Name: Huang Lin

Gender: Female

Title: Professor

Highest education: Ph. D

Department:  Environmental Science and Engineering

Graduation institution: University of California, Davis

Office: C515

Email: Huang_NUIST@163.com

Main research area: Environmental Meteorology

Educational background:

2007-2011 Ph.D., University of California, Davis, USA

2005-2007 Jilin University, Master's degree in Material Processing Engineering

2001-2005 Jilin University, undergraduate, Materials Processing Engineering

Work experience:

Professor, School of Environmental Science and Engineering, Nanjing University of Information Technology since 2015

2011-2015 Postdoctoral fellow at the School of Chemical Materials at the University of California, Davis, USA

Honorary Awards:

Jiangsu Distinguished Professor, 2016

Recent main works:

[1] L. Huang, T. Topping, H. Yang, E. Lavernia and J.M. Schoenung, "Nanoscratch induced deformation behavior in B4C particle reinforced ultrafine grained Al alloy composites: a novel diagnostic approach," Physiological Magazine, 94 (16) (2014) 1754-1763

[2] L. Huang, W. Yao, J. Liu, A.K. Mukherjee and J.M. Schoenung, "Spark plasma sintering and mechanical behavior of magnesia ytria (50:50 vol.%) nanocomposites," Scripta Materia, 75 (2014) 18-21

[3] L. Huang, W. Yao, A.K. Mukherjee and J.M. Schoenung, "Improved mechanical behavior and plastic deformation capability of ultrafine grain alumina ceramics," Journal of the American Ceramic Society, 95 (2012) 379-385

[4] L. Huang, C. Bonifacio, D. Song, K. van Benthem, A.K. Mukherjee, J.M. Schoenung, "Investigation into the microstructure evolution caused by nanoscratch induced room performance deformation in M-plane sapphire," Acta Materia, 59 (2011) 5181-5193

[5] L. Huang, Z. Zhang, Y. Zhao, W. Yao, A.K. Mukherjee and J.M. Schoenung, "Scratch induced deformation in fine - and ultrafine grained bulk alumina," Scripta Materia, 63 (2010) 528-531

[6] L. Huang, H.Y. Wang, S.Q. Yin, Q.C. Jiang, "Effect of Ni content on the self-propagating high performance synthesis of Ni Ti B system," Journal of Alloys and Compounds, 457 (2008) 286-291

[7] L. Huang, H.Y. Wang, F, Qiu, Q.C. Jiang, "Synthesis of dense ceramic particles reinforced composites from Ni Ti-C, Ni Ti-B, Ni Ti-B4C, and Ni Ti-C-B systems via the SHS reaction, arc melting and suction casting," Materials Science and Engineering A 422 (2006) 309-315

[8] W. Yao, J. Liu, T. B. Holland, L. Huang, Y. Xiong, J.M. Schoenung and A.K. Mukherjee, "Grain size dependence of frame roughness for fine grained alumina," Scripta Materia, 65 (2011) 143-146

[9] H.Y. Wang, L. Huang, Q.C. Jiang, "In site synthesis of TiB2 TiC particles locally reinforced medium carbon steel matrix composites via the SHS reaction of Ni Ti B4C system during casting," Materials Science and Engineering A 407 (2005) 98-104

[10] A. Nieto, L. Huang, Y.H. Han, J.M. Schoenung, "Sintering behavior of spark plasma sintered alumina with graphene nanoplate reinforcement," Ceramics International, 41 (2015) 5926-5936