Patents by Inventor Yasushi Nishikawa
Yasushi Nishikawa has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20140328745Abstract: Disclosed herein is a method for producing a roll-shaped carbonaceous film by polymer pyrolysis while suppressing the occurrence of fusion bonding in the roll-shaped carbonaceous film. The carbonaceous film production method includes the step of heat-treating a polymer film wound into a roll, wherein, at a temperature equal to or higher than the pyrolysis onset temperature of the polymer film but equal to or lower than a temperature at which the weight of the polymer film is reduced by 40% as compared to that before heat treatment, the roll-shaped polymer film has (2-1) a gap between layers of the polymer film so that a value determined for the whole roll-shaped polymer film by dividing the thickness of the gap between adjacent layers of the polymer film (Ts) by the thickness of the polymer film (Tf) (Ts/Tf) satisfies a relationship of 0.33?Ts/Tf?1.Type: ApplicationFiled: July 25, 2012Publication date: November 6, 2014Applicant: KANEKA CORPORATIONInventors: Makoto Mishiro, Yusuke Ohta, Takashi Inada, Yasushi Nishikawa
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Patent number: 8865110Abstract: A graphite film excelling in heat conductivity, especially, a graphite film of high heat conductivity that even when its thickness is large, would not suffer damage by heat treatment. There is provided a process for producing a graphite film, including graphitizing a raw material film of a polymer film and/or carbonized polymer film, characterized by including (i) holding the raw film in a vessel capable of direct passage of current through voltage application and (ii) applying voltage to the vessel to thereby induce electrification so that graphitization is carried out. There is further provided a process for producing a graphite film, characterized by including the step of holding the raw material film in vessel (A) being electrifiable, subsequently holding the resultant vessel (A) in vessel (B) being electrifiable and effecting current passage through the whole so that graphitization is carried out.Type: GrantFiled: October 14, 2013Date of Patent: October 21, 2014Assignee: Kaneka CorporationInventors: Yasushi Nishikawa, Shuhei Wakahara, Mutsuaki Murakami
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Patent number: 8865111Abstract: A process for producing a filmy graphite includes the steps of forming a polyimide film having a birefringence of 0.12 or more and heat-treating the polyimide film at 2,400° C. or higher.Type: GrantFiled: October 29, 2013Date of Patent: October 21, 2014Assignee: Kaneka CorporationInventors: Yasushi Nishikawa, Mutsuaki Murakami, Kiyokazu Akahori
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Publication number: 20140308484Abstract: A re-forming process is carried out in which a material graphite film is heat-treated to not less than 2000° C. while the material graphite film is being pressured. Through the re-forming process, sag of a graphite film is controlled. By using, during the re-forming process, a plurality of inner cores having respective different surface states, it is possible to produce a graphite film having two or more sag forms which have respective effects.Type: ApplicationFiled: October 23, 2012Publication date: October 16, 2014Inventors: Yusuke Ohta, Makoto Kutsumizu, Takashi Inada, Satoshi Katayama, Yasushi Nishikawa
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Patent number: 8858847Abstract: In a method for producing a carbonaceous film in which a polymer film is wrapped around a core and is subjected to a heat treatment, material film surfaces during the carbonization step are prevented from fusion, whereby a long carbonaceous having a large area film is obtained. Fusion can be prevented by subjecting a polymer film to a heat treatment under a reduced pressure, and under a reduced pressure while allowing an inert gas to flow. The range of the pressure reduction is preferably ?0.08 MPa to ?0.01 kPa. It is preferred to carry out carbonization with the pressure reduced in the range of from ?0.08 MPa to ?0.01 kPa while allowing an inert gas to flow.Type: GrantFiled: September 11, 2009Date of Patent: October 14, 2014Assignee: Kaneka CorporationInventors: Takashi Inada, Yasushi Nishikawa, Makoto Mishiro
