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EMA6165-lect-13
Course: EMA 6165, Spring 2011School: University of Florida
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University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2005EMA 6165 - EXAM ISTUDENT UFID#:_(use the NEW UF ID No. )INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions you use i
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2005EMA 6165 - EXAM ISTUDENT UFID#:_(use the NEW UF ID No. )INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions you use i
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2005EMA 6165 - EXAM 2STUDENT UFID#:_(use the NEW UF ID No. )INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions you use i
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2007EMA 6165 - EXAM ISTUDENT UFID#:_(use the NEW UF ID No.)INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions you use in
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2007EMA 6165 - EXAM 2STUDENT UFID#:__(UF ID No.)INSTRUCTIONS: Read the entire exam carefully. Answer every question to thebest of your ability, based upon the available information. Stateall assumptions used to answer/solve
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2007EMA 6165 - EXAM 3STUDENT UFID#:__(UF ID No.)INSTRUCTIONS: Read the entire exam carefully. Answer every question to thebest of your ability, based upon the available information. Stateall assumptions used to answer/solve
University of Florida - EMA - 6165
EVALUATIONFORMforEMA6165,SPRING2001POLYMERPHYSICSProfessorA.B.BrennanOffice:317DMAETel: 39262813CreditsMWFPeriod5Room:CSEE118ANSWEREACHQUESTIONTOTHEBESTOFYOURABILITY!YouHave10Minutes1.DefinetheFloryHugginsEquation:2.DefineaGaussianChain:3.G
University of Florida - EMA - 6165
EMA6165,Section1713SPRING1999POLYMERPHYSICSRESEARCHPROPOSALProfessorA.B.BrennanOffice:317DMAETel: 39262813CreditsMWF,PERIOD4Room:CSE118BTheobjectiveofaresarchproposalistodemonstrateaproficiencyinaparticulartechnicalarea. Thisparticularproposalis
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
University of Florida - EMA - 6165
Polymer Physical ScienceEMA 6165 Sections DEPT, EDGEProfessor Anthony B. BrennanUniversity of FloridaMaterials Science & Engineering1. Polymer Physics2. Pre-requisites: Baccalaureate degree or equivalent Chemistry,Engineering, Physics, or equivalen
University of Florida - EMA - 6165
Polymer Physical ScienceEMA 6165 Sections DEPT, EDGEProfessor Anthony B. BrennanUniversity of FloridaMaterials Science & Engineering1. Polymer Physics2. Pre-requisites: Baccalaureate degree or equivalent Chemistry,Engineering, Physics, or equivalen
University of Florida - EMA - 6165
Equations for Polymer Physics/ProcessingRubber Elasticity:Thermodynamics of Mixing = NV kT ( 2 )==RT 2 M C 1 ( 2 )MC Mo RT 13 ( 2 )MC( 0x = N v kT x x 3y 20 x0 x2 H m = N 1 2 1, 2 k T 12G mix = RT ln(1 2 ) + 1 2 + 1 2 x)1= x 2
University of Florida - EMA - 6165
Rubber Elasticity:[]Thermodynamics of MixingCrystallization & KineticsPhysical Aging Behavior/ViscoelasticityGeneral ThermodynamicsChain Dimensions/Molecular Weight2[] =2.5 4 Reo3 M32M123Viscoelasticity and MechanicsFluid Dynamics (Rheolo
University of Florida - EMA - 6165
H = E + PV HE V P = + + l T, P l T, P l T, P l T, P V 10 4 for a good elastomer l =1 V V T P ,lP= 1 V V P l ,T P = T V ,lV = 0E ~ f ( l ,V ) E E dV + dldE = V l ,T l T ,V E E V E l = + l T ,P V l ,T l T , P l T
University of Florida - EMA - 6165
POLYMER PHYSICS - Spring 2003EMA 6165 EXAM ISTUDENT UFID#:_(use the NEW UF ID No.)INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions you use in a
Fabrication of superhydrophobic-PDMS-surfaces-by-acidic-treatment-and-perfluorinated-monolayers-Lang
University of Florida - EMA - 6165
pubs.acs.org/Langmuir 2009 American Chemical SocietyFabrication of Superhydrophobic PDMS Surfaces by Combining AcidicTreatment and Perfluorinated MonolayersElisabeth Patricia Taffin de Givenchy, Sonia Amigoni, Cdric Martin, Guillaume Andrada,eLauren
University of Florida - EMA - 6165
Student Number:_INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions in answers.SECTION I: Polymer Structures/Properties. (2 pts each/8 pts total)1.
University of Florida - EMA - 6165
Student Number:_INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions in answers.SECTION I: Polymer Structures/Properties. (2 pts each/8 pts total)1.
University of Florida - EMA - 6165
Student Number:_INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions in answers.SECTION I: Polymer Structures/Properties. (2 pts each/8 pts total)1.
University of Florida - EMA - 6165
Student Number:_INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions in answers.SECTION I: Polymer Structures/Properties. (2 pts each/8 pts total)1.
