Dr Li Chang

BSc ME Tsinghua China 1999, PhD Kaiserslautern Germany 2005

Senior Lecturer
School of Aerospace, Mechanical and Mechatronic Engineering

Member of China Studies Centre

Member of The University of Sydney Nano Institute

J07 - Mechanical Engineering Building
The University of Sydney

Telephone +61 2 9351 5572
Fax +61 2 9351 3760

Website Centre for Advanced Materials Technology

School of Aerospace, Mechanical and Mechatronic Engineering

Teaching and supervision

AMME2301 - Mechanics of Solids

AMME5310 - Engineering Tribology

MECH3660 - Manufacturing Engineering

MECH5660 - Foundations of Manufacturing Engineering

Current research students

Project title Research student
Energy Absorption of Shear Thickening Fluid Allen Jialun CHENG
Solid Particle Erosion of Advanced Engineering Materials Siyu HUANG
The development of high performance multi-functional polymer Victor ZHANG

Selected grants

2018

  • Towards new generations of multifunctional polymer composites fabricated by using 3D printing technology; Kim D, Chang L; Office of Global Engagement/Joint IPDF with Yonsei University (South Korea).

2015

  • An energetic approach to characterise fracture of soft matter by cutting; Mai Y, Chang L, Williams G; Australian Research Council (ARC)/Discovery Projects (DP).
  • Integrity analysis of advanced composites after lightening strike; Ye L, Chang L, Yang C, Wang D; Australian Research Council (ARC)/Discovery Projects (DP).

2013

  • nanoIR - nanoscale bioimaging with continuous mapping of chemical and physical properties; Gomes V, Dehghani F, Gan Y, Chang L, Jabbarzadeh-Khoei A, McKenzie D, Hanaor D, Zhou F, Chrzanowski W, Braet F, Bilek M, Chan H, Perrier S, O'Neill G, Ammit A, Brand-Miller J, McEwan A, Hawkett B, Kondyurin A, Li Q, Burgess J, Li Z; National Health and Medical Research Council (NHMRC)/Equipment Grants.

2012

  • Insights Into Phase Transition Kinetics in Shear Thickening Fluids and their Novel Applications; Chang L, Ye L, Friedrich K; DVC Research/Bridging Support Grant.
  • Electrastatic Levitation Aided Near-Contact Sliding: Superlubricity in Micro- and Nano-Electromechanical Systems; Chang L; Department of Industry, Innovation and Science/Australia China Science and Research Fund - Group Missions.

2011

  • Electrostatic Levitation Aided Near-Contact Sliding: Superlubricity in Micro- and Nano-Electromechanical Systems; Chang L; DVC Research/Bridging Support Fellowship.
  • Nanomechanical characterization of the ultra-thin transfer film in polymer tribology; Chang L, Ye L, Burkhart T, Friedrich K; Group of Eight/Germany Joint Research Co-operation Scheme.

2008

  • Towards new generations of lubricants using nanoparticles; Chang L; Australian Research Council (ARC)/Discovery Projects (DP).

Selected publications

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Book Chapters

  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2013). Synergistic effects of nanoparticles and traditional tribofillers on sliding wear of polymeric hybrid composites. In Klaus Friedrich, Alois K. Schlarb (Eds.), Tribology of Polymeric Nanocomposites: Friction and Wear of Bulk Materials and Coatings 2nd Edition, (pp. 49-89). Oxford, UK: Butterworth Heinemann. [More Information]
  • Friedrich, K., Chang, L., Haupert, F. (2011). Current and future applications of polymer composites in the field of tribology. In Luigi Nicolais, Michele Meo, Eva Milella (Eds.), Composite Materials: A Vision for the Future, (pp. 129-167). London, UK: Springer. [More Information]
  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2008). Synergistic effects of nanoparticles and traditional tribo-fillers on sliding wear of polymeric hybrid composites. In Friedrich K, Schlarb AK (Eds.), Tribology of Polymeric Nanocomposites: Friction and Wear of Bulk Materials and Coatings, (pp. 35-61). Oxford, United Kingdom: Elsevier. [More Information]

