Overview
Background
Dr. Mingyuan Lu was awarded her PhD from The University of Queensland in Febuary 2014. She has previously completed a Masters of Engineering (June 2009, Materials Science and Engineering, Central South University, China), and a Bachelor of Engineering (June 2007, Materials Science and Engineering, Central south University, China).
Mingyuan has more than 10 years’ experience in research, and during this period she has gained extensive experience with material synthesis, mechanical mechanics, and material characterization including nanoindentation, nanoscratching, atomic force microscopy, electron microscopy, and focused ion beam milling (FIB); additionally,she has experience with structural and compositional analysis techniques (Raman, XRD, EDS, DTA, DSC etc.).
Mingyuan's contributions to the field of mechanical and materials engineering are listed below:
Materials mechanics
- (2015-2016) developed a new and successful FIB-machined micro-cantilever bending technique to study the fracture and interfacial properties of the protective intermetallic coatings on magnesium alloys: this technique can be applied to a wide range of materials, sub-surface structures and multilayered structures. Based on this methodology, they later developed a micro-bridge four-point bending technique. This approach can generate a “stable” interfacial delamination, and thus enables quantitative analysis of interfacial toughness.
- (2011-2014) developed an indentation-based methodology for assessing the interfacial adhesion of bilayer structures, in a joint project that was funded by WIN Semiconductor Co., Taiwan: the methodology developed has been used to test the reliability of SiN-passivated GaAs semiconductor wafer products.
Materials synthesis and processing
- (2015-current) developing a selective laser sintering process for the additive manufacturing of porous and biodegradable scaffolds, made from a biopolymer, for bone tissue engineering: this innovative process can produce scaffolds without the use of an artificial 3D model, and the scaffold has a unique interconnected pore architecture and large surface area making it suitable for bone tissue regeneration applications. The promising outcomes of the preliminary study have elicited strong support from UQ; it has received two generous internal grants (a philanthropic grant for an ECR in the field of engineering, and SEED funding) to enable further study in this field. The scaffolds will shortly be tested in a pre-clinical mouse model (funded by SEEM grant) to study biocompatibility and osteoconductivity.
- (2007-2009) developed high-performance refractory metallic materials using powder metallurgy processes: in this project, they discovered the effect of trace TiC, ZrC Carbide nanoparticles on the mechanical properties, sintering behaviour and microstructure of molybdenum alloys.
Availability
- Dr Mingyuan Lu is:
- Available for supervision
Fields of research
Research interests
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Laser deposition of titanium oxide on titanium alloy components for aerospace applications
Surface modification is crucial for the design of high-value Ti parts with excellent tribological properties and will be developed into a major genre of technologies within the foreseeable future. This project aims to develop an innovative laser-based coating technology to deposit thick, dense and well adhered TiO2 protective coatings on a contoured surface of Ti alloy components. It addresses the issue of the current lack of surface modification techniques that are capable of depositing robust wear-resistant coatings on Ti alloys, which has limited the development of high-value Ti parts for aerospace applications. The outcome of the project will drive the design and production of durable Ti alloy aircraft components and will support the development of processes that will create high value manufacturing products.
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Additive manufacturing of biodegradable porous polymer and bioceramic-polymer composite scaffolds for bone tissue engineering
Additive manufacturing (AM) technologies has enabled the fabrication of scaffolds with a highly complex and completely interconnected pore network. This project aims to develop new AM processes for porous bio-polymer and bio-composite scaffolds for tissue engineering (TE) applications using novel powder formulations. Among various AM techniques, selective laser sintering (SLS) is used for producing TE scaffolds due to its ability to process a wide range of bio-engineering materials. In a SLS process, powder particles are selectively fused together with a focused laser beam in a layer-by-layer fashion based on the computer aided design (CAD) model of the part. The outcome of this project will lead to innovative SLS processes that would power new manufacturing industries for producing high value and innovative parts for bio-medical application.
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Additive manufacturing (AM) of advanced ceramics
Currently available additive manufacturing processes have not yet been able to successfully produce full density and defeat-free ceramic parts. This project aims to understand the fundamental mechanisms involved in the selective laser sintering and selective laser melting (SLM) of ceramic materials. In this project, systematic investigation is carried out to understand the interactions between materials, process parameters, properties and surface/structure integrity involved in the ceramic SLM process.