University of Florida - EMA - 6165
Student Number:_INSTRUCTIONS: Read the entire exam carefully. Answer every question to the best of your ability, basedupon the available information. State all assumptions in answers.SECTION I: Polymer Structures/Properties. (2 pts each/8 pts total)1.
University of Florida - EMA - 6165
JAMESA . MAY,JR.,A ND WILLIAM . SMITHB216Polymer Studies by G el Permeation Chromatography. 11.The Kinetic Parameters for Styrene Polymerizations1by James A. May, Jr., and William B. SmithDepartment of Chemistry, Texas Christian University, Forth wo
University of Florida - EMA - 6165
A Guide to Polymer Thermal PropertiesPolymerAcrylonitrile-butadienestyrene copolymerStructureHCH2CHHCCH2CTg(C)*CH2CH2CH88 120Tm(C)*NACNCH2Poly(acetal)O181CH3Poly(methyl methacrylateCH2105CCOCH3OCH2Poly(arylonitrile)
University of Florida - EMA - 6165
Langmuir 2005, 21, 240-250240Free Energy of Mixing of Cross-Linked Polymer BlendsChowdhury K. MamunDepartment of Chemical Engineering, University of Texas at Austin, Austin, Texas 78712Received June 20, 2004. In Final Form: November 1, 2004Free ener
University of Florida - EMA - 6165
EMA 6165 Polymer PhysicsRubber ElasticityLecture 11Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaIntroductionThermo-Elastic BehaviorStat
University of Florida - EMA - 6165
Polymer PhysicsPolymerOverview Lecture Notes 1Lecture 1Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB Brennan 8/20081Syllabus and ScheduleSyllabusSyllabus
University of Florida - EMA - 6165
Polymeric MaterialsStructure-Property BehaviorDr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaOverview of PlasticsGeneral ClassificationsSt
University of Florida - EMA - 6165
Polymer PhysicsChain ConformationsLecture 3Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaRotational StatesBond Rotational EnergeticsSpatial RelationshipsChara
University of Florida - EMA - 6165
Polymeric MaterialsModels for Calculating Chain Models Dimensions DimensionsDr. Anthony BrennanUniversity of Florida Department of Materials Science & EngineeringEMA 6165 Polymer Physics AB Brennan EMA1Agenda Rotational States Bond Rotational Ener
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsChain StatisticsChainDr. Anthony BrennanDr.University of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaRotational StatesBond Rotational Energet
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsRandom - Flight AnalysisLecture 7Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaRotational StatesBond Rotational EnergeticsSpatial Rel
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsRubber ElasticityLecture 8Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaIntroductionThermo-Elastic BehaviorSta
University of Florida - EMA - 6165
EMA 6165 Polymer PhysicsRubber ElasticityLecture 10LectureDr. Anthony BrennanDr.University of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaIntroductionThermo-Elastic B
University of Florida - EMA - 6165
EMA 6165 Polymer Physics Rubber Elasticity Lecture 11Dr. Anthony Brennan University of Florida Department of Materials Science & EngineeringEMA 6165 Polymer Physics AB Brennan 1Agenda Introduction Thermo-Elastic Behavior Statistical Mechanical Approach
University of Florida - EMA - 6165
EMA 6165 Polymer PhysicsRubber ElasticityLecture 12Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaIntroductionThermo-Elastic BehaviorStat
University of Florida - EMA - 6165
EMA 6165 Polymer PhysicsSwollen NetworksRubber ElasticityLecture 13Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1AgendaIntroductionThermo-Elastic BehaviorStatistica
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsPolymer SolubilityLecture 15Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &EngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Introduction Free Energy of Mixing Entropic Contributions
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsPolymer SolubilityLecture 16 Dr. Anthony BrennanUniversity of Florida Department of Materials Science & EngineeringEMA 6165 Polymer Physics AB Brennan EMA1Agenda Introduction Free Energy of Mixing Entropic Contributions E
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsPolymer SolubilityLecture 17 Dr. Anthony BrennanUniversity of Florida Department of Materials Science & EngineeringEMA 6165 Polymer Physics AB Brennan EMA1Agenda Introduction Free Energy of Mixing Entropic Contributions En
University of Florida - EMA - 6165
Polymeric MaterialsPolymer-Polymer CompatibilityLecture 18Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Introduction Free Energy of Mixi
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsGlass TransitionLecture 19Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Glass Transition values OrganicOrgani
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsGlass Transition TrendsLecture 20Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science &DepartmentEngineeringEngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Glass Transition values Organic
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsGlass TransitionLecture 21Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Glass Transition values OrganicOrganic InorganicInorganic
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsGlass TransitionLecture 22 Dr. Anthony Brennan University of Florida, Gainesville, FL Department of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Glass Transition values OrganicOrganic
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsGlass TransitionLecture 23Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Glass Transition values OrganicOrganic InorganicInorganic
University of Florida - EMA - 6165
EMA 6165 - Polymer PhysicsGlass TransitionLecture 24Dr. Anthony BrennanUniversity of FloridaDepartment of Materials Science & EngineeringEMA 6165 Polymer Physics AB BrennanEMA1Agenda Glass Transition values OrganicOrganic InorganicInorganic