Lanhong Dai focuses on Composite material, Shear band, Amorphous metal, Shear and Plasticity. His Composite material study frequently draws connections to other fields, such as Dissipation. His study in Shear band is interdisciplinary in nature, drawing from both Adiabatic shear band, Simple shear, Critical resolved shear stress, Mechanics and Shear modulus.
His Amorphous metal study which covers Ultimate tensile strength that intersects with Toughness and Yield. His Shear study combines topics in areas such as Instability, Softening, Strain rate, Metallurgy and Condensed matter physics. Lanhong Dai interconnects Scanning electron microscope, Classical mechanics, Deformation, Nano- and Constitutive equation in the investigation of issues within Plasticity.
Lanhong Dai mainly investigates Composite material, Amorphous metal, Shear, Plasticity and Shear band. His Composite material and Ultimate tensile strength, Microstructure, Alloy, Deformation and Strain rate investigations all form part of his Composite material research activities. As a part of the same scientific study, he usually deals with the Amorphous metal, concentrating on Condensed matter physics and frequently concerns with Mineralogy.
His Shear band research incorporates elements of Adiabatic shear band, Shear modulus and Softening. His studies in Shear modulus integrate themes in fields like Critical resolved shear stress, Pure shear, Shear rate and Simple shear. His Shear matrix course of study focuses on Brittleness and Fracture mechanics.
His primary areas of investigation include Alloy, Composite material, Microstructure, Amorphous metal and Plasticity. His work deals with themes such as Chemical physics, Syntactic foam, Penetration and Nucleation, which intersect with Alloy. His studies link Matrix with Composite material.
His work investigates the relationship between Microstructure and topics such as Ultimate tensile strength that intersect with problems in Deformation and Chemical substance. His Amorphous metal research includes elements of Shear, Active learning and Relaxation, Condensed matter physics. His research integrates issues of Small-angle X-ray scattering, Scattering, Molecular physics, Shell and Synchrotron radiation in his study of Plasticity.
His main research concerns Alloy, Molecular dynamics, Composite material, Microstructure and Amorphous metal. His Molecular dynamics research is multidisciplinary, incorporating elements of Chemical physics, Cutoff, k-nearest neighbors algorithm, Entropy and Fragility. Lanhong Dai has researched Entropy in several fields, including Atomic units, Plasticity, Nucleation, Electronic structure and Density functional theory.
His Composite material research integrates issues from Sharpening and Trigonal crystal system. The Microstructure study combines topics in areas such as Ultimate tensile strength, Elongation, Phase transition and Tungsten. Lanhong Dai interconnects Shear, Short range order and Chemical composition in the investigation of issues within Amorphous metal.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Size-dependent inelastic behavior of particle-reinforced metal–matrix composites
L.H. Dai;Z. Ling;Y.L. Bai.
Composites Science and Technology (2001)
Machine learning assisted design of high entropy alloys with desired property
Cheng Wen;Cheng Wen;Yan Zhang;Changxin Wang;Dezhen Xue.
Acta Materialia (2019)
Energy dissipation in fracture of bulk metallic glasses via inherent competition between local softening and quasi-cleavage
M. Q. Jiang;Z. Ling;J. X. Meng;L. H. Dai.
Philosophical Magazine (2008)
On the origin of shear banding instability in metallic glasses
M. Q. Jiang;L. H. Dai.
Journal of The Mechanics and Physics of Solids (2009)
Physical origin of Davydov splitting and resonant Raman spectroscopy of Davydov components in multilayer MoTe 2
Q. J. Song;Q. H. Tan;X. Zhang;J. B. Wu.
Physical Review B (2016)
Initiation and propagation of shear bands in Zr-based bulk metallic glass under quasi-static and dynamic shear loadings
L.F. Liu;L.H. Dai;L.H. Dai;Y.L. Bai;B.C. Wei.
Journal of Non-crystalline Solids (2005)
Basic mechanical behaviors and mechanics of shear banding in BMGs
L.H. Dai;Y.L. Bai.
International Journal of Impact Engineering (2008)
Modeling periodic adiabatic shear band evolution during high speed machining Ti-6Al-4V alloy
G.G. Ye;G.G. Ye;S.F. Xue;M.Q. Jiang;X.H. Tong.
International Journal of Plasticity (2013)
Behavior of multiple shear bands in Zr-based bulk metallic glass
L.F. Liu;L.H. Dai;Y.L. Bai;B.C. Wei.
Materials Chemistry and Physics (2005)
Cutting AISI 1045 steel at very high speeds
G.G. Ye;S.F. Xue;W. Ma;M.Q. Jiang.
International Journal of Machine Tools & Manufacture (2012)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: