Nakacho K | Osaka University
スポンサーリンク
概要
関連著者
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NAKACHO Keiji
Osaka University
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Nakacho K
Osaka University
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UEDA Yukio
Osaka University
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Ueda Y
Kinki University
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Fung Tat-ching
Nanyang Technological University
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SOH Chee-Kiong
Nanyang Technological University
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CHAN Toong-Khuan
Nanyang Technological University
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YAMAZAKI Masayoshi
National Institute for Materials Science
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KINUGAWA Jun-ichi
National Institute for Materials Science
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KINUGAWA Junichi
National Research Institute for Metals
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Rashed S
Msc Japan Ltd.
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ABE Nobuyuki
Osaka University
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Tsukamoto Masahiro
Osaka University
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Moriyama Shuji
Osaka University:(present Office)toyota Motor Corp.
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Yamazaki Masayoshi
National Research Institute For Metals
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ISHIHAMA Takaaki
The Japan Research Institute, Limited
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Ishihama Takaaki
The Japan Research Institute Limited
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Abe Nobuyuki
Osaka Univ. Osaka Jpn
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Tsukamoto M
Joining And Welding Research Institute Osaka University
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三宅 正司
近畿大学リエゾンセンター
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Rashed Sherif
Msc Japan Ltd.
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Rashed Sherif
Msc Japan Inc.
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Rashed Sherif
Century Research Center Corp.
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Nakagawa N
Faculty Of Integrated Arts And Sciences Hiroshima University
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Nakagawa Naoki
Osaka University
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Nakagawa Naoki
Research Institute For Biochemical Regulation School Of Agriculture Nagoya University
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MIYAKE Shoji
Osaka University
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SOH Chee-Kiong
Head of Div. of Structures and Mechanics, Nanyang Technological University
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Nakajima Nobuyoshi
Research Institute For Biochemical Regulation School Of Agriculture Nagoya University
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UEDA Yukio
Kinki University
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Nakagawa N
Hiroshima Univ. Higashi‐hiroshima Jpn
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NOGICHI Shuichi
Technology Research Institute of Osaka Prefecture
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MATSUISHI Masakatsu
Kanazawa Institute of Technology
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TABUSHI Noriyuki
Ishikawajima-Harima Heavy Industries Co., Ltd.
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ISHIHAMA Takaaki
Century Research Center Corp.
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Noguchi Shuichi
Technology Research Institute of Osaka Prefecture
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Tabushi Noriyuki
Ishikawajima-harima Heavy Industries Co. Ltd.
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Abe Nobuyuki
Joining And Welding Research Institute Osaka University
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Abe N
Joining And Welding Research Institute Osaka University
著作論文
- Stress Concentration Factors of Reinforced Square Hollow Section T-Joints(Mechanics, Strength & Structure Design)
- Ultimate Capacity of Doubler Plate Reinforced Square Hollow Section T-Joints(Mechanics, Strength & Structure Design)
- Stress Concentration Factors of T Tubular Joints Reinforced with Doubler Plates(Mechanics, Strength & Structure Design)
- Materials Processing with High Power Diode Lasers(Physics, Processes, Instruments & Measurements, INTERNATIONAL SYMPOSIUM OF JWRI 30TH ANNIVERSARY)
- Laser Forming of Thick Steel Plates by a 2kW Diode laser with a Kaleidoscope(Physics, Processes, Instruments & Measurements)
- Ultimate Strength of T-Joint in Tubular Frame of Jack-Up Type Oil Rig (Report I) : Experimental Study of Ultimate Strength of Unstiffened and Stiffened T-Joints under Normal Load(Mechanics, Strength & Structure Design)
- New Efficient and Accurate Method of Nonlinear Analysis of Offshore Tubular Frames (the Idealized Structural Unit Method) (Report I) : Development of Static Theory and Method(Mechanics, Strength & Structure Design)
- Creep Characteristics in Thick Welded Joints and Their Improvements (Report II) : Applicability of a Simple Model for Creep Analysis of Thick Welded Joints(Mechanics, Strength & Structure Design)
- Creep Characteristics in Thick Welded Joints and Their Improvements (Report I) : Development of A Simple Model for Creep Analysis of A Thick Welded Joint(Mechanics, Strength & Structure Design)
- An Efficient Method for Estimation of Reduction of Welding Residual Stresses from Stress-Relief Annealing (Report III) : Development of Estimation Equations for Multi-Axial Stress State in Thick Welded Joint(Mechanics, Strength & Structural Design)
- Effective Coefficient of Initial Deflection for Simple Prediction Method of Compressive Ultimate Strength of Rectangular Plate(Mechanics, Strength & Structural Design)
- Ultimate Strength of Jack-up Rigs in Survival and Punch-through Conditions(Mechanics, Strength & Structural Design)
- Simple Prediction Methods for Welding Deflection and Residual Stress of Stiffened Panels(Welding Mechanics, Strength & Design)