戴蘭宏
中國科學院力學所副所長
戴蘭宏(Lan-Hong Dai),男,博士,中國科學院力學研究所研究員、博士生導師。現任中國科學院力學所副所長、學位委員會副主任,中國科學院研究生院教授等。
2021年11月,榮獲2020年度國家自然科學獎二等獎。
戴蘭宏研究員
1998.12:中科院力學研究所非線性力學國家重點實驗室 副研究員
1999.2-1999.12: 香港科技大學,訪問工作
2001.12:中科院力學研究所 非線性力學國家重點實驗室 研究員
2003.6:中科院力學研究所 非線性力學國家重點實驗室 研究員、博士生導師
2005.10-2006.10: 哈佛大學,訪問工作
2006.10-至今:中科院力學研究所 非線性力學國家重點實驗室 研究員、博士生導師。 2011年5月6日任力學研究所副所長(試用期1年)。
現任中國科學院力學所非線性力學國家重點實驗室副主任,所務委員、人事教育處處長、學位委員會副主任,中國科學院研究生院教授,中國力學學會爆炸力學專業委員會副主任委員,北京大學先進複合材料中心學術委員會委員,中國複合材料學會常務理事,《複合材料學報》編委,國際材料動態行為學會(DYMAT)會員。
1、國家傑出青年科學基金獲得者
3、“新世紀百千萬人才工程”國家級人選入選者
4、中國科學院“朱李月華”優秀教師獎
5、中國科學院優秀研究生指導教師獎
6、2021年11月,榮獲2020年度國家自然科學獎二等獎。
1. 衝擊動力學
衝擊載荷下材料變形與破壞、絕熱剪切帶、動態本構、斷裂;結構衝擊防護、結構動力響應
2. 新型材料力學性能
3. 材料加工、製造和工藝力學
難加工合金材料的切削機理、新型材料製備和改性等
4. 交通力學
重載,高速列車的輪軌接觸問題,飛機攔阻問題等
國家自然科學創新研究群體基金“材料強度及災變的跨尺度力學研究”
中國科學院重要方向性項目“材料與生物納米性能高分辯測試技術與表徵”
國家重點基礎研究項目(973)“超高速加工及其裝備的基礎研究”
國家自然科學基金委和中國工程物理研究院聯合基金重點項目“非晶態合金高絕熱剪切性與其在高速穿甲中“自銳”研究”
Fractal in fracture of bulk metallic glass.
M.Q. Jiang, J.X. Meng, J. B. Gao, X.-L. Wang, T. Rouxel, V. Keryvin, Z. Ling, L.H. Dai
Intermetallics 2010, 18: 2468-2471.
Intrinsic correlation between dilatation and pressure sensitivity of plastic flow in metallic glasses.
L. Sun, M.Q. Jiang, and L.H. Dai
Scripta Mater. 2010, 63: 943-946.
Stabilizing to disruptive transition of focal adhesion response to mechanical forces.
D. Kong, B.H. Ji, L.H. Dai
J. Biomech. 2010, 43: 2524-2529.
Short-range-order effects on intrinsic plasticity of metallic glasses.
M.Q. Jiang, and L.H. Dai
Phil. Mag. Lett. 2010, 90: 269-277.
Nanoscale periodic corrugation to dimple transition due to "beat" in a bulk metallic glass.
M.Q. Jiang, Z. Ling, J.X. Meng, J.B. Gao, and L.H. Dai
Scripta Mater. 2010, 62: 572-575.
Smaller Deborah number inducing more serrated plastic flow of metallic glass.
M.Q. Jiang, S.Y. Jiang, Z. Ling, and L.H. Dai
Comput. Mater. Sci. 2009, 46: 767-771.
On the origin of shear banding instability in metallic glasses.
M.Q. Jiang and L.H. Dai
J. Mech. Phys. Solids 2009, 57: 1267-1292.
Formation mechanism of lamellar chips during machining of bulk metallic glass.
M.Q. Jiang and L.H. Dai
Acta Mater. 2009, 57: 2730-2738.
Prediction of shear-band thickness in metallic glasses.
M.Q. Jiang, W.H. Wang, and L.H. Dai
Scripta Mater. 2009, 60: 1004-1007.
Inherent shear-dilatation coexistence in metallic glass.
M.Q. Jiang, S.Y. Jiang, and L.H. Dai
Chin. Phys. Lett. 2009, 26: 016103.
Atomistic origin of rate-dependent serrated plastic flow in metallic glasses.
S.Y. Jiang, M.Q. Jiang, L.H. Dai, and Y.G. Yao
Nanoscale Res.Lett. 2008, 3: 524-529.
Stability of Adhesion Clusters and Cell Reorientation under Lateral Cyclic Tension.
Dong Kong, Baohua Ji and Lanhong Dai
Biophys Journal 2008, 95:4034-4044.
Basic mechanical behaviors and mechanics of shear banding in BMGs.
L.H. Dai and Y.L. Bai
Int. J. Impact Eng. 2008,35:704-716.
Dynamic fracture instability of tough bulk metallic glass.
J.X. Meng, Z. Ling, M.Q. Jiang, H.S. Zhang, L.H. Dai
Appl. Phys. Lett. 2008,92:171909.
Concentrated-mass cantilever enhances multiple harmonics in tapping-mode atomic force microscopy.
Huiling Li, Yan Chen, Lanhong Dai
Appl. Phys. Lett. 2008,92:151903.
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
Philos. Mag. 2008, 88:407-426.
Numerical study of pile-up in bulk metallic glass during spherical indentation.
Ai Ke, Dai Lanhong
Sci. China Series G: Physics, Mechanics & Astronomy 2008, 51: 379-386.
