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    • 3. 发明授权
    • Ultrasonic inspection apparatus
    • 超声波检测仪
    • US08276452B2
    • 2012-10-02
    • US12517234
    • 2008-01-24
    • Masayuki TakeishiMasanori ShimazakiMasahiro YuiTomoyuki Hirayama
    • Masayuki TakeishiMasanori ShimazakiMasahiro YuiTomoyuki Hirayama
    • G01B17/02
    • G01N29/2418G01N29/34G01N2291/2634G10K9/12G10K15/046
    • An ultrasonic inspection apparatus is provided in which the size of the apparatus can be made compact by using laser light, the degradation and deformation of the inspected object is prevented, and a broad range of inspections can be carried out. An ultrasonic inspection apparatus (1) is provided with a laser apparatus (5) that irradiates laser light and a volumetric inspection ultrasonic wave transmitter (17) having a transmitting diaphragm (39) that is irradiated by the laser light emitted by the laser apparatus (5) and that generates ultrasonic waves (C); and the ultrasonic inspection apparatus (1) carries out volumetric inspections by irradiating the ultrasonic waves (C) that are generated by the transmitting diaphragm (39) of the ultrasonic wave transmitting portion (17) to the inspected object. In addition, the ultrasonic inspection apparatus (1) is further provided with a surface inspection ultrasonic wave transmitting portion (19), and enables the carrying out of inspections having the characteristics of volumetric inspections and surface inspections, that is, hybrid inspections.
    • 提供一种超声波检查装置,通过使用激光可以使装置的尺寸变小,可以防止检查对象的劣化和变形,能够进行广泛的检查。 超声波检查装置(1)设置有照射激光的激光装置(5)和具有由激光装置发射的激光照射的发射光圈(39)的体积检查用超声波发射器(17) 5),并产生超声波(C); 超声波检查装置(1)通过将由超声波发送部(17)的发送用振动板(39)生成的超声波(C)照射到被检查体来进行体积检查。 另外,超声波检查装置(1)还具备表面检查用超声波透过部(19),能够进行具有体积检查和表面检查特性的检查,即混合检查。
    • 4. 发明申请
    • ULTRASONIC INSPECTION APPARATUS
    • 超声波检查装置
    • US20100058871A1
    • 2010-03-11
    • US12517234
    • 2008-01-24
    • Masayuki TakeishiMasanori ShimazakiMasahiro YuiTomoyuki Hirayama
    • Masayuki TakeishiMasanori ShimazakiMasahiro YuiTomoyuki Hirayama
    • G01N29/00
    • G01N29/2418G01N29/34G01N2291/2634G10K9/12G10K15/046
    • An ultrasonic inspection apparatus is provided in which the size of the apparatus can be made compact by using laser light, the degradation and deformation of the inspected object is prevented, and a broad range of inspections can be carried out. An ultrasonic inspection apparatus (1) is provided with a laser apparatus (5) that irradiates laser light and a volumetric inspection ultrasonic wave transmitter (17) having a transmitting diaphragm (39) that is irradiated by the laser light emitted by the laser apparatus (5) and that generates ultrasonic waves (C); and the ultrasonic inspection apparatus (1) carries out volumetric inspections by irradiating the ultrasonic waves (C) that are generated by the transmitting diaphragm (39) of the ultrasonic wave transmitting portion (17) to the inspected object. In addition, the ultrasonic inspection apparatus (1) is further provided with a surface inspection ultrasonic wave transmitting portion (19), and enables the carrying out of inspections having the characteristics of volumetric inspections and surface inspections, that is, hybrid inspections.
