Physical polymers

We also attempt to distinguish between surface physical chemistry and colloid and polymer physical chemistry. This distinction is not always possible, and clearly many of the features of physical chemistry of surfaces, such as the electrostatic interactions and adsorption of macromolecules, have a significant... 

P. G. de Gennes, Scaling Concepts in Polymer Physics, Cornell University Press, Ithaca, NY. 1979. 

Kremer K 1996 Computer simulation methods for polymer physics Monte Carlo and Molecular Dynamics of Condensed Matter Systems vol 49, ed K Binder and G Ciccotti (Bologna Italian Physical Society) pp 669-723... 

De Gennes P G 1979 Scaling Concepts In Polymer Physics (Ithaca, NY Cornell University Press) p 113... 

H. Kleinert, Path integrals in quantum mechanics, statistics and polymer physics , World Scientific, Singapore, 1995, chapters 18.5 and 18.6. 

Favorable polymer physical properties include water solubiUty and sample purity. Environmental conditions to consider in evaluating biodegradabihty are temperature, pH, moisture, oxygen, nutrients, suitable microbial population (fungal, algae, bacterial), concentration, and test duration. 

M. Ah and B. Muller, The Effect of Different Pigment Classes andMdditives on Polymer Physicals, Accurate Color, SPE CAD RETEC, 1983. 

Physical and Chemical Properties. The reaction of urea and formaldehyde forms a white soHd. The solubihty varies with the methylene urea polymer chain length longer-chain, higher molecular-weight UF polymers are less water-soluble than short-chain polymers. Physical properties of the methylene urea polymers which have been isolated are compared to urea in Table 1. 

These researchers have pointed out that the basic principles of polymer physics apply to tackified elastomers, such as natural rubber. Thus the Tg relationship provided by the Fox-Flory equation applies ... 

H. Kleinert. Path Integrals in Quantum Mechanics, Statistics and Polymer Physics. Singapore World Scientific, 1990. 

K. Binder. General aspects of computer simulation techniques and their applications in polymer physics. In K. Binder, ed. Monte Carlo and Molecular Dynamics Simulations in Polymer Science. New York Oxford University Press, 1995, pp. 3 1. 

De Gennes P-G (1979) Scaling concepts in polymer physics. Cornell Univ Press, Ithaca, NewYork... 

Kashiwabra, H., Shimada, S., Hori, Y. and Sakaguchi, M. ESR Application to Polymer Physics — Molecular Motion in Solid Matrix in which Free Radicals are Trapped. Vol. 82, pp. 141 -207. 

Muller AJ, Odell JA, Carrington S (April 1991) In Degradation of polymer solutions in extensional flow, Proceedings of the polymer physics a Conference to mark the retirement of A Keller, Bristol UK 3-5... 

The aim of this review article is to discuss the type of information which can be obtained concerning orientation in polymers by spectroscopic methods and to select examples which illustrate key problems in the area of polymer physics. 

The topic of molecular motion is an active one in experimental and theoretical polymer physics, and we may expect that in time the simple reptation model will be superseded by more sophisticated models. However, in the form presented here, reptation is likely to remain important as a semi-quantitative model of polymer motion, showing as it does the essential similarity of phenomena which have their origin in the flow of polymer molecules. 

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