Journals

  • Kan, W., Bhatia, V., Dolman, K., Lucey, T., Tang, X., Chang, L., Proust, G., Cairney, J. (2018). A study on novel AISI 304 stainless steel matrix composites reinforced with (Nb0.75,Ti0.25)C. Wear, 398-399, 220-226. [More Information]
  • Wang, H., Chang, L., Mai, Y., Ye, L., Williams, J. (2018). An experimental study of orthogonal cutting mechanisms for epoxies with two different crosslink densities. International Journal of Machine Tools and Manufacture, 124, 117-125. [More Information]
  • Wang, H., Chang, L., Mai, Y., Ye, L., Williams, J. (2018). An experimental study of surface layer removal mechanisms for epoxies with two different crosslink density. International Journal of Machine Tools and Manufacture, 124, 117-125. [More Information]
  • Hasan, M., Zhao, J., Huang, Z., Chang, L., Zhou, H., Jiang, Z. (2018). Analysis of sintering and bonding of ultrafine WC powder and stainless steel by hot compaction diffusion bonding. Fusion Engineering and Design, 133, 39-50. [More Information]
  • Fu, K., Sheppard, L., Chang, L., An, X., Yang, C., Ye, L. (2018). Comparative study on plasticity and fracture behaviour of Ti/Al multilayers. Tribology International, 126, 344-351. [More Information]
  • Fu, K., Wang, H., Wang, S., Chang, L., Shen, L., Ye, L. (2018). Compressive behaviour of shear-thickening fluid with concentrated polymers at high strain rates. Materials and Design, 140, 295-306. [More Information]
  • Kurdi, A., Wang, H., Chang, L. (2018). Effect of nano-sized TiO2 addition on tribological behaviour of poly ether ether ketone composite. Tribology International, 117, 225-235. [More Information]
  • Ma, X., Shi, L., He, X., Li, L., Cao, G., Hou, C., Li, J., Chang, L., Yang, L., Zhong, Y. (2018). Graphitization resistance determines super hardness of lonsdaleite, nanotwinned and nanopolycrystalline diamond. Carbon, 133, 69-76. [More Information]
  • Fu, K., Sheppard, L., Chang, L., An, X., Yang, C., Ye, L. (2018). Length-scale-dependent nanoindentation creep behaviour of Ti/Al multilayers by magnetron sputtering. Materials Characterization, 139, 165-175. [More Information]
  • Fu, K., Wang, H., Chang, L., Foley, M., Friedrich, K., Ye, L. (2018). Low-velocity impact behaviour of a shear thickening fluid (STF) and STF-filled sandwich composite panels. Composites Science and Technology, 165, 74-83. [More Information]
  • Kan, W., Albino, C., Dias-da-Costa, D., Dolman, K., Lucey, T., Tang, X., Chang, L., Proust, G., Cairney, J. (2018). Microstructure characterisation and mechanical properties of a functionally-graded NbC/high chromium white cast iron composite. Materials Characterization, 136, 196-205. [More Information]
  • Chang, L., Zhang, G., Wang, H., Fu, K. (2017). Comparative Study on the Wear Behaviour of Two High-Temperature-Resistant Polymers [Forthcoming]. Tribology Letters, 65(2), 1-12. [More Information]
  • Zhang, L., Huang, Z., Chang, L., Zheng, Q. (2017). Comparison of oxidation behaviors of Cr7C3 at 1173 K and 1273 K. Materials Research Express, 4(10), 1-7. [More Information]
  • Huang, Z., Chang, L., Liu, Z., Zheng, Q. (2017). Effect of toughening Fe2B by the addition of tungsten on the wear resistance of Fe�B�C alloy. International Journal of Materials Research, 108(5), 424-426. [More Information]
  • Fu, K., Ye, L., Chang, L., Yang, C., Zhang, Z. (2017). Modelling of lightning strike damage to CFRP composites with an advanced protection system. Part I: Thermal�electrical transition. Composite Structures, 165, 83-90. [More Information]
  • Fu, K., Chang, L., Yang, C., Sheppard, L., Wang, H., Maandal, M., Ye, L. (2017). Plastic behaviour of high-strength lightweight Al/Ti multilayered films. Journal of Materials Science, 52(24), 13956-13965. [More Information]
  • Yang, L., Hou, C., Ma, X., Ye, L., Chang, L., Shi, L., He, X. (2017). Structure relaxation via long trajectories made stable. Physical Chemistry Chemical Physics, 19(36), 24478-24484. [More Information]
  • Zhang, L., Huang, Z., Chang, L., Zheng, B., Liu, Z., Zheng, Q. (2017). Synthesis of single-phase Cr7C3 bulk with phenolic resin addition by hot pressing and its mechanical properties. Materials Research Express, 4(8), 1-7. [More Information]
  • Fu, K., Chang, L., Ye, L., Yin, Y. (2017). Thickness-dependent fracture behaviour of amorphous carbon films on a PEEK substrate under nanoindentation. Vacuum, 144, 107-115. [More Information]
  • Fu, K., An, X., Chang, L., Sheppard, L., Yang, C., Wang, H., Ye, L. (2017). Ultra-high specific strength and deformation behavior of nanostructured Ti/Al multilayers. Journal of Physics D: Applied Physics, 50(36), 1-7. [More Information]
  • Qi, H., Zhang, G., Chang, L., Zhao, F., Wang, T., Wang, Q. (2017). Ultralow Friction and Wear of Polymer Composites under Extreme Unlubricated Sliding Conditions. Advanced Materials Interfaces, 4(13), 1-13. [More Information]
  • Zhang, L., Zhang, G., Chang, L., Wetzel, B., Jim, B., Wang, Q. (2016). Distinct tribological mechanisms of silica nanoparticles in epoxy composites reinforced with carbon nanotubes, carbon fibers and glass fibers. Tribology International, 104, 225-236. [More Information]
  • Fu, K., Chang, L., Ye, L., Yin, Y. (2016). Indentation stress-based models to predict fracture properties of brittle thin film on a ductile substrate. Surface & Coatings Technology, 296, 46-57. [More Information]
  • Wang, H., Chang, L., Williams, J., Ye, L., Mai, Y. (2016). On the machinability and surface finish of cutting nanoparticle and elastomer modified epoxy. Materials and Design, 109, 580-589. [More Information]
  • Fu, K., Chang, L., Zheng, B., Tang, Y., Yin, Y. (2015). Analysis on cracking in hard thin flims on a soft substrate under Berkovich indentation. Vacuum, 112(2015), 29-32. [More Information]
  • Li, B., Ye, L., Li, E., Shou, D., Li, Z., Chang, L. (2015). Gapped smoothing algorithm applied to defect identification using pulsed thermography. Nondestructive Testing and Evaluation, 30(2), 171-195. [More Information]
  • Tabassum, M., Ye, L., Chang, L., Friedrich, K. (2015). Mode-I fracture behavior of a shear-thickening fluid as adhesive layer under different loading rates. Journal of Materials Science, 50(20), 6642-6648. [More Information]
  • Zhu, Y., Wang, H., Zhu, J., Chang, L., Ye, L. (2015). Nanoindentation and thermal study of polyvinylalcohol/graphene oxide nanocomposite film through organic/inorganic assembly. Applied Surface Science, 349, 27-34. [More Information]
  • Fu, K., Chang, L., Zheng, B., Tang, Y., Wang, H. (2015). On the determination of representative stress-strain relation of metallic materials using instrumented indentation. Materials and Design, 65, 989-994. [More Information]
  • Wang, H., Chang, L., Ye, L., Williams, J. (2015). On the toughness measurement for ductile polymers by orthogonal cutting. Engineering Fracture Mechanics, 149, 276-286. [More Information]
  • Moon, J., Dai, S., Chang, L., Lee, J., Tanner, R. (2015). The effect of sphere roughness on the rheology of concentrated suspensions. Journal of Non-Newtonian Fluid Mechanics, 223, 233-239. [More Information]
  • Fu, K., Chang, L., Zheng, B., Yin, Y., Ye, L. (2014). A Method For Defining Initial Stress In Progressively Deposited Film On A Substrate. International Journal of Modern Physics B, 28(10), 1-11. [More Information]
