1992 рік

The fraction soluble in boiling heptane of a mixture of polypropylene, polyethylene and ethylene-propylene copolymer was characterized by 13C nuclear magnetic resonance (n.m.r.) combined with temperature-rising elution fractionation. Two mathematical models were used to achieve quantitative analysis of the fractions from n.m.r, triad data. The result indicates that the ethylene-propylene copolymer made with an MgC12/TiCl4-supported catalyst contains two or three major components and that the polypropylene exhibits high compositional heterogeneity. Simulation of the 13C n.m.r, spectrum was successfully used to confirm the results.

Детальніше...  

It is shown that in order to minimize its free energy long chain polymers can assume a helical form with a definite functional relationship between pitch and radius. Although entropic disorder will render its lifetime short and coherence length limited, in processes involving short times and/or distances this helical tendency could very well play a role.

Детальніше...  

The nature of the molecular interactions occurring in an ethylene-propylene copolymer functionalized by succinic anhydride groups has been investigated by using FTi.r. spectroscopy. Hydrogen bonding interactions between carboxylic acid units and between carboxylic acid and anhydride groups have been identified. The mechanical tensile properties of such modified elastomers have been investigated and interpreted in terms of the molecular interactions detected spectroscopically. Finally, the effectiveness of these functionalized rubbers as toughening agents for polyamide-6 has also been examined.

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The electrochemical synthesis of a composite of poly(3-methylthiophene) and poly(acrylonitrile-cobutadiene), nitrilic rubber, is described. The effect of the synthesis conditions on the electrochemical properties of the material was studied by cyclic voltammetry and chronoamperometry. I. r. spectroscopy thermogravimetry, d.s.c., elemental analysis and scanning electron microscopy were used to characterize the inclusion of the conductive polymer in the rubber matrix. The data indicated a low miscibility between the composite components. Stress-strain measurements indicated a toughening of the composite material in relation to the pure rubber. The electrical conductivity of the composite is one order of magnitude lower than that of the pure polymer

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The elastic modulus E l of the crystalline regions of Tussah silk of Antheraea pernyi parallel to the chain axis was determined by X-ray diffraction. The E l value was 20 GPa for both (0 0 2) and (0 0 6) reflections (c axis; chain direction), which is smaller than that of Bombyx mori (23 GPa). The small El for silk fibroin of A. pernyi is attributed to the large cross-sectional area of one molecule in the crystal lattice.

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Simultaneous measurement of infrared dichroism and birefringence was used to study orientational coupling effects between a series of monodisperse polybutadiene oligomers and the surrounding matrix, which consisted of either polybutadiene polymer melt or polybutadiene network. The oligomers had molecular weights ranging from well below the critical molecular weight for entanglement Me, to several times M e. For the oligomer/network system, the magnitude of the coupling coefficient was found to remain constant at about unity over the range of network crosslink densities, oligomer molecular weights and degrees of swelling examined, thereby confirming the D n.m.r, experiments performed on the same samples. For the oligomer/polymer system, orientational coupling effects were examined as a function of oligomer molecular weight and temperature. It was found that unentangled oligomers experienced almost complete coupling, while fully entangled melts were subject to a much lower coupling. In addition, it was found that the magnitude of the coupling is independent of temperature, indicating that these orientation correlations are entropic in nature, arising from the packing entropy of chain segments. An orientational dependent lattice model, proposed originally by DiMarzio, was found suitable for predicting experimental results.

Детальніше...  

The free radical copolymerization of acrylamide (AM) with 3-(2-acrylamido-2-methylpropanedimethylammonio)- l-propanesulphonate (AMPDAPS) has been studied in the range from 99 to 25% AM in the feed. Copolymer compositions obtained by elemental analysis and t ac n.m.r, reflect the monomer feed concentrations. The value of rlr 2 has been determined to be 0.60 for the AM-AMPDAPS pair. Copolymer microstructures, including run numbers and sequence distributions, were calculated from the reactivity ratios. Molecular weights for the series range from 3.0 ? 106 to 21.5 ? 106g mol-1. Second virial coefficients decrease from 2.67 to 0.21 ml mol g 2 as charge density increases. Intrinsic viscosities decrease with increasing AMPDAPS content, but increase with increasing temperature (in the range of 25-60°C) and added electrolytes (NaCI and/or CaC12). The solution behaviour of the homopolymer of AMPDAPS is independent of pH. The observed properties are consistent with the charge density of the polymers and the sulphobetaine structure of the AMPDAPS monomer.

Детальніше...  

This work has demonstrated that microvoids a micrometre or so in diameter, with a volume fraction of ~ 17%, would appear to give a significant increase in the toughness of a thermosetting epoxy polymer

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We have studied the kinetics of spinodal decomposition in a gelatin-water-methanol mixture, which undergoes a sol gel transition simultaneously with phase separation, using light scattering techniques. The kinetics of the sol-gel transition was investigated using falling-ball microviscometry techniques. We found that the kinetics of phase separation depend very strongly on temperature; and for deep quenches, where the rates of phase separation and gelation are comparable, the phase-separation process does not go to completion. Prior to the onset of gelation the initial growth rate of the structure factor can be described according to the Cahn-Hilliard model, even though the wavevector at maximum scattered intensity decreases as km ~ t-o.6. For deep quenches after the onset of gelation, km remains unchanged with time, while the peak intensity exhibits a slow growth. The final domain size, kf~,~, at which the phase-separating morphology becomes pinned decreases with increasing quench depth. Micrographs of the phase-separated domains reveal a connected structure on length scales of a hundred micrometres superimposed on a finer network structure due to gelation.

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Copolymers of furfuryl methacrylate (F) and N-vinylpyrrolidone (P) were prepared by free radical polymerization in N,N-dimethylformamide solution at 50°C, using 2,2'-azobisisobutyronitrile as initiator. The reactivity ratios of both monomers were calculated according to the general copolymerization equation using the Fineman-Ross and Kelen-TiJd6s linearization methods, as well as the Tidwell and Mortimer non-linear least-squares treatment. The reactivity ratios obtained were rF=3.92 and rp=0.004. The microstructure of the copolymer chains is described on the basis of first-order Markov statistics, and the copolymer glass transition temperatures (Tgs) were determined calorimetrically. The variation of Tg with copolymer composition is discussed according to modern methods, considering the sequence distribution of monomeric units along the copolymer chains. Also the Tg of the corresponding homopolymers was determined giving the values Tg(F)=392K and Tg(P)= 358 K, whereas the Tg of the corresponding alternating diad has an average value of Tgvp= 347 K.

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