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    • 1. 发明申请
    • DISPERSION OF ZIRCONIUM OXIDE AND PROCESS FOR PRODUCING THE SAME
    • 氧化锆的分散及其生产方法
    • US20110260122A1
    • 2011-10-27
    • US13142136
    • 2009-12-16
    • Kenichi NakagawaTakanori Morita
    • Kenichi NakagawaTakanori Morita
    • C09K3/00
    • C08K3/08B82Y30/00C01G25/02C01P2002/54C01P2004/64C08K3/22C08K5/09
    • The invention provides a process for producing an aqueous dispersion of zirconium oxide comprising: reacting a zirconium salt with an alkali in water to obtain a slurry of particles of zirconium oxide; filtering, washing, and repulping the slurry; adding an organic acid to the resulting slurry in an amount of one mole part or more per mole part of the zirconium in the slurry; hydrothermally treating the resulting mixture at a temperature of 170° C. or higher; and washing the resulting aqueous dispersion of particles of zirconium oxide.The invention also provides a process for producing an aqueous dispersion of solid solution of zirconium oxide containing at least one stabilizing element selected from aluminum, magnesium, titanium, and rare earth elements.The invention further provides a process for producing a dispersion of zirconium oxide of which dispersion medium is an organic solvent, the process comprising replacing the dispersion medium of the aqueous dispersion of zirconium oxide obtained by the process mentioned above by the organic solvent.
    • 本发明提供了一种制备氧化锆水分散体的方法,包括:使锆盐与碱在水中反应,得到氧化锆颗粒的淤浆; 过滤,洗涤和再浆化浆料; 向所得浆料中加入相对于浆料中每摩尔锆1摩尔份或更多量的有机酸; 在170℃或更高的温度下对所得混合物进行水热处理; 并洗涤所得到的氧化锆颗粒的水分散体。 本发明还提供一种制备含有至少一种选自铝,镁,钛和稀土元素的稳定元素的氧化锆固溶体的水性分散体的方法。 本发明还提供一种制备分散介质是有机溶剂的氧化锆分散体的方法,该方法包括用有机溶剂代替通过上述方法获得的氧化锆水分散体的分散介质。
    • 2. 发明申请
    • DISPERSION OF PARTICLES OF RUTILE TITANIUM OXIDE, PROCESS FOR PRODUCING THE SAME, AND USE OF THE SAME
    • 分散的氧化钛颗粒,其生产方法及其用途
    • US20110301270A1
    • 2011-12-08
    • US13202404
    • 2010-02-15
    • Atsushi NomuraKenichi NakagawaTakanori Morita
    • Atsushi NomuraKenichi NakagawaTakanori Morita
    • C08K5/05B32B5/16C01G23/047
    • C09D17/008B82Y30/00C01G23/053C01G23/0536C01P2002/72C01P2004/64C01P2006/12C01P2006/37Y10T428/2982
    • The invention provides a dispersion of particles of rutile titanium oxide wherein the particles of rutile titanium oxide have a D50 in a range of 1 to 15 nm and a D90 of 40 nm or less in particle size distribution as determined by a dynamic light scattering method; a specific surface area in a range of 120 to 180 m2/g as determined by a BET method; and a rate of weight loss of 5% or less as obtained by heating the particles of rutile titanium oxide from 105° C. to 900° C.Such a dispersion of particles of rutile titanium oxide is obtained by a process according to the invention, which comprises: a first step in which an aqueous titanium tetrachloride solution is heated and hydrolyzed to obtain a slurry containing the precipitated particles of rutile titanium oxide; a second step in which the slurry obtained in the first step is filtered and washed with water to remove water-soluble salts dissolved therein from the slurry; a third step in which the slurry obtained in the second step is subjected to a hydrothermal reaction in the presence of an organic acid; a fourth step in which the slurry obtained in the third step is filtered and washed with water; a fifth step in which an acid is added to the slurry obtained in the fourth step, and the resulting mixture is subjected to a wet dispersion treatment, thereby obtaining a dispersion; and a sixth step in which excess acid and water-soluble salts are removed from the dispersion obtained in the fifth step.
