H. Monshat scite author profile

H. Monshat

2Publications

6Citation Statements Received

67Citation Statements Given

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Sharif University of Technology

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Effect of strain path change on mechanical properties and final microstructure of Cu–Al₂O₃ in equal channel angular pressing

Monshat

Serajzadeh

Akhgar

et al. 2013

Materials Science and Technology

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In the present work, the process of equal channel angular pressing of dispersion strengthened Cu-1?1 wt-%Al 2 O 3 containing nanometric alumina particles was investigated by means of mathematical modelling and experimental testing. Through the modelling, deformation parameters such as hydrostatic pressure distribution and strain field were determined, and the effect of deformation path on these parameters was estimated. Equal channel angular pressing as well as mechanical and microstructural evaluations were also conducted to assess mechanical properties, grain structure and void volume fraction after deformation in different routes. The results indicate that distributions of plastic strain and hydrostatic stresses are significantly affected by deformation path route as well as utilised die design. Furthermore, void formation around hard alumina particles may occur in regions with high tensile hydrostatic stresses leading to fracturing during deformation.

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Simulation of austenite decomposition in continuous cooling conditions: a cellular automata-finite element modelling

Monshat

Serajzadeh

2017

Ironmaking & Steelmaking

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Transformation of austenite to ferrite under continuous cooling condition was investigated. The heat conduction problem was managed by finite element method while two-dimensional cellular automata modeling was simultaneously performed to predict the progress of austenite decomposition using a two-step algorithm to reduce surface-to-volume ratio. Continuous cooling experiments on low carbon steel were made and the ferrite structure was determined and compared with the simulation data. The predicted and the experimental results demonstrated an acceptable consistency and the activation energy for ferrite growth was determined as 171 kJ/ mole. The rate of ferrite transformation increased under examined continuous cooling conditions owing to higher nucleation rate. Moreover, the initial austenite grain size has shown a significant impact on the rate of transformation e.g. in air-cooled samples as the austenite grain size decreased from 24 to 34 µm, the mean ferrite grain size decreased about 8 µm.

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H. Monshat

Effect of strain path change on mechanical properties and final microstructure of Cu–Al₂O₃ in equal channel angular pressing

Simulation of austenite decomposition in continuous cooling conditions: a cellular automata-finite element modelling

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H. Monshat

Effect of strain path change on mechanical properties and final microstructure of Cu–Al2O3 in equal channel angular pressing

Simulation of austenite decomposition in continuous cooling conditions: a cellular automata-finite element modelling

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Effect of strain path change on mechanical properties and final microstructure of Cu–Al₂O₃ in equal channel angular pressing