Ali Dadashi
Ali Dadashi
Mechanical Engineering Department, Semnan University
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
High-cycle bending fatigue properties of additive-manufactured ABS and PLA polymers fabricated by fused deposition modeling 3D-printing
M Azadi, A Dadashi, S Dezianian, M Kianifar, S Torkaman, M Chiyani
Forces in Mechanics 3, 100016, 2021
Investigating the roles of fiber, resin, and stacking sequence on the low-velocity impact response of novel hybrid thermoplastic composites
ME Kazemi, L Shanmugam, A Dadashi, M Shakouri, D Lu, Z Du, Y Hu, ...
Composites Part B: Engineering 207, 108554, 2021
Topology optimization of additive-manufactured metamaterial structures: A review focused on multi-material types
SM Esfarjani, A Dadashi, M Azadi
Forces in Mechanics 7, 100100, 2022
A comparative study for high-cycle bending fatigue lifetime and fracture behavior of extruded and additive-manufactured 3D-printed acrylonitrile butadiene styrene polymers
M Azadi, A Dadashi, MS Aghareb Parast, ...
Int. J. Addit. Manuf. Struct 1 (1), 2022
Experimental fatigue dataset for additive-manufactured 3D-Printed polylactic acid biomaterials under fully-reversed rotating-bending bending loadings
M Azadi, A Dadashi
Data in Brief 41, 107846, 2022
Effect of nano-clay addition and heat-treatment on tensile and stress-controlled low-cycle fatigue behaviors of aluminum-silicon alloy: Effect of nano-clay addition and heat …
M Azadi, A Basiri, A Dadashi, G Winter, B Seisenbacher, F Gruen
Frattura ed Integrità Strutturale 15 (57), 373-397, 2021
Experimental bending fatigue data of additive-manufactured PLA biomaterial fabricated by different 3D printing parameters
A Dadashi, M Azadi
Progress in Additive Manufacturing 8 (2), 255-263, 2023
Impacts of nano-clay particles and heat-treating on out-of-phase thermo-mechanical fatigue characteristics in piston aluminum-silicon alloys.
H Bahmanabadi, M Azadi, A Dadashi, J Torkian, MSA Parast, G Winter, ...
Frattura e Integrita Strutturale 17 (65), 2023
Optimization of 3D printing parameters in polylactic acid bio-metamaterial under cyclic bending loading considering fracture features
A Dadashi, M Azadi
Heliyon, 2024
Multi-objective numerical optimization of 3D-printed polylactic acid bio-metamaterial based on topology, filling pattern, and infill density via fatigue lifetime and mass
A Dadashi, M Azadi
Plos one 18 (9), e0291021, 2023
Plain and fretting fatigue characteristics of 16MnCr5 steel under cyclic bending loading with the application of the engine piston pin
M Dizisaz, MSA Parast, M Azadi, A Dadashi
Materials Chemistry and Physics, 129110, 2024
Machine learning for fatigue lifetime predictions in 3D-printed polylactic acid biomaterials based on interpretable extreme gradient boosting model
H Nasiri, A Dadashi, M Azadi
Materials Today Communications 39, 109054, 2024
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