M. Miśkiewicz scite author profile

M. Miśkiewicz

5Publications

62Citation Statements Received

18Citation Statements Given

How they've been cited

119

How they cite others

Affiliations

Warsaw University of Technology, Institute of Plasma Physics and Laser Microfusion

Publications

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Material parameters of copper and CuCrZr alloy for cyclic plasticity at elevated temperatures

You

Miśkiewicz

2008

Journal of Nuclear Materials

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In this work material parameters of cyclic plasticity for soft copper and CuCrZr alloy were determined using the combined non-linear isotropic and kinematic hardening law (the Frederick-Armstrong-Chaboche model) for the temperature range between 20 °C and 550 °C. These parameters are the initial kinematic hardening modulus, the rate of change of kinematic hardening modulus, the maximum change in the size of the yield surface and the rate of change of the yield surface size. Both precipitation-hardened and annealing-softened states were examined for CuCrZr alloy. A series of strain-controlled cyclic tensioncompression tests were conducted at four temperature levels. The parameters were calibrated with the stabilised loops of stress-strain curves. The predicted stabilised loops from FEM simulation with the calibrated parameters showed good agreement with the experimental result demonstrating the validity of the considered constitutive model.

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Plasma-induced damage of tungsten coatings on graphite limiters

et al. 2007

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The effect of intense plasma pulse pre-treatment on wettability in ceramic–copper system

Barlak

Piekoşzewski

Stanisławski

et al. 2007

Fusion Engineering and Design

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Impact of plastic softening of over-aged CuCrZr alloy heat sink tube on the structural reliability of a plasma-facing component

Miśkiewicz

You

2008

Fusion Engineering and Design

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Precipitation-hardened CuCrZr alloy is used in fusion experiments as heat sink material for water-cooled plasma-facing components. When exposed to long term high-heat-flux (HHF) plasma operation, CuCrZr will undergo over-ageing and thus plastic softening. In this situation the softened CuCrZr heat sink tube will suffer from substantial plastic straining and thus fatigue damage in the course of the cyclic HHF loads. In this paper a computational case study is presented regarding the cyclic plasticity behaviour of the over-aged CuCrZr cooling tube in a water-cooled tungsten mono-block divertor component. Finite element analysis was performed assuming ten typical high-heat-flux load cycles and using the Frederick-Armstrong constitutive equation together with corresponding material parameters. It was shown that plastic shakedown and low cycle fatigue (LCF) would be caused in the heat sink tube when softening of CuCrZr should occur. On the other hand, neither elastic shakedown nor cumulative plastic strain (ratchetting) was found. LCF design life of the CuCrZr tube was estimated based on the ITER materials handbook considering both hardened and softened states of CuCrZr. Substantial impact of softening of the CuCrZr alloy on the LCF lifetime of the heat sink tube was demonstrated.

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Shakedown analysis of fibre-reinforced copper matrix composites by direct and incremental approaches

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Kim

Miśkiewicz

2009

Mechanics of Materials

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M. Miśkiewicz

Material parameters of copper and CuCrZr alloy for cyclic plasticity at elevated temperatures

Plasma-induced damage of tungsten coatings on graphite limiters

The effect of intense plasma pulse pre-treatment on wettability in ceramic–copper system

Impact of plastic softening of over-aged CuCrZr alloy heat sink tube on the structural reliability of a plasma-facing component

Shakedown analysis of fibre-reinforced copper matrix composites by direct and incremental approaches

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