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Characterising interfacial adhesion at nano and micro-scale using innovative testing methodologies
Interfacial adhesion is a critical property that can influence the reliability of flexible microelectronic devices, such as roll-up displays, wearable smart devices, flexible sensors and solar cells. The current design of film stacking sequence in the microelectronics devices is determined by the electrical and optical functionality and not necessarily optimized for mechanical performance. Failure often occurs at the interfaces between dissimilar layers, when the device is subjected to external loading. To improve the device reliability, characterization of the interfacial property is imperative. The current lack of reliable methods available to assess the interfacial adhesion of a complex multilayered structure in a small-scale integrated system has limited the development of the next-generation flexible microelectronic devices. This research is to develop reliable quantitative methodologies for measuring interfacial adhesion under a simulated stress state that is pertinent to the actual service condition in order to develop predictive models for delamination and interface degradation. The methodologies developed in this project are intended for the typical multilayer structures found in the contemporary flexible and stretchable microelectronics. However, these techniques, once developed, can be readily applied to characterise the mechanical properties of diverse materials and structures at nano- and micro-scale, such as adhesion of the interfaces/interphases in protective coatings on metal substrates, composite materials, solder and weld joints, the stiffness and strength of structs and fibres in cellular materials and biomaterials, as well as the inter-layer adhesion of parts fabricated using additive manufacturing techniques.
Works
Search Professor Mingyuan Lu’s works on UQ eSpace
2018
Journal Article
Laser deposition of compositionally graded titanium oxide on Ti6Al4V alloy
Lu, Mingyuan, McCormick, Paul, Zhao, Yitian, Fan, Zhiqi and Huang, Han (2018). Laser deposition of compositionally graded titanium oxide on Ti6Al4V alloy. Ceramics International, 44 (17), 20851-20861. doi: 10.1016/j.ceramint.2018.08.090
2018
Journal Article
Synthesis, microstructure, and mechanical behaviour of a unique porous PHBV scaffold manufactured using selective laser sintering
Diermann, Sven H., Lu, Mingyuan, Zhao, Yitian, Vandi, Luigi-Jules, Dargusch, Matthew and Huang, Han (2018). Synthesis, microstructure, and mechanical behaviour of a unique porous PHBV scaffold manufactured using selective laser sintering. Journal of the Mechanical Behavior of Biomedical Materials, 84, 151-160. doi: 10.1016/j.jmbbm.2018.05.007
2018
Journal Article
Selective laser melting of alumina: a single track study
Fan, Zhiqi, Lu, Mingyuan and Huang, Han (2018). Selective laser melting of alumina: a single track study. Ceramics International, 44 (8), 9484-9493. doi: 10.1016/j.ceramint.2018.02.166
2017
Journal Article
Inducing stable interfacial delamination in a multilayer system by four-point bending of microbridges
Mead, James L., Lu, Mingyuan and Huang, Han (2017). Inducing stable interfacial delamination in a multilayer system by four-point bending of microbridges. Surface and Coatings Technology, 320, 478-482. doi: 10.1016/j.surfcoat.2016.11.069
2016
Journal Article
A study of the deformation and failure mechanisms of protective intermetallic coatings on AZ91 Mg alloys using microcantilever bending
Lu, Mingyuan, Mead, James, Wu, Yueqin, Russell, Hugh and Huang, Han (2016). A study of the deformation and failure mechanisms of protective intermetallic coatings on AZ91 Mg alloys using microcantilever bending. Materials Characterization, 120, 337-344. doi: 10.1016/j.matchar.2016.09.020
2016
Journal Article
Graphene/titanium carbide composites prepared by sol-gel infiltration and spark plasma sintering
