NAKAGAWA Hiroji | Osaka University
スポンサーリンク
概要
関連著者
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NAKAGAWA Hiroji
Osaka University
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Matsuda Fukuhisa
Osaka Univ.
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MATSUDA Fukuhisa
Osaka University
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Nakagawa Hiroji
Welding Research Inst. Osaka Univ.
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Nakagawa H
Osaka Univ. Jpn
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MATSDA Fukuhisa
Osaka University
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Matsuda F
Osaka University
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Shinozaki Kenji
Central Research Lab. Furukawa Electric Co. Ltd.
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Kihara H
Tokyo And Osaka Universities
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Kihara H
Nagoya Univ. Nagoya Jpn
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Kihara H
Takara Shuzo Co. Ltd. Shiga Jpn
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KATAYAMA Seiji
Osaka University
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Zhang Y‐c
Osaka Univ. Osaka Jpn
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Zhang Yue-chang
Osaka University:shanghai Jiao Tong Univ.
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ARATA Yoshiaki
Osaka University
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KIHARA Hiroshi
Tokyo and Osaka Universities
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Zhang Yue-chang
Osaka University
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SHINOZAKI Kenji
Osaka University
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MORIMOTO Yoshinori
Osaka Univ.
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Matsuda Fukuhisa
Welding Research Inst. Osaka Univ.
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Morimoto Yoshinori
Osaka University:(present Office) Komai Iron Works Co. Ltd
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NAKATA Kazuhiro
Osaka university
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Lee Jong-bong
Osaka Univ.
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Nakata Kazuhiro
Osaka Univ. Ibaraki
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Park Hwa
Pukyong National University
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PARK Hwa
Osaka University
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Matsumoto Takeshi
Osaka University, Dept. Mechanical Science and Bioeng.
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TSURUTA Sanae
Nippon Steel Corp.
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Matsumoto Takeshi
Osaka University:(present Office)nisshin Steel Co. Ltd.
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Tsuji Tatsuo
Sumikin Welding Electrode Co. Ltd.
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TSUKAMOTO Muneyasu
Sumikin Welding Electrode Co. Ltd.
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Honda Yoshiaki
Kurume Technical College
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KOHMOTO Hiroaki
Osaka Univ.
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MATSUDA Fukuhisa
Welding Research Institute of Osaka University
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OGATA Seishiro
Osaka University
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Ogata Seishiro
Osaka University:(present Office)sumitomo Heavy Industries Ltd
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SHINOZAKI Kenji
Fuculty of Engineering, Osaka University
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SHIMOYAMA Jinichi
Mitsubishi Heavy Industries Co., Ltd.
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Shinozaki Kenji
Faculty Of Engineering Osaka University
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SAKABATA Nobuharu
Hitachi Zosen Corp.
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Kohmoto Hiroaki
Osaka Univ.:(present Office)mitsubishi Metal Corporation
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Nakagawa Hiroji
Welding Department Faculty Of Engineering Osaka University
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SENDA Tomio
Welding Department, Faculty of Engineering, Osaka University
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TOMITA Shogo
Osaka Univ.
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Shimoyama Jinichi
Mitsubishi Heavy Industries Co. Ltd.
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Senda Tomio
Welding Department Faculty Of Engineering Osaka University
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Kato Mitsuaki
Osaka University:metallurgical Department Kyushu Institute Of Technology
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KATOH Mitsuaki
Osaka University
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MATSUDA Fukuhisa
Faculty of Engineering, Osaka University
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SENDA Tomio
Faculty of Engineering, Osaka University
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Sanematsu Yoshihiro
Plant & Machinery Division Nippon Steel Co. Ltd.
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USHIO Masao
Osaka University
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TOMIE Michio
Osaka University
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Ushio Masao
Osaka Univ. Osaka Jpn
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HONDA Yoshioki
Kurume Technical College
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MATSUBARA Yasuhiro
Kurume Technical College
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UEHARA Takeo
Osaka University
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Uehara Takeo
Osaka University:(present Office)hitachi Ltd.
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OKADA Hitoshi
Osaka Univ.
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AYANI Ritsu
Osaka University
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MURATA Yoshiaki
Sumikin Welding Industries, Ltd.
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NISHIO Yasuhiro
Fuculty of Engineering, Kinki University
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TAKABA Shinji
Osaka University
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KIHARA Hiroshi
Emeritus Professor of Tokyo and Osaka University
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SUGIMOTO Tsutomu
Osaka University
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YAMADA Soutaro
Kawasaki Heavy Industries Co. LTD
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IWAMURA Yoshinari
Kawasaki Heavy Industries Co. LTD
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OHKUMA Yuji
Kawasaki Heavy Industries Co. LTD
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Nishio Yasuhiro
Engineering DEP. Kinki Univ.
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Murata Yoshiaki
Sumikin Welding Industries Ltd.
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Ejima Akio
Kawasaki Steel Corp.
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Ayani Ritsu
Osaka University:(present Office)sasakura Engineering Co. Ltd.
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Takaba Shinji
Osaka University:(present Office)matsuo Bridge Co. Ltd.
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Okada Hitoshi
Osaka Univ.:(present Office)kurimoto Iron Works Ltd.
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Tian Yan
Osaka University:mechanical Engineering Department Tsing Hua University
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MATSUDA Fukuhisha
Osaka University
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ZHANG Yue-Chang
Shanghai Jiao Tong Univ.
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KATO Ichiro
Sumikin Welding Industries, Ltd.
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MORIMOTO Hiroshi
Graduate Student of Osaka University
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SANEMATSU Yoshihiro
Plant & Machinery Division, Nippon Steel Co., Ltd.
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Katoh Shunichi
Hachinohe Technical College
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MURAKAWA Toshihiro
Osaka Univ.
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YAMAGUCHI Michio
Yamagata Research Institute of Technology
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MINEHISA Setsuji
Hitachi Zosen Corp.
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NOHARA Kiyohiko
Kawasaki Steel Corp.
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TSURUTA Sanae
Tobata Plant, Nippon Steel Corporation
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YOSHIDA Yasuyuki
Hiroshima Technical Institute, Mitsubishi Heavy Industries, Ltd.
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Yoshida Yasuyuki
Hiroshima Technical Institute Mitsubishi Heavy Industries Ltd.
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PIWOWAR Stanislaw
Osaka University
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Nagai Akira
Hitachi Shipbuildings Engineering Co. Ltd.
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Nagai Akira
Hitachi Research Laboratory Hitachi Ltd.
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Yara Hideo
Ryukyu University
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MAKISHI Yasuji
Ryukyu University
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HESHIKI Kenji
Ryukyu University
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UEYAMA Tomoyuki
Osaka University
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HIGA Masatsugu
Industrial Research Institute of Okinawa Prefecture
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SANEMATSU Yoshihiro
Nippon Steel Corporation
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Sugimoto Tsutomu
Osaka University:(present Office)sekigahara Seisakusho Co. Ltd.
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Kato Ichiro
Sumikin Welding Industries Ltd.
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Piwowar Stanislaw
Osaka University:warsaw Technical University
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SORADA Kazuhiko
Osaka Univ.
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Sorada Kazuhiko
Osaka Univ.:(present Office)sumitomo Heavy Industries Ltd.
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Matsubara Yasuhiro
Kurume National College Of Technology
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HONDA Yoshioki
Kurume College of Technology
著作論文
- Effect of Hydrogen Content on Cold Crack Susceptibility of Various Steels with the Implant Test
- Fractography of Cold Crack of Various Carbon Steels and Alloy Steels by Means of the Implant Test : Studies on Fractography of Welded Zone (IV)
- Quantitative Evaluation of Solidification Brittleness of Weld Metal during Solidification by In-Situ Observation and Measurement (Report II) : Solidification Ductility Curves for Steels with the MISO Technique(Materials, Metallurgy & Weldability)
- Quantitative Evaluation of Solidification Brittleness of Weld Metal during Solidification by Means of In-Situ Observation and Measurement (Report I) : Development of the MISO Technique(Materials, Metallurgy & Weldability)
- Solidification Crack Susceptibility in Weld Metals of Fully Austenitic Stainless Steels (Report VIII) : Effect of Nitrogen on Cracking in SUS 304 Weld Metal(Materials, Metallurgy & Weldability)