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Publication number: 20140246138Abstract: In order to obtain a graphite film having an excellent thermal diffusivity, a high density, and excellent flatness without flaws, recesses and wrinkles on the surface, the process for producing a graphite film according to the present invention comprises the graphitization step for a raw material film made of a polymer film and/or a carbonized polymer film and/or the post-planar pressurization step for the film in this order to prepare a graphite film, wherein the graphitization step is a step of thermally treating two or more stacked raw material films at a highest temperature of 2,000° C. and includes a method of electrically heating the raw material films themselves and/or a method of thermally treating the films while applying pressure to the films planarly, and the post-planar pressurization step includes a method of planarly pressurizing the one raw material film or the multiple stacked raw material films after graphitization by single-plate press or vacuum press.Type: ApplicationFiled: May 12, 2014Publication date: September 4, 2014Applicant: KANEKA CORPORATIONInventors: Yasushi NISHIKAWA, Shuhei WAKAHARA, Mutsuaki MURAKAMI
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Publication number: 20140220308Abstract: It is possible to obtain a graphite film with its shape controlled, by performing a sag controlling step of controlling temperatures of a polymer film at both widthwise ends and a temperature of the polymer film in a widthwise middle portion within a temperature range from a starting temperature of thermal decomposition of the polymer film to a sag controlling temperature of the polymer film.Type: ApplicationFiled: August 17, 2012Publication date: August 7, 2014Applicant: KANEKA CORPORATIONInventors: Yusuke Ohta, Takashi Inada, Makoto Kutsumizu, Yasushi Nishikawa, Satoshi Katayama
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Patent number: 8758656Abstract: In order to obtain a graphite film having an excellent thermal diffusivity, a high density, and excellent flatness without flaws, recesses and wrinkles on the surface, the process for producing a graphite film according to the present invention comprises the graphitization step for a raw material film made of a polymer film and/or a carbonized polymer film and/or the post-planar pressurization step for the film in this order to prepare a graphite film, wherein the graphitization step is a step of thermally treating two or more stacked raw material films at a highest temperature of 2,000° C. and includes a method of electrically heating the raw material films themselves and/or a method of thermally treating the films while applying pressure to the films planarly, and the post-planar pressurization step includes a method of planarly pressurizing the one raw material film or the multiple stacked raw material films after graphitization by single-plate press or vacuum press.Type: GrantFiled: March 9, 2011Date of Patent: June 24, 2014Assignee: Kaneka CorporationInventors: Yasushi Nishikawa, Shuhei Wakahara, Mutsuaki Murakami
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Publication number: 20140110869Abstract: Disclosed herein is a method for producing an elongated (rolled) carbonaceous film by polymer pyrolysis while suppressing the fusion bonding of the carbonaceous film. The method for producing a carbonaceous film includes the step of heat-treating a polymer film wound into a roll, wherein the heat treatment is performed after the polymer film is wound into a roll to have a gap between adjacent layers of the polymer film at a temperature lower than a pyrolysis onset temperature of the polymer film so that the roll of polymer film as a whole satisfies a relationship that a value obtained by dividing a thickness of a gap between adjacent layers of the polymer film (Ts) by a thickness of the polymer film (Tf) (Ts/Tf) is 0.16 or higher but 1.50 or lower.Type: ApplicationFiled: March 26, 2012Publication date: April 24, 2014Applicant: KANEKA CORPORATIONInventors: Makoto Mishiro, Yusuke Ohta, Takashi Inada, Yasushi Nishikawa
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Publication number: 20140112859Abstract: Disclosed herein is a method for producing an elongated (rolled) carbonaceous film by polymer pyrolysis while suppressing the fusion bonding and the rippling of the carbonaceous film. The method for producing a carbonaceous film includes the step of heat-treating a polymer film wound into a roll, wherein the heat treatment is performed after the polymer film is wound into a roll at a temperature lower than a pyrolysis onset temperature of the polymer film so that the roll of polymer film has a center and has a space inside its cross-sectional circle (50% cross-sectional circle) (space within 50% cross-sectional circle) whose center is at the center and whose circumference passes through a point at which a length of the polymer film from an inner end thereof is 50% of a total length of the polymer film and that an area of the space within 50% cross-sectional circle is 25% or more of an area of the 50% cross-sectional circle.Type: ApplicationFiled: March 26, 2012Publication date: April 24, 2014Applicant: KANEKA CORPORATIONInventors: Makoto Mishiro, Yusuke Ohta, Takashi Inada, Yasushi Nishikawa
