01164nam 2200337Ia 450 99638311350331620221102113619.0(CKB)1000000000580621(EEBO)2269046516(OCoLC)43077577(EXLCZ)99100000000058062119991222d1699 uy |engurbn||||a|bb|Remarks on the observations, offer'd by a true English-man[electronic resource] who is not a sailor, tho' of long service in the navyLondon Printed, and sold by the book-sellers of London and Westminster16991 sheet (2 p.)Title from caption.Imprint from colophon.Reproduction of original in: Newberry Library, Chicago, Illinois.eebo-0101AdmiraltyEnglandEarly works to 1800BroadsidesLondon (England)17th century.rbgenrAdmiraltyEAEEAEWaOLNBOOK996383113503316Remarks on the observations, offer'd by a true English-man2317982UNISA07967nam 2200493 450 991058338310332120200116064654.00-323-39619-40-323-39500-7(CKB)4100000003836604(MiAaPQ)EBC5396575(PPN)233903402(EXLCZ)99410000000383660420190227d2018 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierIntroduction to plastics engineering /Anshuman ShrivastavaOxford, United Kingdom ;Cambridge, MA :William Andrew, an imprint of Elsevier,[2018]©20181 online resource (264 pages)Plastics Design Libraryebook version : 9780323396196 Machine generated contents note: 1.Introduction to Plastics Engineering -- 1.1.Introduction to Plastics -- 1.2.Plastics Engineering -- 1.3.Concept of Macromolecules and Polymers -- 1.4.Sources of Polymers -- 1.4.1.Natural -- 1.4.2.Synthetic -- 1.4.3.Semisynthetic or Regenerated -- 1.5.Thermoplastics and Thermosets -- 1.6.Morphology of Plastics -- 1.6.1.Crystalline Materials -- 1.6.2.Amorphous Polymers -- 1.6.3.Semicrystalline Polymers -- 1.7.Temperature Dependency of Polymers -- 1.7.1.Glass Transition and Melting Temperatures -- 1.7.2.Flexible and Rigid Behavior -- 1.8.Commodity and Engineering Plastics -- 1.9.Regulations -- References -- 2.Polymerization -- 2.1.Introduction to Polymerization -- 2.2.Polymerization Mechanisms -- 2.2.1.Addition or Chain Polymerization -- 2.2.2.Condensation or Step-Growth Polymerization -- 2.2.3.Ring-Opening Polymerization -- 2.2.4.Other Mechanisms -- 2.3.Polymer Structure -- 2.3.1.Linear, Branched, and Crosslinked PolymersNote continued: 2.3.2.Copolymer Arrangements -- 2.3.3.Elastomers -- 2.3.4.Stereochemistry and Tacticity -- 2.4.Molecular Weight -- 2.4.1.Number Average Molecular Weight -- 2.4.2.Weight Average Molecular Weight -- 2.4.3.Viscosity Average Molecular Weight -- 2.4.4.Z-Average Molecular Weight -- 2.4.5.Polydispersity Index -- 2.5.Degree of Polymerization -- 2.6.Nomenclature -- 2.6.1.Source-Based Nomenclature -- 2.6.2.Structure-Based Nomenclature -- 2.6.3.Trade Names, Brand Names, and Abbreviation -- References -- Further Reading -- 3.Plastic Properties and Testing -- 3.1.Introduction -- 3.2.Identification of Polymers -- 3.2.1.Screening Test for Common Household Plastics -- 3.2.2.Composition Identification Through Spectroscopy -- 3.3.Physical Properties -- 3.3.1.Density -- 3.3.2.Particle Size -- 3.3.3.Ash Content -- 3.4.Mechanical Properties -- 3.4.1.Stress, Strain, and Deformation -- 3.4.2.Creep and Stress Relaxation -- 3.5.Friction and Wear Resistance -- 3.5.1.FrictionNote continued: 3.5.2.Wear Resistance -- 3.6.Polymer Rheology -- 3.6.1.Viscosity -- 3.7.Thermal Behavior -- 3.7.1.Heat Capacity or Specific Heat -- 3.7.2.Thermal Expansion/Contraction -- 3.7.3.Working Temperatures -- 3.7.4.Thermal Conductivity -- 3.8.Flammability, UL94 -- 3.8.1.Limiting Oxygen Index -- 3.8.2.Autoignition Temperatures -- 3.9.Chemical Properties -- 3.9.1.Chemical Resistance -- 3.9.2.Solubility -- 3.9.3.Permeability -- 3.10.Electrical Properties -- 3.10.1.Dielectric Constant and Dissipation Factor -- 3.10.2.Dielectric Strength -- 3.10.3.Surface and Volume Resistivity -- 3.11.Optical Properties -- 3.11.1.Refractive Index -- 3.11.2.Color -- 3.11.3.Gloss -- 3.11.4.Haze -- 3.11.5.Yellow Index -- 3.11.6.Birefringence -- 3.12.Acoustics -- 3.12.1.Sound Absorption -- 3.12.2.Sound Reflection -- 3.13.Radiation Resistance -- 3.14.Effect of Processing on Properties -- 