- Solidification Crack Susceptibility in Weld Metals of Fully Austenitic Stainless Steels (Report VII) : Effect of Mn and N on Solidification Crack Resistance(Materials, Metallurgy & Weldability)
- Solidification Crack Susceptibility in Weld Metals of Fully Austenitic Stainless Steels (Report VI) : Effect of La or REM Addition on Solidification Crack Resistance(MATERIALS METALLURGY AND WELDABILITY)
- A New Explanation for Role of Delta-Ferrite Improving Weld Solidification Crack Susceptibility in Austenitic Stainless Steel(Materials, Metallurgy, Weldability)
- Solidification Crack Susceptibility in Weld Metals of Fully Austenitic Stainless Steels (Report IV) : Effect of Decreasing P and S on Solidification Crack Susceptibility of SUS 310S Austenitic Stainless Steel Weld Metals
- Fractographic Investigation on Solidification Crack in the Varestraint Test of Fully Austenitic Stainless Steel : Studies on Fractography of Welded Zone (III)
- Solidification Crack Susceptibility in Weld Metals of Fully Austenitic Stainless Steels (Report III) : Effect of Strain Rate on Cracking Threshold in Weld Metal during Solidification
- The VDR Cracking Test for Solidification Crack Susceptibility on Weld Metals and Its Application to Aluminum Alloys(Materials, Metallurgy, Weldability)
- Effect of Electromagnetic Stirring on Weld Solidification Structure of Aluminum Alloys (Report I) : Investigation on GTA Weld Metal of Thin Sheet
- Hydrogen Embrittlement of SUS 316 Austenitic Stainless Steel Weldments(Materials, Metallurgy & Weldability)
- Evaluation of Transformation Expansion and Its Beneficial Effect on Cold Crack Susceptibility Using y-Slit Crack Test Instrumend with Strain Gauge(Materials, Metallurgy & Weldability)
- Effect of Transformation Expansion on Restraint Stress of Weldment in Relation to Cold Cracking of High Strength Steels(Materials, Metallurgy & Weldability)
- Effect of Residual Hydrogen Content on Cold Crack Susceptibility in Weld Metal of High Strength Steels
- Evaluation of Cold Crack Susceptibility in Weld Metal of High Strength Steels Using LB-TRC Test(Materials, Metallurgy, Weldability)
- Dynamic Observation with Nomarski Microscope of Hydrogen-Induced Delayed Cracking in High Strength Steel Weldments
- Propagation Behavior of Root Crack in Weld Metal of High Strength Steel on the Basis of AE Source Location Technique : Application of Acoustic Emission Technique for Weld Cracking (III)(Materials, Metallurgy, Weldability)
- Effect of Oxygen Content on Diffusible Hydrogen in Weld Metal in Inert-Gas Arc Welding for High Strength Steel
- Fractographic Investigation on Root Crack in the TRC Test of HY-130 Steel : Studies on Fractography of Welded Zone (II)
- Weld Cracking in Duplex Stainless Steel (Report III) : Numerical Analysis on Solidification Brittleness Temperature Range in Stainless Steel(Materials, Metallurgy & Weldability)
- Weld Cracking in Duplex Stainless Steel (Report II) : Modelling of Cellular Dendritic Growth during Weld Solidification(Materials, Metallurgy & Weldability)
- Weld Cracking in Duplex Stainless Steel (Report I) : Aspects of Solidification Sequence Revealed by Quenching(Materials, Metallurgy & Weldability)
- Measurements of Carbon Content in M-A Constituent in HAZ of High Strength Steel Welds
- Proposal of TZT Diagram for Microstructural Analysis of Transition Zone in Dissimilar Metal Welding : Formation Mechanism of Austenite Coarse Grain-boundary as the Site of Disbonding between 2・1/4Cr-1Mo Steel and Type 309 Overlaid Metal(Materials, Metallu
- Proposal of New Bonding Technique "Instantaneous Liquid Phase (ILP) Bonding"(Physics, Process & Instrument)
- Development of Restraint-relaxation U-form Hot Cracking Device
- Weldability of Fe-36%Ni Alloy (Report VI) : Further Investigation on Mechanism of Reheat Hot Cracking in Weld Metal(Materials, Metallurgy & Weldability)
- Weldadility of Fe-36%Ni Alloy (Report V) : Behaviors of Grain-boundary Sliding and Cavity Formation Preceding Reheat Hot Cracking in Weld Metal(Materials, Metallurgy & Weldability)
- Weldability of Fe-36%Ni Alloy (Report IV) : Dynamic Observation of Reheat Hot Cracking in Weld Metal by Means of Hot Stage Microscope(Materials, Metallurgy & Weldability)
- Weldability of Fe-36%Ni Alloy (Report III) : Dynamic Observation of Reheat Hot Crack and Evaluation of Hot Ductility of Reheated Weld Metal(Materials, Metallurgy & Weldability)
- Solidification Crack Susceptibility in Weld Metals of Duplex Stainless Steels : Effects of Ferrite Content and Microsegregation on Solidification Crack Susceptibility(Materials, Metallurgy & Weldability)
- Effect of Oxygen Content on Cold Cracking Susceptibility in Weld Metal of High Strength Steel(Materials, Metallurgy & Weldability)
