W. W. Wright
Royal Aircraft Establishment
5 Papers
45 Citations
W. W. Wright is an academic researcher from Royal Aircraft Establishment. The author has contributed to research in topics: Polymer & Thermal stability. The author has an hindex of 5, co-authored 5 publications.
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Papers
Preparation and fabrication of aromatic polyimides
R. A. Dine-Hart,W. W. Wright +1 more
TL;DR: Aromatic polyimides were prepared from pyromellitic dianhydride and a number of aromatic diamines as discussed by the authors, and the effect of certain variables on the polymerization to, and the degradation of, the intermediate polypyromellitamic acids was studied.
219
Thermal degradation of polymers with aromatic rings in the chain
TL;DR: The thermal degradation in vacuum of polymers containing aromatic or heterocyclic rings linked by various groups has been studied by a weight loss method as mentioned in this paper, and the most stable of the polymers examined were those with CO, mixed SO2 and O, orSO2 linkages.
36
Thermal degradation of poly(phenylene oxides)
TL;DR: The thermal degradation in vacuum of a number of halogenated poly(phenylene oxide) polymers has been studied by a weight loss method as discussed by the authors, showing that the chloro derivatives were relatively more stable than the corresponding bromo derivatives.
22
Thermal degradation in oxygen of polymers with aromatic rings in the chain
Joyce M. Lancaster,W. W. Wright +1 more
TL;DR: In this paper, the thermal degradation in oxygen of fifteen polymers containing aromatic rings in the chain has been studied by a weight loss method and the relative thermal stabilities of the different polymers have been determined and, where possible, the overall activation energy for breakdown.
8
Thermal degradation of fluorine‐containing polymers. Part I. Degradation in vacuum
TL;DR: In this paper, the thermal degradation in oxygen of a number of fluorine-containing polymers has been studied by using a weight loss technique and the relative thermal stabilities of the different polymers have been determined and, where possible, the overall activation energy and frequency factors for their breakdown.