    • 本发明提供金红石型氧化钛颗粒的分散体,其中金红石型氧化钛颗粒的动态光散射法测定的粒度分布中的D50为1〜15nm,D90为40nm以下。 通过BET法测定的比表面积为120〜180m 2 / g的范围; 以及通过将金红石型氧化钛颗粒从105℃加热至900℃而获得的重量减少率为5%以下。通过本发明的方法获得金红石型氧化钛颗粒的这种分散体, 其包括:将四氯化钛水溶液加热并水解以获得含有金红石型氧化钛沉淀颗粒的浆料的第一步骤; 将第一步骤中获得的浆液过滤并用水洗涤以从浆料中除去溶解在其中的水溶性盐的第二步骤; 在第二步骤中获得的浆料在有机酸存在下进行水热反应的第三步骤; 将第三步骤得到的浆料过滤并用水洗涤的第四步骤; 在第四工序中得到的浆料中加入酸的第五工序,对所得混合物进行湿式分散处理,得到分散液; 以及从第五步骤中获得的分散体中除去过量的酸和水溶性盐的第六步骤。
    • 3. 发明申请
    • PROCESS FOR PRODUCING DISPERSION OF PARTICLES OF RUTILE TITANIUM OXIDE
    • 生产分散的氧化钛颗粒的方法
    • US20130143729A1
    • 2013-06-06
    • US13816545
    • 2011-08-15
    • Takanori MoritaKenichi NakagawaAtsushi Nomura
    • Takanori MoritaKenichi NakagawaAtsushi Nomura
    • B01J31/38G02B1/04
    • B01J31/38C01G23/047C01G23/0536C01P2002/52C01P2002/54C01P2002/72C01P2004/51C01P2004/62C01P2006/12C08L101/00C09C1/3607C09D17/008G02B1/04
    • The invention provides a process for producing an aqueous dispersion of particles of rutile titanium oxide, which comprises: a first step in which after a chloride ion concentration of an aqueous solution of titanium tetrachloride is adjusted to 0.5 mole/L or more and less than 4.4 mole/L, the aqueous solution of titanium tetrachloride is heated at a temperature in a range of from 25° C. to 75° C. to hydrolyze the titanium tetrachloride, thereby obtaining a slurry containing the thus precipitated particles of rutile titanium oxide; a second step in which the slurry obtained in the first step is filtered and washed with water to remove water-soluble salts dissolved therein from the slurry; a third step in which the slurry obtained in the second step is subjected to a hydrothermal reaction in the presence of an organic acid; a fourth step in which the slurry obtained in the third step is filtered and washed with water to remove water-soluble salts dissolved therein from the slurry; a fifth step in which an acid is added to the slurry obtained in the fourth step to deflocculate the slurry, and the resulting slurry is subjected to wet dispersion treatment, thereby obtaining a dispersion; and a sixth step in which excess acid and water-soluble salts are removed from the dispersion obtained in the fifth step.