Wang, Xiaojing, Lu, Mingyuan, Qiu, Ling, Huang, Han, Li, Dan, Wang, Huanting and Cheng, Yi-Bing (2016). Graphene/titanium carbide composites prepared by sol-gel infiltration and spark plasma sintering. Ceramics International, 42 (1), 122-131. doi: 10.1016/j.ceramint.2015.08.017
2015
Journal Article
Interfacial energy release rates of SiN/GaAs film/substrate systems determined using a cyclic loading dual-indentation method
Lu, Mingyuan and Huang, Han (2015). Interfacial energy release rates of SiN/GaAs film/substrate systems determined using a cyclic loading dual-indentation method. Thin Solid Films, 589, 822-830. doi: 10.1016/j.tsf.2015.07.027
2015
Journal Article
Strain rate dependence in the nanoindentation-induced deformation of Mg-Al intermetallic compounds produced by packed powder diffusion coating
Chang, Haiwei, Lu, Mingyuan, Zhang, Mingxing, Atrens, Andrej and Huang, Han (2015). Strain rate dependence in the nanoindentation-induced deformation of Mg-Al intermetallic compounds produced by packed powder diffusion coating. Metals and Materials International, 21 (5), 793-798. doi: 10.1007/s12540-015-5055-9
2015
Journal Article
Fracture strength characterization of protective intermetallic coatings on AZ91E Mg alloys using FIB-machined microcantilever bending technique
Lu, Mingyuan, Russell, Hugh and Huang, Han (2015). Fracture strength characterization of protective intermetallic coatings on AZ91E Mg alloys using FIB-machined microcantilever bending technique. Journal of Materials Research, 30 (10), 1678-1685. doi: 10.1557/jmr.2015.104
2015
Book Chapter
Interfacial adhesion of film/substrate system characterised by nanoindentation
Lu, Mingyuan and Huang, Han (2015). Interfacial adhesion of film/substrate system characterised by nanoindentation. Thin Films and Coatings: Toughening and Toughness Characterization. (pp. 315-375) edited by Sam Zhang.. Hoboken, NJ United States: CRC Press. doi: 10.1201/b18729
2014
Journal Article
Determination of the energy release rate in the interfacial delamination of silicon nitride film on gallium arsenide substrate via nanoindentation
Lu, Mingyuan and Huang, Han (2014). Determination of the energy release rate in the interfacial delamination of silicon nitride film on gallium arsenide substrate via nanoindentation. Journal of Materials Research, 29 (6), 801-810. doi: 10.1557/jmr.2014.41
2014
Conference Publication
Molecular dynamics simulation of the deformation of single crystal gallium arsenide
Chen, Y. H., Huang, H., Lu, M. Y., Wu, Y. Q., Fang, F. Z. and Hu, X. T. (2014). Molecular dynamics simulation of the deformation of single crystal gallium arsenide. 1st Australasian Conference on Computational Mechanics (ACCM2013), Sydney, Australia, 3-4 October 2013. Stafa-Zurich, Switzerland: Trans Tech Publications. doi: 10.4028/www.scientific.net/AMM.553.60
2013
Journal Article
Indentation-induced delamination of plasma-enhanced chemical vapor deposition silicon nitride film on gallium arsenide substrate
Lu, Mingyuan, Xie, Hongtao, Huang, Han, Zou, Jin and He, Yuehui (2013). Indentation-induced delamination of plasma-enhanced chemical vapor deposition silicon nitride film on gallium arsenide substrate. Journal of Materials Research, 28 (8), 1047-1055. doi: 10.1557/jmr.2013.31
2013
Journal Article
Characterisation of interfacial adhesion of thin film/substrate systems using indentation-induced delamination: a focused review
Lu, Mingyuan, Xie, Hongtao and Huang, Han (2013). Characterisation of interfacial adhesion of thin film/substrate systems using indentation-induced delamination: a focused review. Key Engineering Materials, 533, 201-222. doi: 10.4028/www.scientific.net/KEM.533.201
2013
Other Outputs
A nanoindentation study of SiN/GaAs film/substrate structures for analysis of the deformation mechanisms and interfacial properties
Lu, Mingyuan (2013). A nanoindentation study of SiN/GaAs film/substrate structures for analysis of the deformation mechanisms and interfacial properties. PhD Thesis, School of Mechanical and Mining Engineering, The University of Queensland.
