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, Tantalum, Oxide, Natural rubber
Papers published on a yearly basis
Papers
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05 Oct 196133 citations
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30 Aug 1989TL;DR: In this article, the authors proposed a method to remove particles adhering to the internal surfaces of an object by the movement of a shock wave past the surfaces, generated by the explosion of a gas in a chamber located inside the object.
Abstract: Particles adhering to the internal surfaces of an object are removed by the movement of a shock wave past the surfaces. The shock wave is generated by the explosion of a gas in a chamber located inside the object. The invention has particular application for use in cleaning process equipment.
33 citations
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28 Jul 1998TL;DR: In this paper, the Scott Bulk Density to surface area (SBD) ratio is defined as the ratio of Scott bulk density to the surface area or ratio of die fill rate to surface surface area.
Abstract: A capacitor having a central electrode body having sintered metal anode with an electrode lead, the anode having a sintered product produced from a tantalum powder having deagglomerated particles such that the product of the volume mean diameter in microns multiplied by the specific surface area measured in m 2 /g is a number in the range of below about 25. Capacitors having a central electrode with the anode produced from a sintered product produced from a heat treated and oxidized tantalum powder wherein the oxidized particle size is greater than about 0.7 m 2 /g. Capacitors are defined in terms of anodes produced from powders having specified ratios of Scott Bulk Density to surface area or ratio of die fill rate to surface area.
33 citations
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22 May 1995TL;DR: The elastomeric compound exhibits poorer abrasion resistance, lower hysterisis at high temperature, and comparable or increased hysteriais at low temperature compared to an elastomers containing an untreated carbon black.
Abstract: Disclosed are elastomeric compounds including an elastomer and a silicon-treated carbon black, and optionally including a coupling agent. The elastomeric compound exhibits poorer abrasion resistance, lower hysterisis at high temperature and comparable or increased hysterisis at low temperature compared to an elastomer containing an untreated carbon black. Elastomeric compounds incorporating an elastomer and an oxidized, silicon-treated carbon black are also disclosed. Also disclosed is method for preparing elastomers compounded with the treated carbon black.
33 citations
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29 Oct 2004TL;DR: In this article, a method for producing the coated copper-containing particles having a small particle size, narrow size distribution and a spherical morphology is presented, and the present invention is also directed to devices incorporating the coated copperscontaining particles.
Abstract: Copper powder batches including coated copper-containing particles and methods for producing the same. The coated copper-containing particles having have a small particle size, narrow size distribution and a spherical morphology. The present invention is also directed to devices incorporating the coated copper-containing particles.
32 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 |