会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明专利
    • Prediction method of deterioration of paint film
    • 预测涂膜的预测方法
    • JP2005017132A
    • 2005-01-20
    • JP2003183126
    • 2003-06-26
    • Nagoya CityToagosei Co Ltd名古屋市東亞合成株式会社
    • KIMATA YOSHINORIIIDA AKIHITOIIDA HIROSHI
    • G01N17/00G01Q30/04G01Q60/24G01Q60/32G01Q90/00G01N13/16
    • PROBLEM TO BE SOLVED: To provide a method for predicting the time of deterioration of a paint film occurring after a long-term weathering test from the result of a short-time weathering test.
      SOLUTION: This prediction method of deterioration of the paint film is characterized as follows: the surface shape of each paint film is measured by a scanning probe microscope by using a plurality of paint films having different deterioration times in the weathering test, to thereby acquire the average surface roughness on the surface; a mathematical expression for showing the relation between the average surface roughness and the deterioration time is acquired from numerical value information of the average surface roughness acquired on each paint film and the deterioration time of the paint film; and the average surface roughness is substituted for the expression to thereby determine the time corresponding thereto. The prediction method of deterioration of the paint film is also characterized by using following expression (1) or the expression (2) as the mathematical expression. The expression (1): R=αt+β, the expression (2): R=βe
      αt , wherein R is the average surface roughness, t is the deterioration time; and α and β are regression coefficients in each expression.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种用于预测长期风化试验后出现的漆膜的劣化时间的方法,其从短时耐候试验结果来看。 < P>解决方案:这种漆膜劣化的预测方法的特征如下:通过扫描探针显微镜,通过使用在耐候性试验中具有不同劣化时间的多个漆膜测量各涂膜的表面形状, 从而获得表面上的平均表面粗糙度; 从各涂膜获得的平均表面粗糙度的数值信息和涂膜的劣化时间的数值信息求出表示平均表面粗糙度与劣化时间的关系的数学表达式。 并用平均表面粗糙度代替表达式,从而确定与之对应的时间。 涂膜的劣化的预测方法的特征还在于使用下面的表达式(1)或表达式(2)作为数学表达式。 表达式(1):R =αt+β,表达式(2):R =βeαt其中R是平均表面粗糙度,t是劣化时间; α和β是每个表达式的回归系数。 版权所有(C)2005,JPO&NCIPI
    • 2. 发明专利
    • Fuel cell
    • 燃料电池
    • JP2006202511A
    • 2006-08-03
    • JP2005009977
    • 2005-01-18
    • Toagosei Co Ltd東亞合成株式会社
    • YAMADA YOSHINORIHIRAOKA HIDEKIKIMATA YOSHINORI
    • H01M8/24H01M8/02H01M8/10
    • Y02E60/523
    • PROBLEM TO BE SOLVED: To provide a downsized, light-weight, and inexpensive fuel cell in which series connection is possible without using a high cost separator and an end plate.
      SOLUTION: A printed circuit board is used as the end plate, wiring for series-connecting a plurality of unit cells and a peripheral circuit such as a terminal for electrical connection to an external circuit are integrated with a fuel cell body, and the mechanical strength of the fuel cell body and the superior contact of an electrode are maintained. Furthermore, the surface roughness of a metal mesh is limited to a specific value, whereby, superior contact conductivity with a fuel cell electrode is provided even under relatively low pressure.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供一种尺寸小,重量轻且廉价的燃料电池,其中可以不使用高成本的隔板和端板来进行串联连接。 解决方案:使用印刷电路板作为端板,用于串联连接多个单电池的布线和诸如用于与外部电路的电连接的端子等外围电路与燃料电池体一体化, 维持燃料电池体的机械强度和电极的上接触。 此外,金属网的表面粗糙度被限制在特定值,由此即使在相对低的压力下也提供与燃料电池电极的良好的接触导电性。 版权所有(C)2006,JPO&NCIPI
    • 5. 发明专利
    • Measuring method for concentration of silanol group
    • 硅烷醇组浓度测定方法
    • JP2003035667A
    • 2003-02-07
    • JP2001223821
    • 2001-07-25
    • Toagosei Co Ltd東亞合成株式会社
    • KIMATA YOSHINORIMATSUSHIMA YOSHIAKI
    • G01N21/03G01N21/35G01N21/3554G01N21/3577G01N21/359
    • PROBLEM TO BE SOLVED: To provide a measuring method for the concentration of a silanol group in a substance containing moisture in a trace amount. SOLUTION: In the method, the concentration of the silanol group in a sample containing the moisture in the trace mount is measured by a near-infrared and infrared absorptiometric method. In the measuring method, an extinction (A1 ) at a band of a wave number of 3,500 to 3,800 cm as the characteristic absorption band of both water and the silanol group and an extinction (A2 ) at a band of a wave number of 5,100 to 5,400 cm as the characteristic absorption band of only the water are measured by a transmission method in a state that the sample is put into a cell, and the concentration of the silanol group in the sample is measured on the basis of an extinction (A4 ) which subtracts an extinction (A3 ) based on a moisture amount corresponding to the extinction (A2 ) from the extinction (A1 ).
    • 要解决的问题:提供含有微量水分的物质中的硅烷醇基浓度的测定方法。 解决方案:在该方法中,通过近红外和红外吸收光度法测量含有痕量载体中的水分的样品中的硅烷醇基团的浓度。 在测量方法中,作为水和硅烷醇基团的特征吸收带和在波段的消光(A2),波数为3,500至3,800cm -1的波段的消光(A1) 作为仅水的特征吸收带的数量为5,100〜5,400cm -1,通过透射法测定,将样品放入电池中,并测定样品中的硅烷醇基浓度 基于与灭绝(A2)对应的水分量(A 1)的灭绝(A4)的基础,其消除灭绝(A3)。
    • 6. 发明专利
    • POLYTHIOPHENE COMPOUND AND PREPARATION THEREOF
    • JPH09151241A
    • 1997-06-10
    • JP33117095
    • 1995-11-28
    • TOAGOSEI CO LTD
    • KIMATA YOSHINORIKURIYAMA AKIRA
    • C08G61/12C07D333/14C08G61/10H01L51/50H05B33/14
    • PROBLEM TO BE SOLVED: To prepare a compd. which possesses various semiconductive properties and has a reactive silyl substituent usable in a hydrosilyation, a Wurtz condensation, a hydrolysis condensation or the like by selecting a particular polythiophene compd. SOLUTION: A polythiophene compd., having a hydrosilyl group in its terminal, represented by formula I (R represents a 4-8C straight-chain alkyl; R represents CH3 or H; and N is 5 to 100) is selected. Further, a polythiophene compd., having a chlorosilyl group in its terminal, represented by formula II (R is R ; and R represents CH3 or Cl) is selected. Furthermore, a polythiophene compd., having an alkoxysilyl group in its terminal, represented by formula III (R is R ; and R represents a 1-4C alkyl) is selected. A compd. represented by formula IV (R is R ) and a compd. represented by formula V (R is R ) or a compd. represented by formula VI (R is R ) are subjected to Grignard polymn. in the presence of a nickel complex catalyst to prepare a compd. represented by formula I or a compd. represented by formula III. The compd. represented by formula I is reacted with CCl4 to prepare a compd. represented by the formula II in the presence of a palladium chloride catalyst.