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Publication number: 20140093713Abstract: A graphite film excelling in heat conductivity, especially, a graphite film of high heat conductivity that even when its thickness is large, would not suffer damage by heat treatment. There is provided a process for producing a graphite film, including graphitizing a raw material film of a polymer film and/or carbonized polymer film, characterized by including (i) holding the raw film in a vessel capable of direct passage of current through voltage application and (ii) applying voltage to the vessel to thereby induce electrification so that graphitization is carried out. There is further provided a process for producing a graphite film, characterized by including the step of holding the raw material film in vessel (A) being electrifiable, subsequently holding the resultant vessel (A) in vessel (B) being electrifiable and effecting current passage through the whole so that graphitization is carried out.Type: ApplicationFiled: October 14, 2013Publication date: April 3, 2014Applicant: KANEKA CORPORATIONInventors: Yasushi NISHIKAWA, Shuhei WAKAHARA, Mutsuaki MURAKAMI
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Publication number: 20140056801Abstract: A process for producing a filmy graphite includes the steps of forming a polyimide film having a birefringence of 0.12 or more and heat-treating the polyimide film at 2,400° C. or higher.Type: ApplicationFiled: October 29, 2013Publication date: February 27, 2014Applicant: Kaneka CorporationInventors: Yasushi Nishikawa, Mutsuaki Murakami, Kiyokazu Akahori
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Publication number: 20140015153Abstract: The present invention performs special heat treatment on a polymer film in a temperature range from (i) a lower limit to temperature rise being equal to or higher than a starting temperature of thermal decomposition of the polymer film, i.e., which is a temperature observed at an early stage of the thermal decomposition of the polymer film, to (ii) an upper limit to temperature rise being equal to or lower than an intermediate temperature of thermal decomposition of the polymer film. This reduces foaming in the film during graphitization treatment following the special heat treatment. Thus, even with a higher heating rate for graphitization, it is possible to produce a graphite film having good quality.Type: ApplicationFiled: March 26, 2012Publication date: January 16, 2014Applicant: KANEKA CORPORATIONInventors: Yusuke Ohta, Takashi Inada, Makoto Mishiro, Yasushi Nishikawa
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Publication number: 20140004033Abstract: A graphite film with fewer wrinkles and/or undulations is obtained providing two or more stages of heating space and carrying out continuous baking. Especially when a cooling space is provided between each of the heating spaces and another, a graphite film can be obtained which is excellent in flatness and has a high thermal diffusivity.Type: ApplicationFiled: March 15, 2012Publication date: January 2, 2014Applicant: KANEKA CORPORATIONInventors: Yusuke Ohta, Takashi Inada, Makoto Mishiro, Yasushi Nishikawa
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Patent number: 8597606Abstract: A process for producing a filmy graphite includes the steps of forming a polyimide film having a birefringence of 0.12 or more and heat-treating the polyimide film at 2,400° C. or higher.Type: GrantFiled: December 6, 2012Date of Patent: December 3, 2013Assignee: Kaneka CorporationInventors: Yasushi Nishikawa, Mutsuaki Murakami, Kiyokazu Akahori
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Patent number: 8585998Abstract: A graphite film excelling in heat conductivity, especially, a graphite film of high heat conductivity that even when its thickness is large, would not suffer damage by heat treatment. There is provided a process for producing a graphite film, including graphitizing a raw material film of a polymer film and/or carbonized polymer film, characterized by including (i) holding the raw film in a vessel capable of direct passage of current through voltage application and (ii) applying voltage to the vessel to thereby induce electrification so that graphitization is carried out. There is further provided a process for producing a graphite film, characterized by including the step of holding the raw material film in vessel (A) being electrifiable, subsequently holding the resultant vessel (A) in vessel (B) being electrifiable and effecting current passage through the whole so that graphitization is carried out.Type: GrantFiled: June 9, 2005Date of Patent: November 19, 2013Assignee: Kaneka CorporationInventors: Yasushi Nishikawa, Shuhei Wakahara, Mutsuaki Murakami
