A Proposal of Inelastic Constitutive Equations of Lead Alloys Used for Structural Tests Simulating Severe Accident Conditions

Hashidate, Ryuta; Onizawa, Takashi; Wakai, Takashi; Kasahara, Naoto

doi:10.1115/pvp2019-93820

Volume 3: Design and Analysis 2019

DOI: 10.1115/pvp2019-93820

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A Proposal of Inelastic Constitutive Equations of Lead Alloys Used for Structural Tests Simulating Severe Accident Conditions

Ryuta Hashidate

Takashi Onizawa

Takashi Wakai

et al.

Abstract: This paper studies inelastic stress-strain relationship equation and creep rupture equation and creep strain equation of 99%lead-1% antimony alloy. Under the severe accident conditions, structural materials of nuclear power plants are subjected to excessive high temperature. Although it is very essential to clarify how the structure collapses under the severe accident conditions, there’re no experimental evidences of failure modes and the failure mechanisms in such high temperatures are not clarified. However,… Show more

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Investigation on failure behaviors of piping systems under seismic loads using a simulation material

Izumi

Kasahara

2020

Transactions of the JSME (In Japanese)

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To investigate the failure behaviors of piping systems under extremely large seismic loads, which should be considered in beyond design basis events (BDBE), a new experimental procedure was proposed that used pipes made of a simulation material. In the proposed procedure, destructive experiments were carried out with the use of pure lead (Pb) as the simulation material, owing to its considerably low strength compared with that of steel. As the first step of the structural experiment, shaking table tests on simple piping system models, which included an elbow pipe made of Pb were conducted. Then, through excitation tests using various sinusoidal inputs, failure modes such as "ratchet and subsequent collapse," "excessive deformation by one cycle," and "no failure after considerable large number of inputs" were obtained. The failure modes appeared to be affected by steady loads such as self-weight, input seismic load, and the relation between input motion's frequency and specimen's natural frequency. The proposed procedures seemed to be effective for studying mechanical failure behaviors with large plasticity under excessive seismic load, which is difficult to achieve by experiments on steel pipes.

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Investigation on failure behaviors of piping systems under seismic loads using a simulation material

Izumi

Kasahara

2020

Transactions of the JSME (In Japanese)

View full text Add to dashboard Cite

show abstract

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A Proposal of Inelastic Constitutive Equations of Lead Alloys Used for Structural Tests Simulating Severe Accident Conditions

Cited by 1 publication

References 0 publications

Investigation on failure behaviors of piping systems under seismic loads using a simulation material

Investigation on failure behaviors of piping systems under seismic loads using a simulation material

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