  • Wang, H., Chang, L., Yang, X., Yuan, L., Ye, L., Zhu, Y., Harris, A., Minett, A., Trimby, P., Friedrich, K. (2014). Anisotropy in tribological performances of long aligned carbon nanotubes/polymer composites. Carbon, 67, 38-47. [More Information]
  • Chang, L., Friedrich, K., Ye, L. (2014). Study on the Transfer Film Layer in Sliding Contact Between Polymer Composites and Steel Disks Using Nanoindentation. Journal of Tribology, 136(2), 021602-1-021602-12. [More Information]
  • Fu, K., Yin, Y., Chang, L., Shou, D., Zheng, B., Ye, L. (2013). Analysis on multiple ring-like cracks in thin amorphous carbon film on soft substrate under nanoindentation. Journal of Physics D: Applied Physics, 46(50), 1-10. [More Information]
  • Chen, B., Gao, Q., Chang, L., Wang, Y., Chen, Z., Liao, X., Tan, H., Zou, J., Ringer, S., Jagadish, C. (2013). Attraction of semiconductor nanowires: An in situ observation. Acta Materialia, 61(19), 7166-7172. [More Information]
  • Guo, D., Li, J., Chang, L., Luo, J. (2013). Measurement of the friction between single polystyrene nanospheres and silicon surface using atomic force microscopy. Langmuir, 29(23), 6920-6925. [More Information]
  • Xie, K., Wang, Y., Zhao, Y., Chang, L., Wang, G., Chen, Z., Cao, Y., Liao, X., Lavernia, E., Valiev, R., Sarrafpour, B., Zoellner, H., Ringer, S. (2013). Nanocrystalline B-Ti alloy with high hardness, low Young's modulus and excellent in vitro biocompatibility for biomedical applications. Materials Science and Engineering C, 33(6), 3530-3536. [More Information]
  • Guo, Q., Chang, L., Ye, L., Wang, Y., Feng, H., Cao, Y., Lian, Q., Li, Y. (2013). Residual Stress, Nanohardness, and Microstructure Changes in Whirlwind Milling of GCr15 Steel. Materials and Manufacturing Processes, 28(10), 1047-1052. [More Information]
  • Zhang, J., Chang, L., Deng, S., Ye, L., Zhang, Z. (2013). Some insights into effects of nanoparticles on sliding wear performance of epoxy nanocomposites. Wear, 304(1-2), 138-143. [More Information]
  • Chang, L., Friedrich, K., Schlarb, A., Tanner, R., Ye, L. (2011). Shear-thickening behaviour of concentrated polymer dispersions under steady and oscillatory shear. Journal of Materials Science, 46(2), 339-346. [More Information]
  • Cao, Y., Wang, Y., Figueiredo, R., Chang, L., Liao, X., Kawasaki, M., Zheng, W., Ringer, S., Langdon, T., Zhu, Y. (2011). Three-dimensional shear-strain patterns induced by high-pressure torsion and their impact on hardness evolution. Acta Materialia, 59(10), 3903-3914. [More Information]
  • Chang, L., Friedrich, K. (2010). Enhancement effect of nanoparticles on the sliding wear of short fiber-reinforced polymer composites: A critical discussion of wear mechanisms. Tribology International, 43(12), 2355-2364. [More Information]
  • Chang, L., Friedrich, K., Schlarb, A., Tanner, R., Ye, L. (2010). Shear-thickening behaviour of concentrated polymer dispersions under steady and oscillatory shear. Journal of Materials Science, 46(2), 339-346. [More Information]
  • Chang, L., Zhang, L. (2009). A Note on the Unloading Behavior of Silicon Subjected to Nanoindentation. Advanced Materials Research, 76-78, 398-403. [More Information]
  • Chang, L., Zhang, L. (2009). Deformation mechanisms at pop-out in monocrystalline silicon under nanoindentation. Acta Materialia, 57(7), 2148-2153. [More Information]
  • Chang, L., Friedrich, K., Ye, L., Toro, P. (2009). Evaluation and visualization of the percolating networks in multi-wall carbon nanotube/epoxy composites. Journal of Materials Science, 44, 4003-4012. [More Information]
  • Chang, L., Zhang, L. (2009). Mechanical behaviour characterisation of silicon and effect of loading rate on pop-in: A nanoindentation study under ultra-low loads. Materials Science and Engineering A, 506(1-2), 125-129. [More Information]
  • Chang, L., Zhang, L. (2009). The Deformation Mechanism at Pop-in: Monocrystalline Silicon under Nanoindentation with a Berkovich Indenter. Key Engineering Materials, 389-390, 453-458. [More Information]
  • Zhang, G., Chang, L., Schlarb, A. (2009). The roles of nano-SiO2 particles on the tribological behavior of short carbon fiber reinforced PEEK. Composites Science and Technology, 69(7-8), 1029-1035. [More Information]
  • Chang, L., Zhang, L. (2008). The plasticity of monocrystalline silicon under nanoindentation. International Journal of Modern Physics B, 22(31/32), 6022-6028.
  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2007). Tribological properties of epoxy nanocomposites III. Characteristics of transfer film. Wear, 262, 699-706. [More Information]
  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2007). Tribological properties of high temperature resistant polymer composites with fine particles. Tribology International, 40(7), 1170-1178. [More Information]
  • Chang, L., Zhang, Z., Zhang, H., Schlarb, A. (2006). On the sliding wear of nanoparticle filled polyamide 66 composites. Composites Science and Technology, 66(16), 3188-3198. [More Information]
  • Chang, L., Zhang, Z. (2006). Tribological properties of epoxy nanocomposites Part II. A combinative effect of short carbon fibre with nano-TiO2. Wear, 260(7-8), 869-878. [More Information]
  • Chang, L., Zhang, Z., Zhang, H., Friedrich, K. (2005). Effect of nanoparticles on the tribological behaviour of short carbon fibre reinforced poly(etherimide) composites. Tribology International, 38, 966-973. [More Information]
  • Chang, L., Zhang, Z., Breidt, C., Friedrich, K. (2005). Tribological properties of epoxy nanocomposites I. Enhancement of the wear resistance by nano-TiO2 particles. Wear, 258, 141-148. [More Information]
  • Breidt, C., Chang, L., Zhang, Z. (2005). Tribologische und mechanische Eigenschaften von nanopartikelverstärkten Verbundwerkstoffen: Einfluss der unterschiedlichen Oberflächenbehandlung von Nanopartikeln auf die Matrix-Partikel-Haftung (Tribological and mechanical properties of nanocomposites: effect of different surface treatments on nanoparticle on the matrix particle adhesion). Tribologie und Schmierungstechnik, 52(2), 14-17.
  • Zhang, Z., Breidt, C., Chang, L., Haupert, F., Friedrich, K. (2004). Enhancement of the wear resistance of epoxy: short carbon fibre, graphite, PTFE and nano-TiO2. Composites: Part A, 35, 1385-1392. [More Information]
  • Chang, L., Zhang, Z., Breidt, C. (2004). Impact Resistance of Short Fibre/Particle Reinforced Epoxy. Applied Composite Materials, 11, 1-15. [More Information]
  • Zhang, Z., Breidt, C., Chang, L., Friedrich, K. (2004). Wear of PEEK composites related to their mechanical performances. Tribology International, 37, 271-277. [More Information]
  • Breidt, C., Zhang, Z., Chang, L., Haupert, F. (2003). Mechanical properties and tribological behavior of strengthened epoxy resins: Modification by use of graphite, carbon fibers, and PTFE and nanoparticles [Mechanische Eigenschaften und tribologisches Verhalten verstärkter Epoxidharze: Modifizierung durch Graphit, Kohlenstofffasern und PTFE resp. Nanopartikel]. Tribologie und Schmierungstechnik, 50(4), 15-17.
  • Chang, L., Luo, J., Zhang, W. (2002). Mechanical characteristics of SiO2 electrets. Science in China. Series E: Technological Sciences, 45(4), 444-448.

Conferences

  • Lendrum, P., Yang, C., Fu, K., Chang, L., Ye, L. (2017). Material degradation for carbon fiber/phenolic composites subject to lightning strikes. 24th Australasian Conference on the Mechanics of Structures and Materials (ACMSM24), London: Taylor & Francis Group.
  • Fu, K., Chang, Y., Chang, L., Zheng, B. (2015). An improved indentation method for estimating limits of fracture toughness in brittle films. 5th International Conference on Advanced in Materials and Manufacturing Process (ICAMMP 2014), Fuzhou, China: Advanced Material Research. [More Information]
  • Hasib, M., Ye, L., Chang, L. (2014). Vibration control of sandwich structure by integration of shear thickening fluid (STF). APCF/SIF-2014 - Recent Advances in Structural Integrity Analysis, Uk: Woodhead Publishing Ltd. [More Information]
  • Wang, H., Chang, L., Ye, L., Williams, J. (2013). Micro-cutting tests: a new way to measure the fracture toughness and yield stress of polymeric nanocomposites. 13th International Congress on Fracture (ICF13), Beijing, China: Chinese Society of Theoretical and Applied Mechanics.
  • Wang, H., Chang, L., Ye, L., Williams, J. (2012). Measuring Fracture Toughness of Epoxy Nanocomposites Using Orthogonal Cutting Tests. 2nd/2012 International Conference on Materials and Products Manufacturing Technology (MPMT 2012), Guangzhou: Web.
  • Wang, H., Chang, L., Ye, L. (2012). Measuring the Fracture Toughness of Polymer Nanocomposites from Cutting Tests. 8th Asian-Australasian Conference on Composite Materials (ACCM8), Hong Kong: Asian-Australasian Association for Composite Materials.
  • Chang, L., Friedrich, K., Ye, L. (2012). New insights into the tribological effects of nanoparticles on the sliding wear performance of polymer nanocomposites. 15th European Conference on Composite Materials (ECCM15), Venice: ECCM15.
  • Wang, H., Chang, L., Ye, L. (2012). Study of the Fracture Toughness of Nanoparticles Modified Epoxy by Cutting Tests. ACUN-6 The Sixth International Composites Conference, Sydney: Monash University.
  • Chang, L., Friedrich, K. (2011). Develop wear-resistant polymeric composites by using nanoparticles. 18th International Conference on Composite Materials (ICCM18), Korea: The Korean Society for Composite Materials.
  • Chang, L., Friedrich, K., Ye, L. (2011). Development of the Wear Resistant Polymeric Hybrid Composites Using Nanoparticles. 6th China International Symposium on Tribology, China: State Key Laboratory of Solid Lubrication (Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences).
  • Chang, L., Friedrich, K., Ye, L. (2010). A Study on the Transfer Film in Sliding Contact between Polymeric Composites and Steel Disks Using Nanoindentation. The Seventh Asian-Australasian Conference on Composite Materials (ACCM7), Taiwan: Industrial Technology Research Institute.
  • Friedrich, K., Chang, L. (2010). On Sliding Wear of Nanoparticle Modified Polymer Composites. 5th International Conference On Times Of Polymers (TOP) And Composites, Woodbury, Long Island, NY: American Institute of Physics. [More Information]
  • Chang, L., Zhang, L. (2009). Phase Changes during Pop-in and Pop-out when Nanoindenting Monocrystalline Silicon. Fourth International Conference on Advances and Trends in Engineering Materials and their Applications (AES-ATEMA 2009), Ottawa, Canada: Advanced Engineering Solutions (Ottawa, Canada).

2018

  • Kan, W., Bhatia, V., Dolman, K., Lucey, T., Tang, X., Chang, L., Proust, G., Cairney, J. (2018). A study on novel AISI 304 stainless steel matrix composites reinforced with (Nb0.75,Ti0.25)C. Wear, 398-399, 220-226. [More Information]
  • Wang, H., Chang, L., Mai, Y., Ye, L., Williams, J. (2018). An experimental study of orthogonal cutting mechanisms for epoxies with two different crosslink densities. International Journal of Machine Tools and Manufacture, 124, 117-125. [More Information]
  • Wang, H., Chang, L., Mai, Y., Ye, L., Williams, J. (2018). An experimental study of surface layer removal mechanisms for epoxies with two different crosslink density. International Journal of Machine Tools and Manufacture, 124, 117-125. [More Information]
  • Hasan, M., Zhao, J., Huang, Z., Chang, L., Zhou, H., Jiang, Z. (2018). Analysis of sintering and bonding of ultrafine WC powder and stainless steel by hot compaction diffusion bonding. Fusion Engineering and Design, 133, 39-50. [More Information]
  • Fu, K., Sheppard, L., Chang, L., An, X., Yang, C., Ye, L. (2018). Comparative study on plasticity and fracture behaviour of Ti/Al multilayers. Tribology International, 126, 344-351. [More Information]
  • Fu, K., Wang, H., Wang, S., Chang, L., Shen, L., Ye, L. (2018). Compressive behaviour of shear-thickening fluid with concentrated polymers at high strain rates. Materials and Design, 140, 295-306. [More Information]
  • Kurdi, A., Wang, H., Chang, L. (2018). Effect of nano-sized TiO2 addition on tribological behaviour of poly ether ether ketone composite. Tribology International, 117, 225-235. [More Information]
  • Ma, X., Shi, L., He, X., Li, L., Cao, G., Hou, C., Li, J., Chang, L., Yang, L., Zhong, Y. (2018). Graphitization resistance determines super hardness of lonsdaleite, nanotwinned and nanopolycrystalline diamond. Carbon, 133, 69-76. [More Information]
  • Fu, K., Sheppard, L., Chang, L., An, X., Yang, C., Ye, L. (2018). Length-scale-dependent nanoindentation creep behaviour of Ti/Al multilayers by magnetron sputtering. Materials Characterization, 139, 165-175. [More Information]
  • Fu, K., Wang, H., Chang, L., Foley, M., Friedrich, K., Ye, L. (2018). Low-velocity impact behaviour of a shear thickening fluid (STF) and STF-filled sandwich composite panels. Composites Science and Technology, 165, 74-83. [More Information]
  • Kan, W., Albino, C., Dias-da-Costa, D., Dolman, K., Lucey, T., Tang, X., Chang, L., Proust, G., Cairney, J. (2018). Microstructure characterisation and mechanical properties of a functionally-graded NbC/high chromium white cast iron composite. Materials Characterization, 136, 196-205. [More Information]