    • 本发明提供一种制备金红石型氧化钛颗粒的水性分散体的方法,其包括:第一步骤,其中将四氯化钛水溶液的氯离子浓度调节至0.5摩尔/升以上且小于4.4倍 摩尔/ L,将四氯化钛水溶液在25℃至75℃的温度范围内加热以水解四氯化钛,从而获得含有如此沉淀的金红石型氧化钛颗粒的浆料; 将第一步骤中获得的浆液过滤并用水洗涤以从浆料中除去溶解在其中的水溶性盐的第二步骤; 在第二步骤中获得的浆料在有机酸存在下进行水热反应的第三步骤; 将第三步骤中获得的浆液过滤并用水洗涤以从浆料中除去溶解在其中的水溶性盐的第四步骤; 在第四工序中得到的浆料中加入酸以使浆料脱絮凝的第五步骤,将得到的浆料进行湿分散处理,得到分散体; 以及从第五步骤中获得的分散体中除去过量的酸和水溶性盐的第六步骤。
    • 6. 发明授权
    • Dispersion of particles of rutile titanium oxide, process for producing the same, and use of the same
    • 金红石型氧化钛颗粒的分散,其制造方法及其用途
    • US09234113B2
    • 2016-01-12
    • US13202404
    • 2010-02-15
    • Atsushi NomuraKenichi NakagawaTakanori Morita
    • Atsushi NomuraKenichi NakagawaTakanori Morita
    • C09D17/00B82Y30/00C01G23/053
    • C09D17/008B82Y30/00C01G23/053C01G23/0536C01P2002/72C01P2004/64C01P2006/12C01P2006/37Y10T428/2982
    • The invention provides a dispersion of particles of rutile titanium oxide wherein the particles of rutile titanium oxide have a D50 in a range of 1 to 15 nm and a D90 of 40 nm or less in particle size distribution as determined by a dynamic light scattering method; a specific surface area in a range of 120 to 180 m2/g as determined by a BET method; and a rate of weight loss of 5% or less as obtained by heating the particles of rutile titanium oxide from 105° C. to 900° C.Such a dispersion of particles of rutile titanium oxide is obtained by a process according to the invention, which comprises: a first step in which an aqueous titanium tetrachloride solution is heated and hydrolyzed to obtain a slurry containing the precipitated particles of rutile titanium oxide; a second step in which the slurry obtained in the first step is filtered and washed with water to remove water-soluble salts dissolved therein from the slurry; a third step in which the slurry obtained in the second step is subjected to a hydrothermal reaction in the presence of an organic acid; a fourth step in which the slurry obtained in the third step is filtered and washed with water; a fifth step in which an acid is added to the slurry obtained in the fourth step, and the resulting mixture is subjected to a wet dispersion treatment, thereby obtaining a dispersion; and a sixth step in which excess acid and water-soluble salts are removed from the dispersion obtained in the fifth step.
    • 本发明提供金红石型氧化钛颗粒的分散体,其中金红石型氧化钛颗粒的动态光散射法测定的粒度分布中的D50为1〜15nm,D90为40nm以下。 通过BET法测定的比表面积为120〜180m 2 / g的范围; 以及通过将金红石型氧化钛颗粒从105℃加热至900℃而获得的重量减少率为5%以下。通过本发明的方法获得金红石型氧化钛颗粒的这种分散体, 其包括:将四氯化钛水溶液加热并水解以获得含有金红石型氧化钛沉淀颗粒的浆料的第一步骤; 将第一步骤中获得的浆液过滤并用水洗涤以从浆料中除去溶解在其中的水溶性盐的第二步骤; 在第二步骤中获得的浆料在有机酸存在下进行水热反应的第三步骤; 将第三步骤得到的浆料过滤并用水洗涤的第四步骤; 在第四工序中得到的浆料中加入酸的第五工序,对所得混合物进行湿式分散处理,得到分散液; 以及从第五步骤中获得的分散体中除去过量的酸和水溶性盐的第六步骤。
    • 7. 发明授权
    • Process for producing dispersion of particles of rutile titanium oxide
    • 制备金红石型氧化钛颗粒分散体的方法
    • US09211535B2
    • 2015-12-15
    • US13816545
    • 2011-08-15
    • Takanori MoritaKenichi NakagawaAtsushi Nomura
    • Takanori MoritaKenichi NakagawaAtsushi Nomura
    • B01J23/00C01G23/047C09K3/00B01J31/38C08L101/00G02B1/04C09D17/00C01G23/053C09C1/36
