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    • 1. 发明专利
    • Method and device for non-destructive material inspection by laser ultrasonic wave
    • 激光超声波非破坏性材料检测方法与装置
    • JP2005147813A
    • 2005-06-09
    • JP2003384573
    • 2003-11-14
    • Kansai Electric Power Co Inc:TheLaser Gijutsu Sogo KenkyushoNon-Destructive Inspection Co Ltd財団法人レーザー技術総合研究所関西電力株式会社非破壊検査株式会社
    • UCHIDA SHIGEAKIOREG KOCHAEVHASHIMOTO KAZUHISAMATSUBARA SHIGEYUKIMATSUI SHIGEKI
    • E02D33/00G01N29/00
    • PROBLEM TO BE SOLVED: To allow very precise, accurate and reliable inspection, of course when a material surface is a specular face, and even when a rough surface such as a surface of a concrete structure.
      SOLUTION: In this nondestructive material inspection device, a pulse laser beam from a pulse laser 20 is emitted toward the material surface of a measured object via a movable mirror 7 to generate an elastic wave (ultrasonic wave), a laser beam from a continuous oscillation laser 1 for a signal is branched by a polarization beam splitter 4, one thereof is emitted as a probe beam to the material surface coaxially with the pulse laser beam via the movable mirror 7, a reflected beam is transferred as a signal beam with a wave front deformed by an influence of a scattering face on the material surface and the elastic wave, and phase-modulated, the signal beam and a reference beam are made to get incident, crossed with a prescribed angle, into a laser beam interferometer by a photorefractive crystal 9, and the presence of a defect in an inside of a material is detected based on a change in the phase modulation of an interfered beam therein.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了允许非常精确,准确和可靠的检查,当然,当材料表面是镜面时,甚至当诸如混凝土结构的表面的粗糙表面时。 解决方案:在这种非破坏性材料检测装置中,来自脉冲激光器20的脉冲激光束经由可移动反射镜7向测量物体的材料表面发射以产生弹性波(超声波),来自 用于信号的连续振荡激光器1由偏振分束器4分支,其中一个作为探测光束通过可移动反射镜7与脉冲激光束同轴地发射到材料表面,反射光束作为信号光束传送 波面由材料表面上的散射面和弹性波的影响而变形,并进行相位调制,使信号光束和参考光束以规定的角度入射到激光束干涉仪中 通过光折射晶体9,并且基于其中的干涉光束的相位调制的变化来检测材料内部的缺陷的存在。 版权所有(C)2005,JPO&NCIPI
    • 3. 发明专利
    • Method and apparatus for reduction of harmful material
    • 减少有害材料的方法和装置
    • JP2003001064A
    • 2003-01-07
    • JP2001185283
    • 2001-06-19
    • Laser Gijutsu Sogo Kenkyusho財団法人レーザー技術総合研究所
    • SHIMADA YOSHINORIUCHIDA SHIGEAKIYAMANAKA CHIYOE
    • A62D3/176A62D3/19A62D3/34A62D3/37A62D101/22A62D101/28B01D53/34B01D53/70B01J19/08B01J35/02B09C1/02B09C1/08C07B35/06F01N3/02F01N3/08F23J15/00A62D3/00
    • PROBLEM TO BE SOLVED: To provide a method and an apparatus by which harmful materials in an exhaust gas is not only decomposed by discharge plasma, but also reduced by using the strong reduction force of hydrogen produced by ultraviolet rays from the discharge plasma at a low cost to treat the exhaust gas containing the harmful materials.
      SOLUTION: The apparatus A for reduction of harmful materials is constituted so that the harmful materials are reduced with hydrogen and electron in the reaction zone by connecting an exhaust pipe 2 to a casing 1, providing a high voltage electrode on one side of the casing 1 and a hydrogen producing means 4 on opposite side to face each other, generating discharge plasma by the discharge in the high voltage electrode, irradiating the hydrogen producing means 4 with ultraviolet rays from the discharge plasma, providing a semiconductor electrode 41 and a metallic electrode 42 with a gel material 45 in the hydrogen producing means to be in contact with an electrolyte vessel and absorbing the ultraviolet ray in the semiconductor electrode to release hydrogen from the metallic electrode 42 side.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供排气中的有害物质不仅通过排放等离子体分解的方法和装置,而且还通过使用来自放电等离子体的低的紫外线产生的氢的强的还原力而降低 处理含有有害物质的废气的成本。 解决方案:用于减少有害物质的装置A构成为:通过将排气管2连接到壳体1上,在反应区中用有害物质和电子减少,在外壳1的一侧设置高压电极 以及在相对面相对的氢产生装置4,通过高压电极中的放电产生放电等离子体,用来自放电等离子体的紫外线照射氢产生装置4,提供半导体电极41和金属电极42 在氢产生装置中的凝胶材料45与电解质容器接触并吸收半导体电极中的紫外线以从金属电极42侧释放氢。
    • 5. 发明专利
    • Exhaust gas absorbent and exhaust gas treatment device using the same
    • 排气吸收和排气处理装置使用相同
    • JP2003305333A
    • 2003-10-28
    • JP2002113437
    • 2002-04-16
    • Laser Gijutsu Sogo Kenkyusho財団法人レーザー技術総合研究所
    • SHIMADA YOSHINORIIN KOHAUCHIDA SHIGEAKIWADA YUJIYAMANAKA CHIYOE
    • B01D53/60B01D53/34B01D53/74B01D53/77B01J20/04
    • Y02A50/2344
    • PROBLEM TO BE SOLVED: To obtain an exhaust gas absorbent which can remarkably improve the absorption efficiency by utilizing the properties of a porous material having a large specific surface area as a means for absorbing and removing hazardous components such as nitrogen oxides NOx contained in exhaust gas, and which has combinedly has the properties as a solution absorbent. SOLUTION: A porous material of an adsorptive material having micropores 2 is used as the exhaust gas absorbent 1. Liquid parts 3 in which an alkaline substance such as sodium hydroxide is dissolved are carried on the surface of the material part 1a of the gas absorbent 1 so as to have each angstrom or micrometer thickness and size. When the exhaust gas passes through the inside of the pores 2, the hazardous components are taken into the liquid parts 3 by chemical reactions to be removed. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了获得可以通过利用具有大比表面积的多孔材料的性质来显着提高吸收效率的废气吸收剂作为用于吸收和去除诸如氮氧化物的有害成分的装置 在废气中,并且其具有作为溶液吸收剂的性质。 解决方案:使用具有微孔2的吸附材料的多孔材料作为废气吸收剂1.其中溶解有碱性物质如氢氧化钠的液体部分3被承载在材料部分1a的表面上 气体吸收剂1,以便具有每埃埃或厚度的厚度和尺寸。 当废气通过孔2的内部时,有害成分通过化学反应被吸入液体部分3中以除去。 版权所有(C)2004,JPO