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Publication number: 20130240128Abstract: Disclosed herein is a production method capable of efficiently producing a carbonized film wound into a roll without the occurrence of fusion bonding between the layers of the film. The method includes a carbonization step in which a polymer film wound around a core is placed in a heating furnace and carbonized by heat treatment to obtain a carbonized film wound around the core. The carbonization step is performed by increasing a temperature of the heat treatment from an initial temperature through a pyrolysis onset temperature to a pyrolysis end temperature. In the carbonization step, the heating furnace is decompressed when the temperature of the heat treatment is lower than the pyrolysis onset temperature, and after the temperature of the heat treatment reaches the pyrolysis onset temperature, the heating furnace is not decompressed or the heating furnace is decompressed so that an absolute pressure in the heating furnace is in a range of 21.3 kPa to 101.29 kPa.Type: ApplicationFiled: March 9, 2011Publication date: September 19, 2013Inventors: Makoto Mishiro, Yasushi Nishikawa, yusuke Ohta, Takashi Inada
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Patent number: 8512670Abstract: A graphite film having excellent thermal conductivity, surface hardness, surface adhesion and appearance can be obtained. Further, a thick graphite film in which each of such properties is excellent can be obtained. There is provided a process for producing a graphite film in which a polymer film is thermally treated at a temperature of 2,000° C. or more, the process comprising the step of bringing a polymer film into contact with a substance containing a metal during graphitization treatment. When a polymer film having a high plane orientation is used as a raw material and the raw material is brought into contact with a metal to thermally treat the material, a problem of separation of graphite from the surface can be solved which has not been solved by the prior art, and furthermore a graphite can be obtained having excellent thermal conductivity, surface hardness, density and surface adhesion.Type: GrantFiled: December 30, 2011Date of Patent: August 20, 2013Assignee: Kaneka CorporationInventors: Yasushi Nishikawa, Shuhei Wakahara, Mutsuaki Murakami
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Publication number: 20130164210Abstract: A graphite film which is low in graphite dust generation can be produced by properly selecting acid dianhydride and diamine which constitute a polyimide film, which polyimide film is a raw material of the graphite film. Specifically, the graphite film which is low in graphite dust generation can be obtained if (1) the acid dianhydride is PMDA and the diamine has a molar ratio of ODA/PDA in a range of 100:0 to 80:20, or (2) the acid dianhydride has a molar ratio of PMDA/BPDA in a range of 80:20 to 50:50, and the diamine has a molar ratio of ODA/PDA in a range of 30:70 to 90:10.Type: ApplicationFiled: August 19, 2011Publication date: June 27, 2013Applicant: KANEKA CORPORATIONInventors: Yusuke Ohta, Takashi Inada, Makoto Mishiro, Yasushi Nishikawa
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Patent number: 8444949Abstract: An object of the present invention is to provide a graphite film, and a graphite composite film both having an excellent thermal diffusivity which can sufficiently manage heat dissipation of electronic instruments, precision instruments and the like, along with an excellent flex resistance which can withstand application to bent portions. Means for Resolution of the present invention is a graphite film exhibiting the number of reciprocal foldings being 10,000 times or more as measured using a rectangular strip test piece having a width of 15 mm until the test piece breaks in a MIT folding endurance test under conditions of: a curvature radius R of the bending clamp being 2 mm; a left-and-right bending angle being 135°; a bending rate being 90 times/min; and a load being 0.98 N.Type: GrantFiled: March 9, 2011Date of Patent: May 21, 2013Assignee: Kaneka CorporationInventors: Yusuke Ohta, Shuhei Wakahara, Yasushi Nishikawa