding of Vulcanized Rubber Waste; 1.14.4 Devulcanization; 1.14.5 Applications of Waste Rubber; 1.15 Challenges and Opportunities for Improving Plastic Recycling; 1.16 Conclusions; References; Further Reading; 2 Polyurethane Foam Chemistry; 2.1 History; 2.2 Raw Materials; 2.3 Isocyanates
505 8 $a2.4 Polyols2.5 PU Foams; 2.5.1 Flexible Slabstock; 2.5.2 Flexible Cold Cure Molding; 2.5.3 Rigid Foams; 2.5.4 Microcellular or Footwear Foams; 2.5.5 Elastomeric Applications; 2.6 Blowing Agents; 2.6.1 Physical Blowing Agents; 2.6.2 Chemical Blowing Agents; 2.6.3 Mixed Physical/Chemical Blowing Agents; 2.7 Manufacturing of PU Foams; 2.7.1 Slabstock Method; 2.7.2 Molding Method; 2.8 Properties of PU Foams; 2.8.1 Foam Is a Good Air Sealant; 2.8.2 Closed-Cell Foam Has Very High Resistance Toward Water Vapor Permeation; 2.8.3 Closed-Cell Foam Resists Damages From Short-Term Wet Conditions
650 0 $aPlastics$xRecycling.
650 0 $aPolyurethanes.
650 7 $aTECHNOLOGY & ENGINEERING$xChemical & Biochemical.$2bisacsh
650 7 $aPlastics$xRecycling.$2fast$0(OCoLC)fst01066615
650 7 $aPolyurethanes.$2fast$0(OCoLC)fst01070827
655 4 $aElectronic books.
700 1 $aThomas, Sabu,$eeditor.
700 1 $aRane, Ajay V.,$d1987-$eeditor.
700 1 $aKanny, Krishnan,$eeditor.
700 1 $aV. K., Abitha,$eeditor.
700 1 $aThomas, Martin George,$eeditor.
776 08 $iPrint version:$z0323511333$z9780323511339$w(OCoLC)1000046573
830 0 $aPDL handbook series.
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio13726100$zACADEMIC - Plastics & Rubber
880 8 $6505-00/(S$a2.8.4 Binding Strength of Foam2.8.5 Structural Advantages of Foams; 2.9 Thermal Conductivity; 2.9.1 Thermal Conductivity and Thermal Resistance of Insulating Materials; 2.9.2 Thermal Conductivity of Rigid PU Foam (PUR/PIR); 2.10 The R-Value of PU Foam Is Higher Than Other Types of Insulations; 2.11 Mechanical Properties of PU Foams; 2.11.1 Density; 2.11.2 Compressive strength σ·m; 2.11.3 Continuous Compressive Stress σ c (Compressive Creep); 2.11.4 Tensile Strength Perpendicular to Faces σmt, Shear Strength, and Bending Strength σb; 2.11.5 Flammability of PU Foams
852 8 $blweb$hEBOOKS