Annual ReportU.S. Department of Commerce, National Bureau of Standards, 1979 - Plastics |
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Page ii
... Lattice Model : A Model for Interacting Polymer Molecules ; D. H. Lohse and I. C. Sanchez - Phase Transition Behavior of the Isolated Polymer Chain ; I. C. Sanchez - Dynamics of Polymer Chains ; P. H. Verdier and D. E. Kranbuehl ...
... Lattice Model : A Model for Interacting Polymer Molecules ; D. H. Lohse and I. C. Sanchez - Phase Transition Behavior of the Isolated Polymer Chain ; I. C. Sanchez - Dynamics of Polymer Chains ; P. H. Verdier and D. E. Kranbuehl ...
Page 10
... lattice energy of a given orientational site is assumed to be proportional to the fraction of molecules having that orientation . An analytical solution was obtained for the 2 - site model which predicts polarization hysteresis typical ...
... lattice energy of a given orientational site is assumed to be proportional to the fraction of molecules having that orientation . An analytical solution was obtained for the 2 - site model which predicts polarization hysteresis typical ...
Page 22
... Lattice Model : A Model for Interacting Polymer Molecules D. H. Lohse1 and I. C. Sanchez We have considered the statistical mechanics of N indistinguishable particles distri- buted on a lattice of w sites . The model is a generalization ...
... Lattice Model : A Model for Interacting Polymer Molecules D. H. Lohse1 and I. C. Sanchez We have considered the statistical mechanics of N indistinguishable particles distri- buted on a lattice of w sites . The model is a generalization ...
Page 23
... lattice site . The potential energy E of the system is assumed to be given by E = m En Σ ωηεπ n = 0 where w wn is the number of lattice sites ( cells ) containing n particles and En is the potential energy of a cell containing n ...
... lattice site . The potential energy E of the system is assumed to be given by E = m En Σ ωηεπ n = 0 where w wn is the number of lattice sites ( cells ) containing n particles and En is the potential energy of a cell containing n ...
Page 24
... lattice system as in the non - lattice system . The process of translating the N spheres to their respective cell centers does not alter the mean value of the total covolume . It is this isomorphic property that makes this lattice model ...
... lattice system as in the non - lattice system . The process of translating the N spheres to their respective cell centers does not alter the mean value of the total covolume . It is this isomorphic property that makes this lattice model ...
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alloys antioxidant ASTM B. M. Fanconi behavior bonding characterization chemical chromatography composite crystalline crystals D. H. Reneker D. L. VanderHart Dental Dental Composite dependence determine developed dielectric diffusion coefficients durability effects elastic modulus elastomers Electrical Electrical Insulating electrodes energy fibers fluoride G. B. McKenna G. M. Brauer Gel Permeation Chromatography hydrophone I. C. Sanchez implant interaction intrinsic viscosity J. A. Tesk J. M. Cassel L. E. Smith L. J. Zapas lattice M. G. Broadhurst Macromolecules McCrackin measurements methacrylate migration molecules monomer oxidation parameters permeation Peterlin phase physical piezoelectric Piezoelectric Polymer plastics polarization poly polyethylene Polymer Chain polymer films Polymer Science polymer solutions Polymeric polyolefins polypropylene polystyrene polyurethane pulp PVDF PVF2 pyroelectric R. J. Rubin R. K. Eby Research rubber samples Science and Standards solvent specimens Standards Division stress structure surface techniques temperature thermal Thermogravimetry Toluene transducers UHMWPE Viscoelastic viscosity