Institution
Cabot Corporation
Company•Boston, Massachusetts, United States•
About: Cabot Corporation is a company organization based out in Boston, Massachusetts, United States. It is known for research contribution in the topics: Carbon black & Carbon. The organization has 1279 authors who have published 1399 publications receiving 36736 citations.
Topics: Carbon black, Carbon, Alloy, Oxide, Tantalum
Papers published on a yearly basis
Papers
More filters
••
TL;DR: In this article, the authors pointed out that the MAK Commission did not dispute the arithmetical error lowering Model B's GBS limit value erroneously from 2.0 mg/m to 0.5mg/m.
Abstract: Calculation error in the MAK Commission’s document on GBS [3] when using the rule of three in Pauluhn’s volumetric model (we emphasize that the comment did not dispute the arithmetical error lowering Model B’s GBS limit value erroneously from 2.0 mg/m to 0.5 mg/m). Use of an MPPD2 program version in [3] that is outdated and no longer available to enable to replicate the MAK Commission’s conclusions. Input values in [3] that cannot be reproduced from the references listed in [3] or are not state-of-the-art. Inconsistent use of varying input data by the MAK Commission in [3] although explicitly specified as guideline in the same document [3].
108 citations
••
TL;DR: In this article, the authors examined the polishing surfaces of waters and pads, using an optical microscope, scanning electron microscope, atomic force microscope, and other surface analysis techniques, and investigated the properties vs. performance relationship of polishing pads, s;urries and wafers.
108 citations
••
TL;DR: Carbon surface chemistry is relatively new as an independent subject of inquiry, and, judging by the volume of publications, is receiving increasing attention throughout the world as discussed by the authors, and its functional behavior has changed significantly since the pioneering publication by Studebaker in 1957.
Abstract: Carbon surface chemistry is relatively new as an independent subject of inquiry, and, judging by the volume of publications, is receiving increasing attention throughout the world. Our conception of carbon black and its functional behavior has changed significantly since the pioneering publication by Studebaker in 1957. Within the last few years there have been a number of excellent reviews covering various aspects of carbon chemistry by authors who are presently active in this field. Donnet, Puri, and Boehm discuss reactions of carbon and the characterization of surface functional groups while van der Plas is particularly thorough on the subject of adsorption properties and porosity. Deviney explores the relationship between surface chemistry and carbon-elastomer interactions, as does Studebaker from the point of view of the practical application of carbon black in rubber. Current monographs containing useful background information are collected in “Les Carbones” and in Walker's continuing serie...
108 citations
••
TL;DR: The most highly reinforcing fillers, namely carbon blacks and silicas, consist of aggregates of quasi-spherical particles fused together as discussed by the authors, and they can be used to reinforce fillers.
Abstract: The most highly reinforcing fillers, namely carbon blacks and silicas, consist of aggregates of quasi-spherical particles fused together. In the absence of direct experimental studies with...
107 citations
•
11 Dec 1998
TL;DR: In this paper, a method for improving the dispersion of carbon products in polymers is also disclosed which involves dispersing the modified carbon products described above in a polymer to form a polymeric product.
Abstract: Various modified carbon products are disclosed which can form a part of a polymeric product containing the modified carbon product and a polymer. One type of modified carbon product disclosed is a carbon product having attached at least one organic group, monomeric group, or polymeric group. Another type of modified carbon product disclosed is a carbon product having attached a group having the formula: -Ar-CO2-R or -CnH2nCO2-R, where R is an organic group, monomeric group, or a polymeric group. The third type of modified carbon product contains a) a carbon product having attached at least one organic group directly attached to the carbon product, b) at least one ionic group, ionizable group, or a mixture thereof attached to the organic group, and c) at least one counter-ionic group or counter-ionizable group with at least one organic group, monomeric group, or polymeric group, or mixture thereof, where the counter-ionic or counter-ionizable group is attached to the ionic and/or ionizable group. A method of improving the dispersion of carbon products in polymers is also disclosed which involves dispersing the modified carbon products described above in a polymer to form a polymeric product.
107 citations
Authors
Showing all 1279 results
Name | H-index | Papers | Citations |
---|---|---|---|
Plamen Atanassov | 73 | 439 | 21442 |
Marek Skowronski | 48 | 264 | 7679 |
Toivo T. Kodas | 47 | 240 | 8342 |
Andrew A. Peterson | 41 | 87 | 12292 |
Hong Liang | 39 | 297 | 5981 |
Mark J. Hampden-Smith | 35 | 162 | 5631 |
Karel Vanheusden | 31 | 89 | 9289 |
Paolina Atanassova | 29 | 66 | 2919 |
Narasi Sridhar | 27 | 202 | 3017 |
James A. Belmont | 25 | 52 | 2387 |
Berislav Blizanac | 22 | 44 | 4047 |
Andreas Zimmermann | 21 | 71 | 1193 |
Quint H. Powell | 21 | 45 | 1918 |
Klaus Kunze | 21 | 37 | 2074 |
Rimple Bhatia | 21 | 49 | 1380 |