3.14.1.Processing Temperatures -- 3.14.2.Residence Time -- 3.14.3.ShearNote continued: 3.14.4.Drying Temperatures -- 3.14.5.Equipment Condition -- 3.15.List of Testing Standards (ASTM and ISO) -- References -- Further Reading -- 4.Additives for Plastics -- 4.1.Fillers and Reinforcements -- 4.1.1.Cost Reduction -- 4.1.2.Filler Terminology -- 4.1.3.Surface Treatments of Fillers -- 4.1.4.Specific Fillers -- 4.1.5.Nanofillers -- 4.2.Property Modifiers -- 4.2.1.Plasticizers -- 4.2.2.Impact Modifiers -- 4.2.3.Colorants -- 4.2.4.Optical Brighteners -- 4.2.5.Nucleating and Clarifying Agents -- 4.2.6.Antifogging Agents -- 4.2.7.Antimicrobials and Biocides -- 4.2.8.Antioxidants and Light Stabilizers -- 4.2.9.Odorants -- 4.2.10.Adhesion Promoters and Coupling Agents -- 4.2.11.Hydrolysis Resistant and Acid Scavengers -- 4.2.12.Metal Deactivators -- 4.2.13.Coatings and Surface Improvers -- 4.2.14.Curing and Crosslinking Agents -- 4.2.15.Flame Retardants -- 4.2.16.Conductive Fillers -- 4.3.Processing Aids -- 4.3.1.Lubricating AdditivesNote continued: 4.3.2.Slip Agents -- 4.3.3.Acid Scavengers -- 4.3.4.Blowing Agents -- 4.4.Polymer Blends -- 4.4.1.Miscible and Nonmiscible Blends -- 4.5.Legislation and Testing -- 4.6.Global Market Projection -- References -- Further Reading -- 5.Plastics Processing -- 5.1.Material Processing -- 5.2.Extrusion -- 5.2.1.Single and Twin Screw Extruders -- 5.2.2.Extrusion Dies -- 5.3.Injection Molding -- 5.3.1.Reaction Injection Molding -- 5.3.2.Gas-Assisted Injection Molding -- 5.4.Blow Molding -- 5.4.1.Extrusion Blow Molding -- 5.4.2.Injection Blow Molding -- 5.4.3.Stretch Blow Molding -- 5.5.Compression Molding -- 5.6.Transfer Molding -- 5.7.Rotational Molding -- 5.8.Thermoforming -- 5.9.Calendering -- 5.10.Coating -- 5.11.Foaming -- 5.11.1.Microcellular Foaming -- 5.12.Pultrusion -- 5.13.Process Monitoring -- 5.14.Rapid Prototyping -- References -- Further Reading -- 6.Plastics Part Design and Application -- 6.1.Plastics Part Designing Process -- 6.2.Safety FactorNote continued: 6.3.Material Selection -- 6.3.1.Material Properties -- 6.4.Process Selection -- 6.4.1.Processing Properties of Materials -- 6.5.Structural Design -- 6.5.1.Design for Stiffness -- 6.5.2.Design for Strength -- 6.6.Designing for Assembly of Plastic Parts -- 6.6.1.Joining of Plastics Components -- 6.6.2.Mechanical Fasteners -- 6.6.3.Bonding -- 6.6.4.Welding -- 6.6.5.Plastic Assembly Method Selection -- 6.7.Finishing -- 6.8.Prototyping -- 6.8.1.Prototype Parts -- 6.8.2.Rapid Tooling -- References -- 7.Environmental Aspects of Plastics -- 7.1.Introduction -- 7.2.Weathering of Plastics -- 7.2.1.Physical Effects of Weathering on Plastic Parts -- 7.2.2.Chemical Effects of Weathering on Plastic Parts -- 7.3.Accelerated Weathering Testing -- 7.4.Environment Toll of Using Plastics -- 7.4.1.Plastics Consumption -- 7.4.2.Plastic Recycling and Landfills -- References.Introduction to Plastics Engineering provides a single reference covering the basics of polymer and plastics materials, and their properties, design, processing and applications in a practical way. The book discusses materials engineering through properties formulation, combining part design and processing to produce final products. This book will be a beneficial guide to materials engineers developing new formulations, processing engineers producing those formulations, and design and product engineers seeking to understand the materials and methods for developing new applications. The book incorporates material properties, engineering, processing, design, applications and sustainable and bio based solutions. Ideal for those just entering the industry, or transitioning between sectors, this is a quick, relevant and informative reference guide to plastics engineering and processing for engineers and plastics practitioners.PDL handbook series.PlasticsPlastics.668.4Shrivastava Anshuman857467MiAaPQMiAaPQMiAaPQBOOK9910583383103321Introduction to plastics engineering1914591UNINA