2017

  • Chang, L., Zhang, G., Wang, H., Fu, K. (2017). Comparative Study on the Wear Behaviour of Two High-Temperature-Resistant Polymers [Forthcoming]. Tribology Letters, 65(2), 1-12. [More Information]
  • Zhang, L., Huang, Z., Chang, L., Zheng, Q. (2017). Comparison of oxidation behaviors of Cr7C3 at 1173 K and 1273 K. Materials Research Express, 4(10), 1-7. [More Information]
  • Huang, Z., Chang, L., Liu, Z., Zheng, Q. (2017). Effect of toughening Fe2B by the addition of tungsten on the wear resistance of Fe�B�C alloy. International Journal of Materials Research, 108(5), 424-426. [More Information]
  • Lendrum, P., Yang, C., Fu, K., Chang, L., Ye, L. (2017). Material degradation for carbon fiber/phenolic composites subject to lightning strikes. 24th Australasian Conference on the Mechanics of Structures and Materials (ACMSM24), London: Taylor & Francis Group.
  • Fu, K., Ye, L., Chang, L., Yang, C., Zhang, Z. (2017). Modelling of lightning strike damage to CFRP composites with an advanced protection system. Part I: Thermal�electrical transition. Composite Structures, 165, 83-90. [More Information]
  • Fu, K., Chang, L., Yang, C., Sheppard, L., Wang, H., Maandal, M., Ye, L. (2017). Plastic behaviour of high-strength lightweight Al/Ti multilayered films. Journal of Materials Science, 52(24), 13956-13965. [More Information]
  • Yang, L., Hou, C., Ma, X., Ye, L., Chang, L., Shi, L., He, X. (2017). Structure relaxation via long trajectories made stable. Physical Chemistry Chemical Physics, 19(36), 24478-24484. [More Information]
  • Zhang, L., Huang, Z., Chang, L., Zheng, B., Liu, Z., Zheng, Q. (2017). Synthesis of single-phase Cr7C3 bulk with phenolic resin addition by hot pressing and its mechanical properties. Materials Research Express, 4(8), 1-7. [More Information]
  • Fu, K., Chang, L., Ye, L., Yin, Y. (2017). Thickness-dependent fracture behaviour of amorphous carbon films on a PEEK substrate under nanoindentation. Vacuum, 144, 107-115. [More Information]
  • Fu, K., An, X., Chang, L., Sheppard, L., Yang, C., Wang, H., Ye, L. (2017). Ultra-high specific strength and deformation behavior of nanostructured Ti/Al multilayers. Journal of Physics D: Applied Physics, 50(36), 1-7. [More Information]
  • Qi, H., Zhang, G., Chang, L., Zhao, F., Wang, T., Wang, Q. (2017). Ultralow Friction and Wear of Polymer Composites under Extreme Unlubricated Sliding Conditions. Advanced Materials Interfaces, 4(13), 1-13. [More Information]

2016

  • Zhang, L., Zhang, G., Chang, L., Wetzel, B., Jim, B., Wang, Q. (2016). Distinct tribological mechanisms of silica nanoparticles in epoxy composites reinforced with carbon nanotubes, carbon fibers and glass fibers. Tribology International, 104, 225-236. [More Information]
  • Fu, K., Chang, L., Ye, L., Yin, Y. (2016). Indentation stress-based models to predict fracture properties of brittle thin film on a ductile substrate. Surface & Coatings Technology, 296, 46-57. [More Information]
  • Wang, H., Chang, L., Williams, J., Ye, L., Mai, Y. (2016). On the machinability and surface finish of cutting nanoparticle and elastomer modified epoxy. Materials and Design, 109, 580-589. [More Information]

2015

  • Fu, K., Chang, Y., Chang, L., Zheng, B. (2015). An improved indentation method for estimating limits of fracture toughness in brittle films. 5th International Conference on Advanced in Materials and Manufacturing Process (ICAMMP 2014), Fuzhou, China: Advanced Material Research. [More Information]
  • Fu, K., Chang, L., Zheng, B., Tang, Y., Yin, Y. (2015). Analysis on cracking in hard thin flims on a soft substrate under Berkovich indentation. Vacuum, 112(2015), 29-32. [More Information]
  • Li, B., Ye, L., Li, E., Shou, D., Li, Z., Chang, L. (2015). Gapped smoothing algorithm applied to defect identification using pulsed thermography. Nondestructive Testing and Evaluation, 30(2), 171-195. [More Information]
  • Tabassum, M., Ye, L., Chang, L., Friedrich, K. (2015). Mode-I fracture behavior of a shear-thickening fluid as adhesive layer under different loading rates. Journal of Materials Science, 50(20), 6642-6648. [More Information]
  • Zhu, Y., Wang, H., Zhu, J., Chang, L., Ye, L. (2015). Nanoindentation and thermal study of polyvinylalcohol/graphene oxide nanocomposite film through organic/inorganic assembly. Applied Surface Science, 349, 27-34. [More Information]
  • Fu, K., Chang, L., Zheng, B., Tang, Y., Wang, H. (2015). On the determination of representative stress-strain relation of metallic materials using instrumented indentation. Materials and Design, 65, 989-994. [More Information]
  • Wang, H., Chang, L., Ye, L., Williams, J. (2015). On the toughness measurement for ductile polymers by orthogonal cutting. Engineering Fracture Mechanics, 149, 276-286. [More Information]
  • Moon, J., Dai, S., Chang, L., Lee, J., Tanner, R. (2015). The effect of sphere roughness on the rheology of concentrated suspensions. Journal of Non-Newtonian Fluid Mechanics, 223, 233-239. [More Information]

2014

  • Fu, K., Chang, L., Zheng, B., Yin, Y., Ye, L. (2014). A Method For Defining Initial Stress In Progressively Deposited Film On A Substrate. International Journal of Modern Physics B, 28(10), 1-11. [More Information]
  • Wang, H., Chang, L., Yang, X., Yuan, L., Ye, L., Zhu, Y., Harris, A., Minett, A., Trimby, P., Friedrich, K. (2014). Anisotropy in tribological performances of long aligned carbon nanotubes/polymer composites. Carbon, 67, 38-47. [More Information]
  • Chang, L., Friedrich, K., Ye, L. (2014). Study on the Transfer Film Layer in Sliding Contact Between Polymer Composites and Steel Disks Using Nanoindentation. Journal of Tribology, 136(2), 021602-1-021602-12. [More Information]
  • Hasib, M., Ye, L., Chang, L. (2014). Vibration control of sandwich structure by integration of shear thickening fluid (STF). APCF/SIF-2014 - Recent Advances in Structural Integrity Analysis, Uk: Woodhead Publishing Ltd. [More Information]

