FAN Jitang
-
Name
FAN Jitang
-
Title
Associate Professor
-
Address
Room 331, Teaching building No.3, School of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
-
Tel
+86-13521300815
-
Email
Jitang_fan@hotmail.com
Research Interests
Materials and structures design, Concept and theory development, Protective engineering, Dynamic mechanics, Experiments, Simulations
Academic Achievements
1. Fan J. T. High-rate squeezing process of bulk metallic glasses. Scientific Reports, 2017;7:45051.
2. Fan J. T., and Yang L. Q. Damage mechanisms of bulk metallic glasses under high-rate compression. International Journal of Impact Engineering, 2017;106:217-222.
3. Fan J. T., Weerheijm J., and Sluys L. J. Compressive response of a glass-polymer system at various strain rates. Mechanics of Materials, 2016;95:49-59.
4. Fan J. T., Weerheijm J., and Sluys L. J. Compressive response of multiple-particles-polymer systems at various strain rates. Polymer, 2016;91:62-73.
5. Fan J. T., Weerheijm J., and Sluys L. J. Dynamic compressive mechanical response of a soft polymer material. Materials & Design, 2015;79:73-85.
6. Fan J. T., Weerheijm J., and Sluys L. J. High-strain-rate tensile mechanical response of a polyurethane elastomeric material. Polymer, 2015;65:72-80.
-
NameFAN Jitang
-
TitleAssociate Professor
-
AddressRoom 331, Teaching building No.3, School of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
-
Tel+86-13521300815
-
EmailJitang_fan@hotmail.com
Research Interests
Materials and structures design, Concept and theory development, Protective engineering, Dynamic mechanics, Experiments, Simulations
Academic Achievements
1. Fan J. T. High-rate squeezing process of bulk metallic glasses. Scientific Reports, 2017;7:45051.
2. Fan J. T., and Yang L. Q. Damage mechanisms of bulk metallic glasses under high-rate compression. International Journal of Impact Engineering, 2017;106:217-222.
3. Fan J. T., Weerheijm J., and Sluys L. J. Compressive response of a glass-polymer system at various strain rates. Mechanics of Materials, 2016;95:49-59.
4. Fan J. T., Weerheijm J., and Sluys L. J. Compressive response of multiple-particles-polymer systems at various strain rates. Polymer, 2016;91:62-73.
5. Fan J. T., Weerheijm J., and Sluys L. J. Dynamic compressive mechanical response of a soft polymer material. Materials & Design, 2015;79:73-85.
6. Fan J. T., Weerheijm J., and Sluys L. J. High-strain-rate tensile mechanical response of a polyurethane elastomeric material. Polymer, 2015;65:72-80.