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    • 1. 发明授权
    • Heat-curable polyorganosiloxane composition and use thereof
    • 热固性聚有机硅氧烷组合物及其用途
    • US09540551B2
    • 2017-01-10
    • US13700573
    • 2011-12-06
    • Koji OkawaKazuhisa Ono
    • Koji OkawaKazuhisa Ono
    • C09J183/07C09J183/04C08G77/12C08K5/5419C08G77/20C08K5/56
    • C09J183/04C08G77/12C08G77/20C08K5/5419C08K5/56C08L83/00Y10T428/31663
    • A heat-curable polyorganosiloxane composition which includes (A) an alkenyl group-containing linear polyorganosiloxane of the formula (I) below, wherein Ra represents a C2-C6 alkenyl and Rb represents a C1-C6 alkyl or a phenyl; (B1) a linear polyorganohydrogensiloxane of the formula (II) below, wherein Rc is hydrogen and Rd represents a C1-C6 alkyl or a phenyl; (B2) a cyclic polyorganohydrogensiloxane including Re2HSiO1/2, wherein Re represents a hydrogen atom or C1-C6 alkyl group, and SiO4/2, and having three or more hydrogen atoms bonded to a silicon atom in one molecule; (C) a platinum series catalyst; and (D) an adhesion promoter, wherein the formula (I) and the formula (II) are as follows:
    • 这是为了提供可热固化的聚有机硅氧烷组合物。 可热固化的聚有机硅氧烷组合物包含(A)由式(I)表示的含烯基的线性聚有机硅氧烷; (B1)由式(II)表示的直链聚有机氢硅氧烷; (B2)包含R e 2 HSiO 1/2单元(其中R e表示氢原子或C 1 -C 6烷基)和SiO 4/2单元的环状聚有机氢硅氧烷,并且具有三个或更多个氢原子键合至 一个分子中的硅原子; (C)铂系催化剂; 和(D)粘合促进剂,(B1)的氢原子的数量H B1的和(H B1 + H B2)与氢原子的数量H B2与( B2)基于(A)的烯基的数目ViA为0.2〜1.0,H B1为H B1 + H B2为0.5〜0.8。
    • 3. 发明授权
    • Organic electroluminescent element sealing composition and organic light-emitting device
    • 有机电致发光元件密封组合物和有机发光装置
    • US08304991B2
    • 2012-11-06
    • US12971404
    • 2010-12-17
    • Koji OkawaOsamu Tamura
    • Koji OkawaOsamu Tamura
    • H01J1/63C08L83/07
    • H05B33/04C08G77/12C08G77/20C08L83/04H01L51/5246H01L51/5253
    • This organic electroluminescent element sealing composition contains an addition reaction curing type silicone composition which is liquid at normal temperature and has a curing temperature of 100 degrees C. or below and a moisture content of 400 ppm or less. The addition reaction curing type silicone composition contains (A) polyorganosiloxane having an average of 0.2 to 5 alkenyl groups bonded to silicon atoms in one molecule, (B) polyorganohydrogensiloxane having at least two or more hydrogen atoms bonded to silicon atoms in one molecule, and (C) a platinum-based catalyst. The organic electroluminescent element sealing composition can prevent deterioration of the organic electroluminescent element and can provide the organic light-emitting device having a good light-emitting property for a long period.
    • 该有机电致发光元件密封组合物含有在常温下为液态,固化温度为100℃以下,水分为400ppm以下的加成反应固化型硅酮组合物。 加成反应固化型硅氧烷组合物含有(A)在1分子中平均具有与硅原子键合的2〜5个烯基的聚有机硅氧烷,(B)在1分子中具有与硅原子键合的氢原子中的至少2个以上的聚有机氢硅氧烷,以及 (C)铂系催化剂。 有机电致发光元件密封组合物可以防止有机电致发光元件的劣化,并且可以长时间地提供具有良好的发光特性的有机发光器件。
    • 4. 发明授权
    • Clustering processing method, clustering processing apparatus, and non-transitory computer-readable medium
    • 聚类处理方法,聚类处理装置和非暂时性计算机可读介质
    • US08218881B2
    • 2012-07-10
    • US12825062
    • 2010-06-28
    • Koji Okawa
    • Koji Okawa
    • G06K9/62
    • G06K9/38G06K9/6223G06K2209/01G06T7/11G06T2207/10008G06T2207/30176
    • A clustering processing method for dividing a samples into a plurality of clusters based on a feature amount of each sample, the plurality of clusters each belonging to one of a plurality of layers composed of M layers (M=2, . . . , K), the clustering processing method comprises a sample allocating step of allocating a sample targeted for processing to a cluster belonging to a first layer, based on a result of comparing the feature amount of the target sample with a representative feature amount of each of clusters belonging to the first layer; a determination step of determining whether to allocate a cluster belonging to an M−1th layer to an Mth layer; and a cluster allocating step of allocating a cluster belonging to the M−1th layer to the Mth layer, if it is determined in the determination step to allocate a cluster belonging to the M−1th layer to the Mth layer.