2013

  • Fu, K., Yin, Y., Chang, L., Shou, D., Zheng, B., Ye, L. (2013). Analysis on multiple ring-like cracks in thin amorphous carbon film on soft substrate under nanoindentation. Journal of Physics D: Applied Physics, 46(50), 1-10. [More Information]
  • Chen, B., Gao, Q., Chang, L., Wang, Y., Chen, Z., Liao, X., Tan, H., Zou, J., Ringer, S., Jagadish, C. (2013). Attraction of semiconductor nanowires: An in situ observation. Acta Materialia, 61(19), 7166-7172. [More Information]
  • Guo, D., Li, J., Chang, L., Luo, J. (2013). Measurement of the friction between single polystyrene nanospheres and silicon surface using atomic force microscopy. Langmuir, 29(23), 6920-6925. [More Information]
  • Wang, H., Chang, L., Ye, L., Williams, J. (2013). Micro-cutting tests: a new way to measure the fracture toughness and yield stress of polymeric nanocomposites. 13th International Congress on Fracture (ICF13), Beijing, China: Chinese Society of Theoretical and Applied Mechanics.
  • Xie, K., Wang, Y., Zhao, Y., Chang, L., Wang, G., Chen, Z., Cao, Y., Liao, X., Lavernia, E., Valiev, R., Sarrafpour, B., Zoellner, H., Ringer, S. (2013). Nanocrystalline B-Ti alloy with high hardness, low Young's modulus and excellent in vitro biocompatibility for biomedical applications. Materials Science and Engineering C, 33(6), 3530-3536. [More Information]
  • Guo, Q., Chang, L., Ye, L., Wang, Y., Feng, H., Cao, Y., Lian, Q., Li, Y. (2013). Residual Stress, Nanohardness, and Microstructure Changes in Whirlwind Milling of GCr15 Steel. Materials and Manufacturing Processes, 28(10), 1047-1052. [More Information]
  • Zhang, J., Chang, L., Deng, S., Ye, L., Zhang, Z. (2013). Some insights into effects of nanoparticles on sliding wear performance of epoxy nanocomposites. Wear, 304(1-2), 138-143. [More Information]
  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2013). Synergistic effects of nanoparticles and traditional tribofillers on sliding wear of polymeric hybrid composites. In Klaus Friedrich, Alois K. Schlarb (Eds.), Tribology of Polymeric Nanocomposites: Friction and Wear of Bulk Materials and Coatings 2nd Edition, (pp. 49-89). Oxford, UK: Butterworth Heinemann. [More Information]

2012

  • Wang, H., Chang, L., Ye, L., Williams, J. (2012). Measuring Fracture Toughness of Epoxy Nanocomposites Using Orthogonal Cutting Tests. 2nd/2012 International Conference on Materials and Products Manufacturing Technology (MPMT 2012), Guangzhou: Web.
  • Wang, H., Chang, L., Ye, L. (2012). Measuring the Fracture Toughness of Polymer Nanocomposites from Cutting Tests. 8th Asian-Australasian Conference on Composite Materials (ACCM8), Hong Kong: Asian-Australasian Association for Composite Materials.
  • Chang, L., Friedrich, K., Ye, L. (2012). New insights into the tribological effects of nanoparticles on the sliding wear performance of polymer nanocomposites. 15th European Conference on Composite Materials (ECCM15), Venice: ECCM15.
  • Wang, H., Chang, L., Ye, L. (2012). Study of the Fracture Toughness of Nanoparticles Modified Epoxy by Cutting Tests. ACUN-6 The Sixth International Composites Conference, Sydney: Monash University.

2011

  • Friedrich, K., Chang, L., Haupert, F. (2011). Current and future applications of polymer composites in the field of tribology. In Luigi Nicolais, Michele Meo, Eva Milella (Eds.), Composite Materials: A Vision for the Future, (pp. 129-167). London, UK: Springer. [More Information]
  • Chang, L., Friedrich, K. (2011). Develop wear-resistant polymeric composites by using nanoparticles. 18th International Conference on Composite Materials (ICCM18), Korea: The Korean Society for Composite Materials.
  • Chang, L., Friedrich, K., Ye, L. (2011). Development of the Wear Resistant Polymeric Hybrid Composites Using Nanoparticles. 6th China International Symposium on Tribology, China: State Key Laboratory of Solid Lubrication (Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences).
  • Chang, L., Friedrich, K., Schlarb, A., Tanner, R., Ye, L. (2011). Shear-thickening behaviour of concentrated polymer dispersions under steady and oscillatory shear. Journal of Materials Science, 46(2), 339-346. [More Information]
  • Cao, Y., Wang, Y., Figueiredo, R., Chang, L., Liao, X., Kawasaki, M., Zheng, W., Ringer, S., Langdon, T., Zhu, Y. (2011). Three-dimensional shear-strain patterns induced by high-pressure torsion and their impact on hardness evolution. Acta Materialia, 59(10), 3903-3914. [More Information]

2010

  • Chang, L., Friedrich, K., Ye, L. (2010). A Study on the Transfer Film in Sliding Contact between Polymeric Composites and Steel Disks Using Nanoindentation. The Seventh Asian-Australasian Conference on Composite Materials (ACCM7), Taiwan: Industrial Technology Research Institute.
  • Chang, L., Friedrich, K. (2010). Enhancement effect of nanoparticles on the sliding wear of short fiber-reinforced polymer composites: A critical discussion of wear mechanisms. Tribology International, 43(12), 2355-2364. [More Information]
  • Friedrich, K., Chang, L. (2010). On Sliding Wear of Nanoparticle Modified Polymer Composites. 5th International Conference On Times Of Polymers (TOP) And Composites, Woodbury, Long Island, NY: American Institute of Physics. [More Information]
  • Chang, L., Friedrich, K., Schlarb, A., Tanner, R., Ye, L. (2010). Shear-thickening behaviour of concentrated polymer dispersions under steady and oscillatory shear. Journal of Materials Science, 46(2), 339-346. [More Information]

