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    • 4. 发明公开
    • METHOD AND DEVICE FOR MEASURING SURFACE-HARDENED LAYER
    • VERFAHREN UND VORRICHTUNG ZUR MESSUNG EINER SCHICHT MITOBERFLÄCHENHÄRTUNG
    • EP2618141A1
    • 2013-07-24
    • EP11825256.8
    • 2011-09-16
    • IHI Corporation
    • YANAGIHARA, ArisaTAGAMI, MinoruWATANABE, KenichiroISHIDA, Yoshinori
    • G01N29/00G01N29/30
    • G01B17/025G01N29/07G01N29/30G01N29/4436G01N29/4454G01N2291/0251G01N2291/02854G01N2291/0423G01N2291/048G01N2291/102
    • A method comprises a calibration curve creation step (S2, S3, S4) in which a calibration curve is created on the basis of hardened surface layer depth obtained by performing a destructive test on one of two samples in pairs, and at least propagation time of a first peak of a first wave of waveform of a signal outputted with the other in pairs in a non-destructive test, the samples in pairs being prepared such that carburization depth varies gradually from pair to pair, a waveform measurement step (S5) in which waveform of a signal outputted with a to-be-inspected piece is obtained, a propagation time obtaining step (S6) in which at least propagation time of a first peak of a first wave of the waveform of the signal outputted with the to-be-inspected piece is obtained, and a hardened layer depth estimation step (S7) in which the hardened surface layer depth of the to-be-inspected piece is obtained using the calibration curve, on the basis of the propagation time obtained with the to-be-inspected sample.
    • 一种方法包括校准曲线创建步骤(S2,S3,S4),其中基于通过对成对的两个样本之一进行破坏性测试获得的硬化表面层深度创建校准曲线,并且至少传播时间 在非破坏性试验中,成对地输出信号的第一波形波形的第一峰值被准备好使得渗碳深度从一对到另一对逐渐变化,波形测量步骤(S5)在 获得被检查片段输出的信号的波形,传播时间获得步骤(S6),其中至少传播信号的信号的波形的第一波的第一波峰的传播时间, 获得被检查件,并且使用校准曲线获得待检查件的硬化表面层深度的硬化层深度估计步骤(S7),基于通过以下步骤获得的传播时间: -是- 检查样品。
    • 7. 发明公开
    • VACUUM PROCESSING DEVICE
    • VAKUUMVERARBEITUNGSVORRICHTUNG
    • EP3130690A1
    • 2017-02-15
    • EP15776174.3
    • 2015-04-09
    • IHI CorporationKaji Seisakusho Co., Ltd
    • NAKADA, YukihiroWATANABE, KenichiroTANAKA, YasutomoKITAGAWA, HidekiSODENO, Kenichi
    • C23C16/54C23C14/56
    • A device of executing vacuum processing on a reinforcement fiber has a chamber capable of keeping the chamber as a whole in a depressurized state; a feeding roller so disposed as to hang the reinforcement fiber down in the chamber; a processor so disposed in the chamber as to pass the reinforcement fiber hung down in the chamber through the processor; a capture device so disposed as to capture and keep a leading end of the reinforcement fiber passing the processor and vertically falling down in place; a winding bobbin configured to wind the reinforcement fiber processed by the processor; and a resilient cord withdrawn in synchronism with the winding bobbin from a first position where the resilient cord surrounds the leading end kept in place by the capture device to a second position where the resilient cord gets in contact with and leads the reinforcement fiber to the winding bobbin.
    • 在加强纤维上进行真空处理的装置具有能够将室保持整体处于减压状态的室, 馈送辊,其被设置成将所述增强纤维向下悬挂在所述室中; 处理器,其设置在所述室中,以使所述加强纤维通过所述处理器悬挂在所述室中; 捕获装置,被设置成捕获并保持加强纤维的前端通过处理器并垂直落下就位; 绕线筒管构造成卷绕由处理器处理的增强纤维; 以及从所述卷绕筒管同步退出的弹性绳索,所述第一位置将所述弹性帘线围绕所述捕获装置保持在适当位置的所述前端围绕到第二位置,在所述第二位置,所述弹性帘线与所述加强纤维接触并将所述加强纤维引导到所述卷绕 线轴。