    • 一种聚类处理方法,用于基于每个样本的特征量将样本分成多个聚类,所述多个聚类各自属于由M个层(M = 2,...,K)组成的多个层之一, 所述聚类处理方法包括:样本分配步骤,其基于将所述目标样本的特征量与属于所述第一层的群集的每个簇的代表特征量进行比较的结果,将针对所述待处理的样本分配给属于第一层的群集 第一层; 确定步骤,确定是否将属于第M层的群集分配给第M层; 以及如果在所述确定步骤中确定将属于所述M-1层的集群分配给所述第M层,则将分配属于所述M-1层的集群的集群分配步骤分配给所述第M层。
    • 5. 发明申请
    • CLUSTERING PROCESSING METHOD, CLUSTERING PROCESSING APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE MEDIUM
    • 集群处理方法,集群处理设备和非终端计算机可读介质
    • US20110026841A1
    • 2011-02-03
    • US12825062
    • 2010-06-28
    • Koji Okawa
    • Koji Okawa
    • G06K9/62
    • G06K9/38G06K9/6223G06K2209/01G06T7/11G06T2207/10008G06T2207/30176
    • A clustering processing method for dividing a samples into a plurality of clusters based on a feature amount of each sample, the plurality of clusters each belonging to one of a plurality of layers composed of M layers (M=2, . . . , K), the clustering processing method comprises a sample allocating step of allocating a sample targeted for processing to a cluster belonging to a first layer, based on a result of comparing the feature amount of the target sample with a representative feature amount of each of clusters belonging to the first layer; a determination step of determining whether to allocate a cluster belonging to an M−1th layer to an Mth layer; and a cluster allocating step of allocating a cluster belonging to the M−1th layer to the Mth layer, if it is determined in the determination step to allocate a cluster belonging to the M−1th layer to the Mth layer.
    • 一种聚类处理方法,用于基于每个样本的特征量将样本分成多个聚类,所述多个聚类各自属于由M个层(M = 2,...,K)组成的多个层之一, 所述聚类处理方法包括:样本分配步骤,其基于将所述目标样本的特征量与属于所述第一层的群集的每个簇的代表特征量进行比较的结果,将针对所述待处理的样本分配给属于第一层的群集 第一层; 确定步骤,确定是否将属于第M层的群集分配给第M层; 以及如果在所述确定步骤中确定将属于所述M-1层的集群分配给所述第M层,则将分配属于所述M-1层的集群的集群分配步骤分配给所述第M层。
    • 6. 发明授权
    • Evaporative fuel control apparatus of internal combustion engine
    • 内燃机蒸发燃料控制装置
    • US5143040A
    • 1992-09-01
    • US741646
    • 1991-08-07
    • Koji OkawaKazuhiko NorotaHiroyuki Mizuno
    • Koji OkawaKazuhiko NorotaHiroyuki Mizuno
    • F02D41/00
    • F02D41/0045F02D41/0032F02D41/0042
    • An evaporative fuel control apparatus of an internal combustion engine for controlling a purge correction amount and a fuel injection amount in response to a concentration of fuel vapor in intake mixture. The apparatus includes a detection part for detecting operating conditions of the engine and for supplying signals indicative of the operating conditions, a purge valve for controlling a flow of fuel vapor from a fuel tank to an intake passage, and a calculation part for calculating the fuel injection amount in response to the signals. The apparatus also includes a first injection control part for varying a feedback correction factor of an air-fuel ratio in response to the signals so as to maintain the air-fuel ratio at a stoichiometric value, and for correcting the fuel injection amount with the feedback correction factor, a second injection control part for correcting the fuel injection amount in response to the fuel vapor concentration which is determined from the varied feedback correction factor, and a purge correction part for correcting a purging amount of fuel vapor being fed by the purge valve to the intake passage in response to the fuel vapor concentration.
    • 一种内燃机的蒸发燃料控制装置,用于响应于进气混合物中的燃料蒸气的浓度来控制净化校正量和燃料喷射量。 该装置包括用于检测发动机的运行状况并提供指示运行状况的信号的检测部件,用于控制从燃料箱到进气通道的燃料蒸汽的流动的净化阀,以及用于计算燃料的计算部件 注入量响应信号。 该装置还包括第一喷射控制部分,用于响应于信号改变空燃比的反馈校正因子,以将空燃比保持在化学计量值,并且用反馈校正燃料喷射量 校正因子,第二喷射控制部分,用于响应于根据变化的反馈校正因子确定的燃料蒸气浓度校正燃料喷射量;以及净化校正部分,用于校正由净化阀进给的燃料蒸气的净化量 响应于燃料蒸气浓度而进入进气通道。