(CA2861273) The invention relates to a composition obtained by simultaneously mixing at least one isocyanate, at least one polyether and at least one amino resin, wherein said polyether comprises at least one ethylene oxide moiety and at least one isocyanate reactive group selected from the group comprising hydroxyl, amino, epoxy, and thiol, and wherein said amino resin is the condensation product of an aldehyde with a compound selected from the group comprising urea, melamine, benzoguanamine, glycoluril, acetoguanamine and mixtures thereof.
(BR102013000473) PROCESS OF FUEL PRODUCTION FOR AEROMODELLING And [AUTOMODELO], FORMULATION AND OBTAINED PRODUCT of a fuel for aeromodelling and [automodelo] I radiate controlled that it understands methylic alcohol, [Nitrometano], synthetic oil the polypropylene base glycol [monomethyl] ether with additives with anticorrosive agents, [antispumante], tense asset and lubricants all of organic origin and oil of [mamona]
(CA2860847) The invention relates to novel substituted, annulated imidazoles and pyrazoles, methods for the production thereof, the use thereof alone or in combination for the treatment and/or prophylaxis of diseases, and the use thereof for producing medicaments for the treatment and/or prophylaxis of diseases, in particular for the treatment and/or prophylaxis of cardiovascular diseases.
(CA2860826) The present application relates to novel substituted triazines of formula (I) in which the ring Q stands for 8- or 9-member heteroaryl and R 4 stands for hydroxy or amino; methods for the production thereof; the use thereof, either alone or in combinations, for the treatment and/or prophylaxis of illnesses; and the use thereof for producing medicinal products for the treatment and/or prophylaxis of illnesses, in particular for the treatment and/or prophylaxis of cardiovascular diseases.
(CA2860605) This wear-resistant welded steel pipe is characterized in that: the base material and the welding metal contains a specific amount of a chemical component; the base material of the wear-resistant welded steel pipe has a Vickers hardness within the range from 150 to 250; the welding metal has a Vickers hardness within the range from 230 to 350; the heat affected zone has a Vickers hardness within the range from 150 to 350; and sulfides, each having an aspect ratio of 5 or more and containing one or more elements selected from among Fe, Mn and Ti, are dispersed in the welding metal at a density of 10 pieces/mm2 or less. Consequently, there can be provided a wear-resistant welded steel pipe which is able to be produced with high productivity at low cost without being decreased in weld cracking resistance.
(CA2860403) In the present invention, a method for the qualitative genetic characterization and/or gene expression characterization of predetermined cells in a fluid sample containing such cells is provided. The inventive method for the qualitative genetic and/or gene expression characterization of predetermined cells in a fluid sample containing such cells, comprises: a) selectively extracting at least a part of the predetermined cells from the sample forming a cell suspension cso; and b) repeating the extraction step a) n times with the same sample of step a), with n = 1, forming at least one cell suspension csn; c) determining a gene expression profile gepn and/or a first copy number count cnco of at least one DNA and/or RNA with at least a part of the cell suspension cso; d) determining at least one further gene expression profile gepn and/or a further copy number count cncn of at least one DNA and/or RNA with at least a part of at least one further cell suspension csn; e) calculating the predetermined cells' gene expression profile gep(P) of at least one predetermined DNA and/or RNA by subtracting gepn from gepo and/or the predetermined cells' copy number count cnc(P) of at least one predetermined DNA and/or RNA by subtracting cncn from cnco; and f) evaluating the qualitative genetic and/or gene expression characteristics of the predetermined cells from gep(P) and/or cnc(P).
VLASSIOUK IVAN V;SMIRNOV SERGEI N;PETER WILLIAM H;SABAU ADRIAN S;DAI SHENG;FULVIO PASQUALE F;IVANOV ILIA N;LAVRIK NICKOLAY V;DATSKOS PANAGIOTIS G
(US20130174968) Systems and methods for synthesizing continuous graphene sheets are provided. The systems and methods include passing a catalyst substrate through a heated chemical vapor deposition chamber and exposing the substrate to a reaction gas mixture of hydrogen and hydrocarbon at a preselected location within the chamber. The reaction gas mixture can include hydrogen having a partial pressure of between about 0 Torr and 20 Torr, hydrocarbon having a partial pressure of between about 20 mTorr and about 10 Torr, and one or more buffer gases. The buffer gases can include argon or other noble gases to maintain atmospheric pressure within the chemical deposition chamber. The resulting graphene can be made with continuous mono and multilayers (up to six layers) and have single crystalline hexagonal grains with a preselected nucleation density and domain size for a range of applications.