- Criterion of Alternative Initiation of Cold Cracking in HAZ or Weld Metal for Root Pass Welds of High Strength Steels(Materials, Metallurgy & Weldability)
- The LB-TRC Test for Cold Crack Susceptibility of Weld Metal for High Strength Steels(Materials, Metallurgy, Weldability)
- Root Cracking Modes in Restraint Cracking Test of High Strength Steel Based on AE Technique and Fractography(Materials, Metallurgy, Weldability)
- Propagation Behavior of Root Crack in Y- and y-Grooved Restraint Cracking Test of 80kg/mm^2 Class Steel on the Basis of AE Source Location Technique : Application of Acoustic Emission Technique for Weld Cracking (IV)(Materials, Metallurgy, Weldability)
- Propagation Behavior of Root Crack in Restraint Cracking Test on the Basis of AE Source Location Technique : Application of Acostic Emission Technique for Weld Cracking (II)
- Weld Cold Cracking in HAZ of Engineering Carbon and Low Alloy Steel (Report IV) : Susceptibility and Crack Free Condition to Quenching Crack Type Cold Cracking under Various Cooling Conditions(Materials, Metallurgy & Weldability)
- Weld Cold Cracking in HAZ of Engineering Carbon and Low Alloy Steel (Report III) : Effect of Chemical Composition on Cold Cracking Susceptibility of Quenching Crack Type(Materials, Metallurgy & Weldability)
- Weld Cold Cracking in HAZ of Engineering Carbon and Low Alloy Steel (Report II) : Applicability of Simulation Test for Cold Cracking of Quenching Crack Type(Materials, Metallurgy & Weldability)
- Weld Cold Cracking in HAZ of Engineering Carbon and Low Alloy Steel (Report I) : Behavior of Cracking in the RRC Test of SNCM439 and SK5(Materials, Metallurgy & Weldability)
- Weldability of Fe-36% Ni Alloy (Report II) : Effect of Chemical Composition on Reheated Hot Cracking in Weld Metal(Materials, Metallurgy & Weldability)
- Quantitative Evaluation of Solidification Brittleness of Weld Metal during Solidification by In-Situ Observation and Measurement (Report IV) : Effect of Grain-Boundary Sliding on Strain-Rate Dependence of Critical Strain Required for Solidification Crack
- Proposal of Hydrogen Blistering Mechanism Associated with Disbonding between 2・1/4Cr-1Mo Steel and Type 309 Overlaid Metal
- Quantitative Evaluation of Solidication Brittleness of Weld Metal during Solidification by In-Situ Observation and Measurement (Report III) : Effect of Strain Rate on Minimum Ductility Required for Solidification Crack Initiation in Carbon Steels, Stainle
- Hydrogen-Induced Cracking (HIC) for Electron-Beam Weldments of High Tension Constructional Steels
- Disbonding between 21/4Cr-1Mo Steel and Overlaid Austenitic Stainless Steel by Means of Electrolytic Hydrogen Charging Technique(Materials, Metallurgy & Weldability)
- Some Problems of the Weldability of High Strength Thick Plate Steels Subjected to Electron Beam Welding(Materials, Metallurgy & Weldability)
- Linear Source Location of Acoustic Emission from Weld Cold Crack in Steel : Application of Acoustic Emission Technique for Weld Cracking (I)
- SEM Dynamic Observation of Hydrogen-Induced Cold Cracking in Weld Metal of 80kg/mm^2 Class Steel
- Dynamic Observation with Scanning Electron Microscope (SEM) of Hydrogen-Induced Cracking in High Strength Steel Weldments
- Weldability of Fe-36%Ni Alloy (Report I) : Hot Cracking with Cross-Bead Test(Materials, Metallurgy, Weldability)
- Effects of Alloying Elements on Cold Crack Susceptibility in 0.1%C Basic Steels with Implant Test(Materials, Metallurgy, Weldability)
- Simulation Test of Disbonding between 2Cr-1Mo Steel and Overlaid Austenitic Stainless Steel by Electrolytic Hydrogen Charging Technique
- Implant Weldability Test in Wet Underwater Welding(Materials, Metallurgy & Weldability)
- Crystallographic Anisotropy of Columnar Zone in Aluminum Weld Metal
- Crystallographic Investigation for Origination of New Columnar Crystal in Aluminum Weld Metal Using Single Crystal Sheet
- Solidification Crack Susceptibility in Laser Beam Weld Metal of 0.2C-Low Alloy Steels : Effects of Bead Configuration and S and P Contents(Materials, Metallurgy & Weldability)
- A New Fracture Analysis of Weld Cracks by Means of Recrystallization Method
- Dynamic Observation of Hydrogen-Induced Cracking in Medium Carbon Martensitic Steel
- Dynamic Observation of Solidification and Solidification Cracking during Welding with Optical Microscope (I) : Solidification Front and Behavior of Cracking(Materials, Metallurgy & Weldability)
- Some Fractographic Features of Various Weld Cracking and Fracture Surfaces with Scanning Electron Microscope : Studies on Fractography of Welded Zone (I)
- Fractographic Features and Classification of Weld Solidification Cracks