I. Ichihashi scite author profile

I. Ichihashi

5Publications

9Citation Statements Received

0Citation Statements Given

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Affiliations

Kyoto Institute of Technology

Publications

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Seismic Proving Test of Eroded Piping: Status of Eroded Piping Component and System Test

Namita¹,

Suzuki²,

Abe³

et al. 2003

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In FY 2000, a 3-year testing program of eroded piping was initiated with the following objectives: 1) to ascertain the seismic safety margins for eroded piping designed under the current seismic design code, 2) to clarify the elasto-plastic response and ultimate strength of eroded nuclear piping. A series of tests on eroded piping components and eroded piping systems was planned. In this paper, the results of those tests are presented and analyzed, focusing on the influence of the form and the number of thinned-wall portions on the fatigue life of the piping.

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Seismic Proving Test of Ultimate Piping Strength: Current Status of Preliminary Tests — II

Suzuki¹,

Namita²,

Abe³

et al. 2002

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In 1998FY, the 6 year program of piping tests was initiated with the following objectives: i) to clarify the elasto-plastic response and ultimate strength of nuclear piping, ii) to ascertain the seismic safety margin of the current seismic design code for piping, and iii) to assess new allowable stress rules. In order to resolve extensive technical issues before proceeding on to the seismic proving test of a large-scale piping system, a series of preliminary tests of materials, piping components and simplified piping systems is intended. In this paper, the current status of the piping component tests and the simplified piping system tests is reported with focus on fatigue damage evaluation under large seismic loading.

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Seismic Proving Test of Ultimate Piping Strength: Test Results on Piping Component and Simplified Piping System

Suzuki¹,

Namita²,

Abe³

et al. 2002

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Development of Seismic Design Method for Piping System Supported by Elastoplatic Damper. 1st Report, Development of Design Method for Elastoplastic Damper.

Namita¹,

Kawahata²,

Ichihashi³

et al. 1994

Trans.JSME(C)

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A Study of Elasto-Plastic Response of Single Degree of Freedom System Using Artificial Ground Motions With Given Time-Frequency Characteristics

Ichihashi

Sone

Masuda

et al. 2010

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In this paper, a number of artificial earthquake ground motions compatible with time-frequency characteristics of recorded actual earthquake ground motion as well as the given target response spectrum are generated using wavelet transform. The maximum non-dimensional displacement of elasto-plastic structures excited these artificial earthquake ground motions are calculated numerically. Displacement response, velocity response and cumulative input energy are shown in the case of the ground motion which cause larger displacement response. Under the given design response spectrum, a selection manner of generated artificial earthquake ground motion which causes lager maximum displacement response of elasto-plastic structure are suggested.

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I. Ichihashi

Seismic Proving Test of Eroded Piping: Status of Eroded Piping Component and System Test

Seismic Proving Test of Ultimate Piping Strength: Current Status of Preliminary Tests — II

Seismic Proving Test of Ultimate Piping Strength: Test Results on Piping Component and Simplified Piping System

Development of Seismic Design Method for Piping System Supported by Elastoplatic Damper. 1st Report, Development of Design Method for Elastoplastic Damper.

A Study of Elasto-Plastic Response of Single Degree of Freedom System Using Artificial Ground Motions With Given Time-Frequency Characteristics

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