N. J. Ward scite author profile

N. J. Ward

5Publications

60Citation Statements Received

81Citation Statements Given

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Affiliations

University of Bradford

Publications

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Experimental and Theoretical Studies of the Molecular Motions in Polymer Crazing. 1. Tube Model

Han¹,

McLeish²,

Duckett³

et al. 1998

Macromolecules

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A theoretical model has been developed to calculate the craze surface energy for monodisperse linear polymers based on the "tube model" of polymer melts. This model, which is a refinement of models previously proposed, assumes that the essential molecular processes of chain scission and disentanglement occur in the "active zone"sa region of thickness greater than or equal to the chain radius of gyration, situated at the interface between craze and bulk polymer. At high temperatures, greater than a critical temperature, T > Ttr, craze growth occurs by stress-assisted chain disentanglement; below a second critical temperature, Tcr, craze growth occurs by chain scission. Between these critical temperatures, which are molecular weight and strain-rate dependent, craze growth involves both scission and disentanglement. New experimental data on craze growth in monodisperse, linear polystyrene over a range of temperatures at two strain rates are presented, which are well described by the new theory. The theory describes all features of the data with only one fitting parameter, including small peaks observed in the crazing strain/temperature graphs in the mixed-mode region. Similar features have been reported recently in craze data from poly(methyl methacrylate) without explanation.

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The blend rheology of some linear and branched polymers

Groves

McLeish²,

Ward³

et al. 1998

Polymer

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Spectroscopic studies of an ambient-pressure process for the selective hydrogenation of polybutadienes

Edwards¹,

Farwell²,

Johnson³

et al. 1992

Macromolecules

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The effectiveness of a low-pressure hydrogenation process for the selective hydrogenation of the vinyl-1,2, cis-1,4, and trans-1,4, structural units in high molecular weight polybutadienes has been explored using NMR, FT-IR, and Raman spectroscopy. The spectroscopic results indicate that it is possible to monitor the hydrogenation process by analysis of partially hydrogenated polybutadienes. The NMR measurements have made it possible to see the incorporation of an aromatic impurity in the polymer which results from a side reaction during hydrogenation. The first report is made of the use of Raman spectroscopy for analyzing the hydrogenation of a polydiene, and it is shown that FT-IR represents an improvement on earlier dispersive measurements of these processes.

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Application of Raman Spectroscopy for Determining Residence Time Distributions in Extruder Reactors

et al. 1996

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Drawing and orientation-relaxation behaviour of monodisperse linear and 3-arm star polystyrenes

Han

Duckett

McLeish

et al. 1997

Polymer

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N. J. Ward

Experimental and Theoretical Studies of the Molecular Motions in Polymer Crazing. 1. Tube Model

The blend rheology of some linear and branched polymers

Spectroscopic studies of an ambient-pressure process for the selective hydrogenation of polybutadienes

Application of Raman Spectroscopy for Determining Residence Time Distributions in Extruder Reactors

Drawing and orientation-relaxation behaviour of monodisperse linear and 3-arm star polystyrenes

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