Computer Applications in Applied Polymer Science: II

Computer Applications in Applied Polymer Science: Where It Is and Where It's Going; Data Management, Analysis, and Reporting Alternatives for Laboratory Instrumentation; Microcomputer Programs for Size Exclusion Chromatography; Role of Intelligent Robotics in Materials Evaluation; Development of a Fully Automated Tensile and Flexure Test System; Recursive Techniques in Property Information Retrieval and Calculation for Computer-Aided Formulation; Expert System for Selecting Chemical Protective Clothing; Application of Statistical Experimental Design to Development of Low-Density Polymer Foams; Statistical Analysis of Coatings Degradation by Time-Series Methods; Optimizing Solvent Recovery Systems in Polymer Processes; A Molecular View of Bulk Deformation; Kinetic Model for Tensile Deformation of Polymers; Mathematical Modeling of Forming and Performance of Plastic Materials; Modeling the Effect of Polymer Rheology on the Performance of Underwater Pelletizers; Relative Energetics of Diamino-, Dihydroxy-, and Difluorobenzenes; Automated Software for Analyzing NMR Spectra of Polymers; ' C-NMR Analysis of Multicomponent Polymer Systems; Calculating Network Structure Using Miller-Macosko Theory: Networks with Two Cross-Linking Reactions; Stochastic Description of Copolymerization and Network Formation in a Six-Component, Three-Stage Process; Curing of Polyurethane Coatings: Chemical and Physical Information Processed in a Mathematical Model; Network Formation in Free-Radical Copolymerization: Pseudo Kinetic Rate Constant Method for Copolymers with Long Branches; Optimization of Manufacture of Filament Wound Composite Processing; Applications of Monte Carlo Methods to Sequence Distributions in Polymers; Prediction of Copolymerization Conversion from Reactor Head-Space Vapor Composition; Modeling and Computer Simulation of a Free-Radical Polymerization Finishing Process; Optimization of a Batch Polymerization Reactor at the Final Stage of Conversion; Mathematical Modeling of Bulk and Solution Polymerization in a Tubular Reactor; Mathematical Modeling of Emulsion Copolymerization Reactors; Detailed Modeling of Multicomponent Emulsion Polymerization Systems; Evaluation and Analysis of a Multisite Kinetic Model for Polymerization Initiated with Supported Ziegler-Natta Catalysts; Predicting Rates of Decomposition of Free-Radical Initiators: Azo Compounds, Peresters, and Hydrocarbons; Application of a Modified Accelerating Rate Calorimeter to Decomposition Kinetic Studies; Measurement and Control Hardware for Laboratory-Scale Resin Preparations; Computer Data Logged Pilot-Plant Reactors: Design, Philosophy, and Use; Computer-Based Laboratory for Developing Practical Automated Feedback Control Systems for Batch Polymerizations; Application of Time-Series Analysis to Temperature Control of Semi-Batch Reactors; Modeling and Optimization of Extruder Temperature Control; Reactive Extrusion of Polypropylene: Elucidating Degradation Kinetics; Finite Element Modeling of Polymer Flow and Heat Transfer in Processing Equipment; Filament Winding: Numerical Control