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Gaoming Dai
Gaoming Dai
Siemens Gamesa Renewable Energy A/S
Verified email at siemensgamesa.com
Title
Cited by
Cited by
Year
Carbon fiber/carbon nanotube reinforced hierarchical composites: Effect of CNT distribution on shearing strength
HW Zhou, L Mishnaevsky Jr, HY Yi, YQ Liu, X Hu, A Warrier, GM Dai
Composites Part B: Engineering 88, 201-211, 2016
1852016
Using strain energy-based prediction of effective elastic properties in topology optimization of material microstructures
W Zhang, G Dai, F Wang, S Sun, H Bassir
Acta Mechanica Sinica 23 (1), 77-89, 2007
1472007
Graphene reinforced nanocomposites: 3D simulation of damage and fracture
G Dai, L Mishnaevsky Jr
Computational Materials Science 95, 684-692, 2014
1382014
Hybrid carbon/glass fiber composites: Micromechanical analysis of structure–damage resistance relationships
L Mishnaevsky Jr, G Dai
Computational Materials Science 81, 630-640, 2014
1052014
Hybrid and hierarchical nanoreinforced polymer composites: Computational modelling of structure–properties relationships
L Mishnaevsky Jr, G Dai
Composite Structures 117, 156-168, 2014
732014
Fatigue of hybrid glass/carbon composites: 3D computational studies
G Dai, L Mishnaevsky Jr
Composites Science and Technology 94, 71-79, 2014
672014
Fatigue of multiscale composites with secondary nanoplatelet reinforcement: 3D computational analysis
G Dai, L Mishnaevsky Jr
Composites science and technology 91, 71-81, 2014
672014
Topology optimal design of material microstructures using strain energy-based method
W Zhang, F Wang, G Dai, S Sun
Chinese journal of aeronautics 20 (4), 320-326, 2007
642007
Damage evolution in nanoclay-reinforced polymers: a three-dimensional computational study
G Dai, L Mishnaevsky Jr
Composites science and technology 74, 67-77, 2013
622013
Size effects of basic cell in static analysis of sandwich beams
GM Dai, WH Zhang
International Journal of Solids and Structures 45 (9), 2512-2533, 2008
602008
Carbon nanotube reinforced hybrid composites: computational modeling of environmental fatigue and usability for wind blades
G Dai, L Mishnaevsky Jr
Composites Part B: Engineering 78, 349-360, 2015
582015
Cell size effects for vibration analysis and design of sandwich beams
G Dai, W Zhang
Acta Mechanica Sinica 25 (3), 353-365, 2009
422009
Compressive damage mechanism of GFRP composites under off-axis loading: experimental and numerical investigations
HW Zhou, HY Yi, LL Gui, GM Dai, RD Peng, HW Wang, L Mishnaevsky Jr
Composites Part B: Engineering 55, 119-127, 2013
352013
Cell size effect analysis of the effective Young’s modulus of sandwich core
G Dai, W Zhang
Computational Materials Science 46 (3), 744-748, 2009
352009
Size effects of effective Young’s modulus for periodic cellular materials
G Dai, W Zhang
Science in China Series G: Physics, Mechanics and Astronomy 52 (8), 1262-1270, 2009
302009
Fatigue of hybrid carbon/glass composites: 3D Computational modelling
GM Dai, L Mishnaevsky Jr
Compos. Sci. Technol 94, 71-79, 2014
142014
Microscale damage mechanisms and degradation of fiber-reinforced composites for wind energy applications: results of Danish–Chinese collaborative investigations
L Mishnaevsky Jr, HW Zhou, HY Yi, RD Peng, HW Wang, GM Dai, LL Gui, ...
Journal of Composite Materials 48 (24), 2977-2991, 2014
132014
Hierarchical nanoreinforced composites: Computational analysis of damage mechanisms
L Mishnaevsky, A Pontefisso, G Dai
IOP Conference Series: Materials Science and Engineering 139 (1), 012039, 2016
42016
Polymer nanocomposites for wind energy applications: perspectives and computational modeling
L Mishnaevsky, HW Zhou, RD Peng, G Dai, HW Wang
Nanomaterials: Applications & Properties. International Conference …, 2013
32013
Topology optimization of material microstructures using strain energy-based prediction of effective elastic properties
张卫红, 戴高明, 王凤稳, 孙士平
力学学报 23 (1), 77-89, 2007
22007
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