Institution
Imperial Chemical Industries
About: Imperial Chemical Industries is a based out in . It is known for research contribution in the topics: Alkyl & Catalysis. The organization has 8189 authors who have published 7809 publications receiving 190252 citations. The organization is also known as: Imperial Chemical Industries Ltd.
Topics: Alkyl, Catalysis, Alkoxy group, Polymer, Coating
Papers published on a yearly basis
Papers
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TL;DR: The flow properties of polymer melts containing fillers of various shapes and sizes have been examined in this paper, and the modulus enhancement for randomly distributed filler is equal to the melt viscosity enhancement under medium shear stress conditions (104 Nm−2) in simple shear flow or in oscillatory shear fluid flow.
Abstract: The flow properties of polymer melts containing fillers of various shapes and sizes have been examined. If there is no failure of either the filler or polymer in the solid state, then the modulus enhancement for randomly distributed filler is equal to the melt viscosity enhancement under medium shear stress conditions (104 Nm−2) in simple shear flow or in oscillatory shear flow. Submicron-size fillers, in particular, can form weak structures in the melt that greatly increase the low shear rate viscosity without changing the modulus of the solid proportionately. The highly pseudo-plastic nature of polymer melts at shear stresses of 106 Nm−2 means that, even without orientation of filler particles toward the flow direction, the viscosity enhancement is less than at lower shear stresses.
79 citations
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01 Jun 196179 citations
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TL;DR: A chromatographic method of bioassay used in the later work gave more substantial evidence that the antibiotic produced in the soil was, in fact, gliotoxin.
Abstract: Conditions affecting the production of gliotoxin by a strain of Trichoderma viride, known to produce this antibiotic in synthetic culture media, were studied in two types of soil, a highly acid, sandy podsol from Wareham Heath and a less acid garden soil. High yields of an antibiotic substance, which results from bioassays showed to be similar to gliotoxin, were obtained from both inoculated soils when autoclaved and supplemented with organic material. The autoclaved soils behaved differently when unsupplemented; Wareham soil supported production of the antibiotic but little or none was produced in the garden soil. No antibiotic activity could be demonstrated in soil which had not been inoculated with T. viride.
Acidification of unsupplemented garden soil by addition of sulphuric acid had a favourable effect on production of the antibiotic, but raising the pH of Wareham soil by addition of calcium hydroxide also increased the yield. These effects, therefore, cannot be due simply to the change in pH of the soil.
The beneficial effect of autoclaving the soil on production of the antibiotic assumed to be gliotoxin was analysed and separated into three distinct effects, elimination of the microflora, increase in availability of nitrogen compounds and increase in available carbon compounds. The last effect was considered to be of greatest significance.
The antibiotic was produced in normal Wareham soil if supplemented with additional carbon compounds, but not in garden soil unless this had also been acidified before inoculation. A chromatographic method of bioassay used in the later work gave more substantial evidence that the antibiotic produced in the soil was, in fact, gliotoxin.
79 citations
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TL;DR: In this paper, it was shown that the density of non-crystalline material increases with orientation, so that density measurements based on the concept of constant non-polyhedral density are inevitably in error when applied to oriented poly(ethylene terephthalate) fibres.
79 citations
Authors
Showing all 8189 results
Name | H-index | Papers | Citations |
---|---|---|---|
Richard A. Dixon | 126 | 603 | 71424 |
Donald Mackay | 103 | 468 | 35105 |
Graham J. Hutchings | 97 | 995 | 44270 |
George E. P. Box | 94 | 276 | 131808 |
Ian Kimber | 91 | 620 | 28629 |
Ian D. Wilson | 80 | 594 | 33379 |
Paul D. Beer | 76 | 544 | 27398 |
Philip J. White | 75 | 314 | 26523 |
Vernon C. Gibson | 71 | 340 | 22163 |
A. Keller | 62 | 304 | 14920 |
Michael Bowker | 62 | 304 | 12119 |
Brian Vincent | 59 | 228 | 13366 |
Brian P. Griffin | 56 | 373 | 14337 |
Manfred Bochmann | 56 | 331 | 12573 |
Diana Anderson | 54 | 323 | 16177 |