    • B01J31/38C01G23/047C01G23/0536C01P2002/52C01P2002/54C01P2002/72C01P2004/51C01P2004/62C01P2006/12C08L101/00C09C1/3607C09D17/008G02B1/04
    • The invention provides a process for producing an aqueous dispersion of particles of rutile titanium oxide, which comprises: a first step in which after a chloride ion concentration of an aqueous solution of titanium tetrachloride is adjusted to 0.5 mole/L or more and less than 4.4 mole/L, the aqueous solution of titanium tetrachloride is heated at a temperature in a range of from 25° C. to 75° C. to hydrolyze the titanium tetrachloride, thereby obtaining a slurry containing the thus precipitated particles of rutile titanium oxide; a second step in which the slurry obtained in the first step is filtered and washed with water to remove water-soluble salts dissolved therein from the slurry; a third step in which the slurry obtained in the second step is subjected to a hydrothermal reaction in the presence of an organic acid; a fourth step in which the slurry obtained in the third step is filtered and washed with water to remove water-soluble salts dissolved therein from the slurry; a fifth step in which an acid is added to the slurry obtained in the fourth step to deflocculate the slurry, and the resulting slurry is subjected to wet dispersion treatment, thereby obtaining a dispersion; and a sixth step in which excess acid and water-soluble salts are removed from the dispersion obtained in the fifth step.
    • 本发明提供一种制备金红石型氧化钛颗粒的水性分散体的方法,其包括:第一步骤,其中将四氯化钛水溶液的氯离子浓度调节至0.5摩尔/升以上且小于4.4倍 摩尔/ L,将四氯化钛水溶液在25℃至75℃的温度范围内加热以水解四氯化钛,从而获得含有如此沉淀的金红石型氧化钛颗粒的浆料; 将第一步骤中获得的浆液过滤并用水洗涤以从浆料中除去溶解在其中的水溶性盐的第二步骤; 在第二步骤中获得的浆料在有机酸存在下进行水热反应的第三步骤; 将第三步骤中获得的浆液过滤并用水洗涤以从浆料中除去溶解在其中的水溶性盐的第四步骤; 在第四工序中得到的浆料中加入酸以使浆料脱絮凝的第五步骤,将得到的浆料进行湿分散处理,得到分散体; 以及从第五步骤中获得的分散体中除去过量的酸和水溶性盐的第六步骤。
    • 9. 发明授权
    • Eye open/close recognizing apparatus and recording medium
    • 眼睛打开/关闭识别装置和记录介质
    • US08139819B2
    • 2012-03-20
    • US13121125
    • 2009-12-02
    • Takanori MoritaTakashi HiramakiJun AdachiYoshinao Takemae
    • Takanori MoritaTakashi HiramakiJun AdachiYoshinao Takemae
    • G06K9/00
    • G08B21/06A61B5/18B60K28/06G08B29/26
    • A computer (30) obtains a facial image acquired by picking up an image of a person subjected to image pickup from a camera (10), and estimates a facial expression of the person subjected to image pickup based on the obtained facial image. Next, the computer obtains an eye open level of the person subjected to image pickup based on the facial image, and sets a threshold of the eye open level based on the estimated facial expression of the person subjected to image pickup. When the eye open level exceeds the threshold, the computer (30) determines that the eye of the person subjected to image pickup is opened. Moreover, when the eye open level does not exceed the threshold, the computer determines that the eye of the person subjected to image pickup is closed.
    • 计算机(30)通过从摄像机(10)拾取被摄取的人的图像来获取所获取的面部图像,并且基于所获得的面部图像估计受到图像拾取的人的面部表情。 接下来,计算机基于面部图像获得进行图像摄取的人的开放水平,并且基于经过图像拾取的人的估计的面部表情来设置眼睛开放水平的阈值。 当眼睛打开水平超过阈值时,计算机(30)确定遭受图像拾取的人的眼睛被打开。 此外,当眼睛打开水平不超过阈值时,计算机确定被摄取的人的眼睛被关闭。