2012
Journal Article
The effect of the gas atmosphere on the response of the Al86Ni6Y4.5Co2La1.5 metallic glass powder to heating
Li, X. P., Yan, M., Wang, J. Q., Lu, M. Y., Schaffer, G. B. and Qian, M. (2012). The effect of the gas atmosphere on the response of the Al86Ni6Y4.5Co2La1.5 metallic glass powder to heating. Intermetallics, 30, 117-121. doi: 10.1016/j.intermet.2012.03.019
2012
Journal Article
A simple resonant method that can simultaneously measure elastic modulus and density of thin films
Ma, Shujun, Huang, Han, Lu, Mingyuan and Veidt, Martin (2012). A simple resonant method that can simultaneously measure elastic modulus and density of thin films. Surface and Coatings Technology, 209, 208-211. doi: 10.1016/j.surfcoat.2012.08.072
2012
Journal Article
Preparation, performance and structure of high tenacious Mo-0.1Zr alloy
Cheng, Hui-Chao, Fan, Jing-Lian, Lu, Ming-Yuan, Li, Peng-Fei and Tian, Jia-Min (2012). Preparation, performance and structure of high tenacious Mo-0.1Zr alloy. Zhongguo Youse Jinshu Xuebao/Chinese Journal of Nonferrous Metals, 22 (1), 114-120.
2012
Conference Publication
Mechanics and technologies for machining nanostructured thin film bilayers and multilayers
Huang, Han, Xie, Hongtao, He, Anshun and Lu, Mingyuan (2012). Mechanics and technologies for machining nanostructured thin film bilayers and multilayers. 3rd International Conference on nanoManufacturing (nanoMan2012), Tokyo, Japan, 25-27 July 2012. Tokyo, Japan: JSNM/ISNM.
2010
Journal Article
Influence of TiC Addition on Properties and Microstructure of Mo-Ti Alloy
Lu Mingyuan, , Fan Jinglian, , Cheng Huichao, , Liao Yuehui, and Tian Jiamin, (2010). Influence of TiC Addition on Properties and Microstructure of Mo-Ti Alloy. Rare Metal Materials and Engineering, 39 (6), 985-988.
Funding
Current funding
Past funding
Supervision
Availability
- Dr Mingyuan Lu is:
- Available for supervision
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Supervision history
Current supervision
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Doctor Philosophy
Tribological Behavior of Water Lubricant Using Nanocomposites as Additives
Principal Advisor
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Doctor Philosophy
Ductile grinding mechanism and technology of brittle solids
Principal Advisor
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Doctor Philosophy
Developing micromechanical testing protocols for bilayer and multilayer nanocomposite coatings
Principal Advisor
Other advisors: Professor Lisbeth Grondahl
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Doctor Philosophy
Surface modification of biodegradable scaffolds for bone tissue engineering application
Principal Advisor
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Doctor Philosophy
Evaluating the Interfacial Adhesion of multilayer systems using novel micro-mechanical testing protocols
Principal Advisor
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Doctor Philosophy
Developing a new and efficient lapping process for brittle and hard materials
Principal Advisor
Other advisors: Professor Lisbeth Grondahl
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Doctor Philosophy
Understanding Rock-Fluids Interaction in Shale Gas Reservoirs
Associate Advisor
Other advisors: Associate Professor Zhongwei Chen
Completed supervision
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2023
Doctor Philosophy
In vitro evaluation of porous PHBV-based scaffolds for tissue regeneration application
Principal Advisor
Other advisors: Dr Shakes Chandra
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2024
Doctor Philosophy
Ductile grinding mechanism of brittle single crystal materials
Associate Advisor
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2021
Doctor Philosophy
Laser Surface Engineering of Ti alloys for Tribological Applications
Associate Advisor
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2021
Doctor Philosophy
Water-based hybrid nanosuspensions for abrasive machining of brittle solids
Associate Advisor
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2020
Master Philosophy
Investigation of Mechanical Properties and Deformation Mechanism of YAG single crystal by Nanoindentation and Nanoscratch
Associate Advisor
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2020
Doctor Philosophy
Laser based additive manufacturing of advanced structural ceramics
Associate Advisor
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2019
Master Philosophy
Performance evaluation of nanocoolants in the grinding of semiconductor substrates
Associate Advisor
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Media
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