Tadashi Soh scite author profile

Tadashi Soh

5Publications

21Citation Statements Received

0Citation Statements Given

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Affiliations

Kobe Steel (Japan)

Publications

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Flexibility Factors and Stress Indices for Piping Components With D/T ≧ 100 Subjected to In-Plane or Out-of-Plane Moment

Fujimoto

Soh

1988

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The finite element analyses are carried out for the several piping components (D/T ≧ 100) subjected to in-plane or out-of-plane moment. For the stress evaluation of the chemical plant piping systems, ANSI B31.3 is usually applied. But the stress intensification factors and flexibility factors in this code are mainly for a heavy-wall-thickness pipe, so it is necessary to reconsider these factors for a thin-wall-thickness pipe with a large diameter. In our study, several finite element analyses using MSC/NASTRAN program were performed on the pipe bends (elbow or miter bend, 0.01 ≦ h ≦ 0.2) and the unreinforced fabricated tees (50 ≦ D/Tr ≦ 300, 0.5 ≦ d/D ≦ 0.95, 0.25 ≦ Tb/Tr ≦ 0.95), and the empirical formulas for the flexibility factors and the stress indices, due to out-of-plane or in-plane moment, were proposed. Experimental stress analyses for the piping components with D/Tr = 127 were also carried out, and it was confirmed that the results agreed well with the numerical ones.

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Numerical simulation of the densification behaviour of metal powder during hot isostatic pressing

Nohara

Nakagawa

Soh

et al. 1988

Numerical Meth Engineering

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SUMMARYA numerical method is introduced which is based on metal flow theory and simulates the densification of metal powder during hot isostatic pressing.The method, in which nodal velocities are variables, takes into consideration the dependence of flow stress on the temperature, strain rate and relative density ofthe material. The compressibility ofporous metal as well as the incompressibility of fully dense metal are also taken into account.Porous specimens of the superalloy MERL76 were subjected to uniaxial compression tests at high temperature in order to determine the parameters of the equations on which the method is based. The densification behaviour of a turbine disk and two cylindrical components was numerically simulated and compared with experimental results.

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Shape determination problem of structures considering multiple loading conditions. Extension of inverse variational shape determination method.

Tada¹,

Seguchi²,

Soh³

1986

Trans.JSME, Ser.A

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Numerical Simulation of the Densification Behavior of Metal Powder During Hot Isostatic Pressing

Nohara¹,

Nakagawa²,

Soh³

1988

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Shape Determination Problems of Structures by the Inverse Variation Principle : 3rd Report, Feasibility Study about Application to Actual Structures

Tada¹,

Seguchi²,

Soh³

1986

Bulletin of JSME

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Tadashi Soh

Flexibility Factors and Stress Indices for Piping Components With D/T ≧ 100 Subjected to In-Plane or Out-of-Plane Moment

Numerical simulation of the densification behaviour of metal powder during hot isostatic pressing

Shape determination problem of structures considering multiple loading conditions. Extension of inverse variational shape determination method.

Numerical Simulation of the Densification Behavior of Metal Powder During Hot Isostatic Pressing

Shape Determination Problems of Structures by the Inverse Variation Principle : 3rd Report, Feasibility Study about Application to Actual Structures

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