(DE102015113674) The invention relates to a paintable base non-woven fabric made of mineral fibres in a proportion of 60 to 90 % by weight and organic fibers in a proportion of 10 to 40 % by weight and a binder in a proportion of 0 to 30 % by weight. The base non-woven fabric has a rear side for attachment to a base which is coated with a pressure-sensitive adhesive composition. The pressure-sensitive adhesive composition forms a continuously interrupted layer, wherein open pores of the base non-woven fabric are not covered by the pressure-sensitive adhesive composition. (From WO2017029146 A1)
(WO201729764) A nitrogen gas safe-feed monitor for a MS is provided between a compressed air generator and a nitrogen gas separator. Nitrogen gas expelled from a nitrogen gas separator is fed to a mass spectrometer or other analysis device. The nitrogen gas safe-feed monitor for a MS is provided with a gas introduction port, a gas expel port, a pipe connecting the gas introduction port and the gas expel port, a shutoff valve provided in midway position of the pipe, a water filter that is provided in a midway position of the pipe and that filters out moisture in gas flowing through the pipe, a water sensor for detecting water filtered out by the water filter, and a control unit for closing the shutoff valve when water has been detected by the sensor. The control unit may record the time at which the shutoff valve was closed. A notification means may furthermore be provided for notification that the shutoff valve has been closed by the control unit.
(WO201728905) The invention relates to a process for the regeneration of a working solution employed in the production of hydrogen peroxide by an anthraquinone process, said working solution containing alkyltetrahydro-anthraquinone epoxides as degradation products and alkyltetrahydro-anthraquinones as active compounds which comprises treating at least a part of said working solution with a supported gold-based catalyst in the presence of hydrogen to at least partially convert said alkyltetrahydro-anthraquinone epoxides into active alkyltetrahydro-anthraquinones.
(US20170043329) A hydrocracking catalyst is provided comprising: a zeolite beta having an OD acidity of 20 to 50 μmol/g and an average crystal size from 300 to 800 nanometers; a zeolite USY; wherein a wt % of the zeolite beta is less than the wt % of the zeolite USY; a support comprising an amorphous silica aluminate and a second support material; and at least one metal selected from the group consisting of elements from Group 6 and Groups 8 through 10 of the Periodic Table. A process for hydrocracking a hydrocarbonaceous feedstock is provided, comprising: contacting the hydrocarbonaceous feedstock with the hydrocracking catalyst under hydrocracking conditions to produce a hydrocracked effluent that comprises middle distillates. A method for making the hydrocracking catalyst is also provided.
(US20170043328) d. at least one metal selected from the group consisting of elements from Group 6 and Groups 8 through 10 of the Periodic Table. A process for hydrocracking using the hydrocracking catalyst to produce middle distillates is provided. A method for making the hydrocracking catalyst is also provided.
(JP2017034923) PROBLEM TO BE SOLVED: To provide a polymer actuator employing a dielectric elastomeric material, which has a high resiliency and low elasticity, capable of achieving a high speed and high deformation at a lower drive voltage.SOLUTION: The polymer actuator comprises: a film formed of a dielectric elastomeric material; a first electrode formed over a first plane of the film; and a second electrode formed over a second plane of the film. The polymer actuator has a laminated structure which compresses and deforms in a thickness direction when a voltage is applied across the first electrode and the second electrode, and the degree of shrinkage of the film when a voltage of 2kV or less is 2% or more.SELECTED DRAWING: Figure 2
(JP2017033891) PROBLEM TO BE SOLVED: To provide a method for producing a conductive polymer organic solvent-dispersed liquid capable of producing a conductive polymer organic solvent-dispersed liquid capable of easily forming a conductive layer having excellent conductivity at high productivity.SOLUTION: Provided is a method for producing a conductive polymer organic solvent-dispersed liquid comprising: a drying step where a conductive polymer moisture-dispersed liquid in which a conductive composite body containing a π-conjugated conductive polymer and polyanions is included in a water-based dispersion medium is subjected to lyophilization or spray drying to obtain a dried body; a pre-dispersed liquid preparation step where the dried body is added to a liquid hydroxy group-containing compound having two or more hydroxy groups to prepare a pre-dispersed liquid; and a conductive polymer organic solvent-dispersed liquid preparation step where an amine compound and an organic solvent are added to the pre-dispersed liquid to prepare a conductive polymer organic solvent-dispersed liquid.SELECTED DRAWING: None
(JP2017033879) PROBLEM TO BE SOLVED: To provide an induction heating coil capable of making heating temperature uniform in the rotary heating of platy work.SOLUTION: An induction heating coil 1 used for the rotary heating of platy work 2 is equipped with a coil head 10 which has a plurality of coil conductor groups 21, 22, 23, and 24 sandwiching the platy work 2 therebetween and extending in parallel with front and back plate surfaces, covering the front and back plate surfaces of the platy work 2 included in at least a part of a fan-shaped area of a circle including the platy work about a rotary axis of the platy work 2, with the coil conductor groups 21, 22, 23, and 24; and a pair of terminals 11 connecting the coil head 10 to a power source.SELECTED DRAWING: Figure 1
(JP2017033859) PROBLEM TO BE SOLVED: To provide a solid electrolyte material high in Li ion conductivity and heat stability.SOLUTION: The above described problem is solved by providing a solid electrolyte material having a crystal phase A having a composition of LiPSO(1≤x≤3) and peaks at positions of 2θ=17.80°±0.50° and 25.80°±0.50° in an X-ray diffraction measurement using a CuKα ray and a crystal phase B having peaks at positions of 2θ=22.30°±0.50°, 23.14°±0.50°, 24.80°±0.50°, 33.88°±0.50°, 36.48°±0.50° in the X-ray diffraction measurement using a CuKα ray.SELECTED DRAWING: Figure 3
(JP2017032918) PROBLEM TO BE SOLVED: To provide a composition for forming a cured film in which decrease in a fluorescence quantum yield of semiconductor quantum dots can be suppressed, a cured film and a film using the composition for forming a cured film, a light-emitting display element using the cured film, and a method for forming a cured film using the above composition for forming a cured film.SOLUTION: The composition for forming a cured film comprises a binder resin, a polymerizable compound, semiconductor quantum dots, and a compound having a thiol group. The number of thiol groups possessed by the compound is preferably 2 or more and 8 or less. The cured film comprises a binder resin and semiconductor quantum dots dispersed in the binder resin and having a structure derived from a compound represented by formula (1) below, bonded to at least a part of surfaces of the quantum dots. In formula (1), X represents an n-valent organic group; Rrepresents an alkane diyl group having 1 to 10 carbon atoms; n represents an integer of 1 to 8; and a plurality of Rmay be the same or different from one another.SELECTED DRAWING: None