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Institution

Cabot Corporation

CompanyBoston, 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
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Patent
01 Apr 2004
TL;DR: In this paper, a method of selecting and/or developing particulate material for a composition comprising the particulate materials and a matrix by using at least one homogeneous interaction parameter alone or in combination with at least two heterogeneous interaction parameters is presented.
Abstract: The present invention relates to a method of selecting and/or developing particulate material for a composition comprising the particulate material and a matrix by using at least one homogeneous interaction parameter alone or in combination with at least one heterogeneous interaction parameter. These parameters may comprise at least one interfacial potential property value, at least one value derived from an interfacial potential property value, at least one component of an interfacial potential property value, or combinations thereof for a particulate material and for the matrix. Process and performance maps, as well as methods for mapping, are also disclosed.

12 citations

Patent
01 Feb 2016
TL;DR: Graphene-based materials for sequestering urea from aqueous solutions are provided in this paper, which include graphene aggregates as well as graphene oxides, and they are shown to be suitable for urea removal.
Abstract: Graphene-based materials for sequestering urea from aqueous solutions are provided. The graphene-based materials include graphene aggregates as well as graphene oxides.

12 citations

Patent
07 Mar 2014
TL;DR: In this paper, aqueous ink compositions, including at least one colorant, and a nanocrystalline cellulose present in an amount ranging from 0.5% to 5% by weight, relative to the total weight of the composition were discussed.
Abstract: Disclosed herein are aqueous ink compositions, e.g., inkjet ink compositions, comprising at least one colorant; and a nanocrystalline cellulose present in an amount ranging from 0.5% to 5% by weight, relative to the total weight of the composition. Also disclosed are aqueous dispersions for ink compositions, and methods of commercial inkjet printing.

12 citations

Journal ArticleDOI
TL;DR: Martensitic, autstenitic, ferritic-austenitic, and high-nickel stainless steels were tested for their resistance to localized corrosive attack and to stress corrosion cracking in media containing chloride, saturated with CO2/H2S gas as mentioned in this paper.
Abstract: Martensitic, autstenitic, ferritic-austenitic, and high-nickel stainless steels and high-iron, nickel-base alloys are tested for their resistance to localized corrosive attack and to stress corrosion cracking in media containing chloride, saturated with CO2/H2S gas. Several testing environments are used in order to simulate service applications in deep H2S wells, deep CO2 wells, and enhanced recovery by CO2 injection. The alloys' performances are compared at different strength levels (0, 20, and 50% cold work), and the effects of temperature and CO2/H2S content are examined. The overall resistance of each class of alloys is outlined. Furthermore, within the same class of alloys, the differences are described with respect to localized corrosion and to stress corrosion cracking resistance.

12 citations

Journal ArticleDOI
01 Nov 1983-JOM
TL;DR: A new wrought nickel-base alloy, designated CABOT®* alloy No. 214, has been developed for applications in the heating industry as discussed by the authors, which combines the outstanding oxidation and environmental resistance of the Ni-Al base coating systems with the workability of more conventional chromia-protected alloy systems.
Abstract: A new wrought nickel-base alloy, designated CABOT®* alloy No. 214, has been developed for applications in the heating industry. The alloy, composed principally of nickel, chromium, aluminum, iron, and yttrium, combines the outstanding oxidation and environmental resistance of the Ni-Al base coating systems with the workability of more conventional chromia-protected alloy systems to yield a superior product for extended service applications up to and above 2200°F (1200°C). The enhanced oxidation resistance of the alloy is the result of the tenacious Al2O3 film which forms on the surface of the alloy at high temperatures. In addition to describing the oxidation, carburization, and chlorination resistance of the alloy, the metallurgical traits of microstructure and mechanical properties are reviewed.

12 citations


Authors

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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
20212
20204
20199
201818
201714
201613