2009

  • Chang, L., Zhang, L. (2009). A Note on the Unloading Behavior of Silicon Subjected to Nanoindentation. Advanced Materials Research, 76-78, 398-403. [More Information]
  • Chang, L., Zhang, L. (2009). Deformation mechanisms at pop-out in monocrystalline silicon under nanoindentation. Acta Materialia, 57(7), 2148-2153. [More Information]
  • Chang, L., Friedrich, K., Ye, L., Toro, P. (2009). Evaluation and visualization of the percolating networks in multi-wall carbon nanotube/epoxy composites. Journal of Materials Science, 44, 4003-4012. [More Information]
  • Chang, L., Zhang, L. (2009). Mechanical behaviour characterisation of silicon and effect of loading rate on pop-in: A nanoindentation study under ultra-low loads. Materials Science and Engineering A, 506(1-2), 125-129. [More Information]
  • Chang, L., Zhang, L. (2009). Phase Changes during Pop-in and Pop-out when Nanoindenting Monocrystalline Silicon. Fourth International Conference on Advances and Trends in Engineering Materials and their Applications (AES-ATEMA 2009), Ottawa, Canada: Advanced Engineering Solutions (Ottawa, Canada).
  • Chang, L., Zhang, L. (2009). The Deformation Mechanism at Pop-in: Monocrystalline Silicon under Nanoindentation with a Berkovich Indenter. Key Engineering Materials, 389-390, 453-458. [More Information]
  • Zhang, G., Chang, L., Schlarb, A. (2009). The roles of nano-SiO2 particles on the tribological behavior of short carbon fiber reinforced PEEK. Composites Science and Technology, 69(7-8), 1029-1035. [More Information]

2008

  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2008). Synergistic effects of nanoparticles and traditional tribo-fillers on sliding wear of polymeric hybrid composites. In Friedrich K, Schlarb AK (Eds.), Tribology of Polymeric Nanocomposites: Friction and Wear of Bulk Materials and Coatings, (pp. 35-61). Oxford, United Kingdom: Elsevier. [More Information]
  • Chang, L., Zhang, L. (2008). The plasticity of monocrystalline silicon under nanoindentation. International Journal of Modern Physics B, 22(31/32), 6022-6028.

2007

  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2007). Tribological properties of epoxy nanocomposites III. Characteristics of transfer film. Wear, 262, 699-706. [More Information]
  • Chang, L., Zhang, Z., Ye, L., Friedrich, K. (2007). Tribological properties of high temperature resistant polymer composites with fine particles. Tribology International, 40(7), 1170-1178. [More Information]

2006

  • Chang, L., Zhang, Z., Zhang, H., Schlarb, A. (2006). On the sliding wear of nanoparticle filled polyamide 66 composites. Composites Science and Technology, 66(16), 3188-3198. [More Information]
  • Chang, L., Zhang, Z. (2006). Tribological properties of epoxy nanocomposites Part II. A combinative effect of short carbon fibre with nano-TiO2. Wear, 260(7-8), 869-878. [More Information]

2005

  • Chang, L., Zhang, Z., Zhang, H., Friedrich, K. (2005). Effect of nanoparticles on the tribological behaviour of short carbon fibre reinforced poly(etherimide) composites. Tribology International, 38, 966-973. [More Information]
  • Chang, L., Zhang, Z., Breidt, C., Friedrich, K. (2005). Tribological properties of epoxy nanocomposites I. Enhancement of the wear resistance by nano-TiO2 particles. Wear, 258, 141-148. [More Information]
  • Breidt, C., Chang, L., Zhang, Z. (2005). Tribologische und mechanische Eigenschaften von nanopartikelverstärkten Verbundwerkstoffen: Einfluss der unterschiedlichen Oberflächenbehandlung von Nanopartikeln auf die Matrix-Partikel-Haftung (Tribological and mechanical properties of nanocomposites: effect of different surface treatments on nanoparticle on the matrix particle adhesion). Tribologie und Schmierungstechnik, 52(2), 14-17.

2004

  • Zhang, Z., Breidt, C., Chang, L., Haupert, F., Friedrich, K. (2004). Enhancement of the wear resistance of epoxy: short carbon fibre, graphite, PTFE and nano-TiO2. Composites: Part A, 35, 1385-1392. [More Information]
  • Chang, L., Zhang, Z., Breidt, C. (2004). Impact Resistance of Short Fibre/Particle Reinforced Epoxy. Applied Composite Materials, 11, 1-15. [More Information]
  • Zhang, Z., Breidt, C., Chang, L., Friedrich, K. (2004). Wear of PEEK composites related to their mechanical performances. Tribology International, 37, 271-277. [More Information]

2003

  • Breidt, C., Zhang, Z., Chang, L., Haupert, F. (2003). Mechanical properties and tribological behavior of strengthened epoxy resins: Modification by use of graphite, carbon fibers, and PTFE and nanoparticles [Mechanische Eigenschaften und tribologisches Verhalten verstärkter Epoxidharze: Modifizierung durch Graphit, Kohlenstofffasern und PTFE resp. Nanopartikel]. Tribologie und Schmierungstechnik, 50(4), 15-17.

2002

  • Chang, L., Luo, J., Zhang, W. (2002). Mechanical characteristics of SiO2 electrets. Science in China. Series E: Technological Sciences, 45(4), 444-448.

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