A modified free volume model for characterizing of rate effect in bulk metallic glasses.
LIU Long-Fei, DAI Lan-Hong, BAI Yi-Long
Chin. Phys. Lett. 2008, 25: 1052-1055.
On mechanical properties of metallic glass and its liquid vitrification characteristics.
M.Q. Jiang and L.H. Dai
Adv. Mater.Res. 2008, 41-42: 247-252.
Nonlinear mechanical modeling of cell adhension.
Dong Kong, Baohua Ji and Lanhong Dai
Journal Theoretical Biology 2008, 250:75-84.
Intrinic correlation between fragility and bulk modulus in metallic glasses.
M.Q. Jiang and L.H. Dai
Phys. Rev.B 2007, 76:054204.
A new modified expanding cavity model for characterizing the spherical indentation behavior of bulk metallic glass with pile-up.
K. Ai and L.H.Dai.
Scripta Mater. 2007, 56:761-764.
Charaterization of rate-dependent shear behavior of Zr-based bulk metallic glass using shear-punch testing.
L.F. Liu, L.H. Dai,Y.L. Bai, B.C. Wei, J. Eckert.
J. Mater. Res. 2006, 1(1):153-160.
Adiabatic shear banding instability in bulk metallic glasses.
L.H.Dai, M.Yan, L.F.Liu, Y.L. Bai.
Appl. Phys. Lett. 2005,87:141916.
Initiation and propagation of shear bands in Zr-based bulk metallic glass under quasi-static and dynamic loadings.
L.F.Liu,L.H.Dai,Y.L.Bai,B.C.Wei.
J. Non-Cryst. Solids 2005,351:3259-3270.
M.Yan,L.H.Dai,L.T.Shen.
Chin. Phys. Lett. 2005, 22:2903-2905.
Behavior of multiple shear bands in Zr-based bulk metallic glass.
L.F.Liu,L.H.Dai,Y.L.Bai,B.C.Wei,J.Eckert.
Mater. Chem. Phys. 2005,93:174-177.
Strain rate-dependent compressive deformation behavior of Nd-based bulk metallic glass.
L.F.Liu,L.H.Dai,Y.L.Bai,B.C.Wei,G.S.Yu.
Intermetallics 2005,13:827-832.
Formation of adiabatic shear band in metal matrix composites.
L.H.Dai, L.F.Liu, Y.L.Bai.
Int. J. Solids & Struct. 2004,41:5979-5993.
Serrated plastic flow in Zr-based bulk metallic glass during nanoindentation.
L.H.Dai, L.F.Liu, M.Yan, B.C. Wei, J.Eckert.
Chin. Phys. Lett. 2004, 21(8):1593-1595.
Characterization of rate-dependent loading/unloading dynamic constitutive behavior of aluminum alloy by Lagrange experiment.
M.Yan, L.H.Dai,L.T.Shen, J.L.Shang.
J. Mater. Sci. 2004, 39: 3179-3181.
Effect of particle size on the formation of adiabatic shear band in particle reinforced metal matrix composites.
L.H.Dai, L.F.Liu, Y.L.Bai.
Mater.Lett. 2004, 58: 1773-1776.
Shear strength measurements in LY-12 aluminum alloy during shock loading.
L.H.Dai, M.Yan, L.T.Shen.
Chin. Phys. Lett. 2004,21: 707-708.
Strain gradient effects on deformation strengthening behavior of particle reinforced metal matrix composites.
L.F.Liu, L.H. Dai, G.W. Yang.
Mater. Sci. Eng. 2003,A345: 190-196.
Onset of adiabatic shear instability in strain gradient dependent metal matrix composites.
L.H. Dai, L.F. Liu, Y.L. Bai.
International Journal of Nonlinear Science & Numerical Simulation. 2002, 3: 685-688.
Size-dependent inelastic behavior of particle reinforced metal matrix composites.
L.H. Dai, Z. Ling and Y. L. Bai.
Composites Science and Technology 2001, 61: 1057-1063.
An incremental micromechanical scheme for nonlinear composites.
L.H. Dai and G.J. Huang .
International Journal of Mechanical Science 2001, 43: 1179-1193.
Effect of reinforcing particle size on the formation of microbands in SICP/6151 Al matrix composites.
L.F.Liu, L.H.Dai, G.W.Yang.
Journal of Materials Science Letters 2001, 20: 2097-2098.
Strain gradient effect on the initiation of adiabatic shear localization in metal matrix composites.
L.H. Dai , Z. Ling and Y.L., Bai.
Key Engineering Materials 2000, 177-180: 401-406.
A strain gradient strengthening law for particle reinforced metal matrix composites
L.H. Dai, Z. Ling and Y.L., Bai.
Scripta Materialia 1999, 41(3): 245-251.
Explicit expressions of bounds for effective moduli for multiphase composites by the generalized self-consistent method.
L.H., Dai, Z.P., Huang and R. Wang.
Composites Science and Technology 1999 , 59(11): 1691-1699.
A generalized self-consistent Mori-Tanaka scheme for predicyion of the eefctive moduli of hybrid multiphase particulate composites.
L.H., Dai, Z.P., Huang and R. Wang.
Polymer Composites 1998, 19: 506-513.
Experimental investigation on shear strength of unidirectional C/Al composite under dynamic torsional loading.
L.H., Dai, Y.L., Bai and R. S.W., Lee.
Composites Science and Technology 1998, 58: 1667-1673.
Transverse shear strength of unidirectional carbon fiber reinforced aluminum matrix composite under static and dynamic loadings.
L.H., Dai and Y.L., Bai.
Journal of Composite Materials 1998, 32(3): 246-257.
中國科學院研究生院: 《彈塑性力學》