    • 提供一种超声波检查装置,通过使用激光可以使装置的尺寸变小,可以防止检查对象的劣化和变形,能够进行宽范围的检查。 超声波检查装置(1)设置有照射激光的激光装置(5)和具有由激光装置发射的激光照射的发射光圈(39)的体积检查用超声波发射器(17) 5),并产生超声波(C); 超声波检查装置(1)通过将由超声波发送部(17)的发送用振动板(39)生成的超声波(C)照射到被检查体来进行体积检查。 此外,超声波检查装置(1)还具备表面检查用超声波透过部(19),能够进行具有体积检查和表面检查特性的检查,即混合检查。
    • 7. 发明授权
    • Optical waveguide production method
    • 光波导制作方法
    • US08652569B2
    • 2014-02-18
    • US13236781
    • 2011-09-20
    • Tomoyuki Hirayama
    • Tomoyuki Hirayama
    • B05D5/06
    • G02B6/138
    • An optical waveguide production method is provided which reduces a transmission loss, improves alignment mark visual detectability, and ensures excellent productivity. In the optical waveguide production method, an under-cladding layer, a core and an alignment mark are formed on a surface of a metal substrate. On the other hand, a molding die is prepared which includes a cavity and an alignment mark to be associated with the alignment mark. In turn, light emitted from the side of the molding die is utilized for positioning the metal substrate and the molding die with reference to the pair of associated alignment marks. Then, an over-cladding layer is formed over the core. The alignment mark is formed from a photo-curable composition comprising the following components (A) and (B): (A) a polymerizable composition having a (meth)acrylate group; and (B) a photoradical polymerization initiator.
    • 提供一种光波导制造方法,其减少了传输损耗,提高了对准标记的视觉检测能力,并且确保了优异的生产率。 在光波导制造方法中,在金属基板的表面上形成下包层,芯和对准标记。 另一方面,制备模具,其包括空腔和与对准标记相关联的对准标记。 反过来,从成形模的一侧发射的光被用于参照一对相关联的对准标记来定位金属基板和成型模具。 然后,在芯上形成上敷层。 对准标记由包含以下成分(A)和(B)的光固化性组合物形成:(A)具有(甲基)丙烯酸酯基的聚合性组合物; 和(B)光自由基聚合引发剂。
    • 10. 发明授权
    • Resin composition for production of optical waveguide, and optical waveguide produced by using the resin composition
    • 用于制造光波导的树脂组合物和通过使用该树脂组合物制造的光波导
    • US08437598B2
    • 2013-05-07
    • US13098699
    • 2011-05-02
    • Tomoyuki Hirayama
    • Tomoyuki Hirayama
    • G02B6/00G02B6/10
    • G02B1/045G03F7/0005G03F7/038C08L63/00
    • A resin composition is provided, which satisfies both an uncured layer flexibility requirement and a patterning resolution requirement for production of an optical waveguide by a roll-to-roll process. An optical waveguide produced by using the resin composition is also provided. The resin composition comprises: (A) an aromatic multifunctional epoxy polymer having a weight average molecular weight (Mw) of 500 to 5000; (B) an aromatic multifunctional epoxy polymer having a weight average molecular weight (Mw) of 10000 to 50000; (C) at least one of monofunctional, difunctional and trifunctional liquid aromatic epoxy monomers; and (D) a photoacid generator; wherein the components (A), (B) and (C) are present in proportions of 80 to 90 parts by weight, 5 to 15 parts by weight, and 1 to 10 parts by weight, respectively, based on a total of 100 parts by weight of the components (A), (B) and (C).
    • 提供一种树脂组合物,其通过卷对卷方法满足未固化层柔性要求和用于生产光波导的图案分辨率要求。 还提供了使用该树脂组合物制造的光波导。 树脂组合物包含:(A)重均分子量(Mw)为500〜5000的芳族多官能环氧聚合物; (B)重均分子量(Mw)为10000〜50000的芳香族多官能环氧聚合物; (C)单官能,二官能和三官能的液体芳族环氧单体中的至少一种; 和(D)光致酸产生剂; 其中组分(A),(B)和(C)分别以80至90重量份,5至15重量份和1至10重量份的比例存在,基于总计100份 的组分(A),(B)和(C)。