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Jeremy Rao
Jeremy Rao
Jihua laboratory
Verified email at jihualab.com
Title
Cited by
Cited by
Year
The influence of processing parameters on aluminium alloy A357 manufactured by Selective Laser Melting
H Rao, S Giet, K Yang, X Wu, CHJ Davies
Materials & Design 109, 334-346, 2016
2622016
Porosity formation mechanisms and fatigue response in Al-Si-Mg alloys made by selective laser melting
KV Yang, P Rometsch, T Jarvis, J Rao, S Cao, C Davies, X Wu
Materials Science and Engineering: A 712, 166-174, 2018
1412018
The origins for tensile properties of selective laser melted aluminium alloy A357
JH Rao, Y Zhang, X Fang, Y Chen, X Wu, CHJ Davies
Additive Manufacturing 17, 113-122, 2017
672017
Effects of boron addition on microstructures and mechanical properties of Ti-6Al-4V manufactured by direct laser deposition
K Zhang, X Tian, M Bermingham, J Rao, Q Jia, Y Zhu, X Wu, S Cao, ...
Materials & Design 184, 108191, 2019
462019
Multiple precipitation pathways in an Al-7Si-0.6 Mg alloy fabricated by selective laser melting
JH Rao, Y Zhang, K Zhang, A Huang, CHJ Davies, X Wu
Scripta Materialia 160, 66-69, 2019
402019
Selective laser melted Al-7Si-0.6 Mg alloy with in-situ precipitation via platform heating for residual strain removal
JH Rao, Y Zhang, K Zhang, X Wu, A Huang
Materials & Design 182, 108005, 2019
352019
Improving fatigue performances of selective laser melted Al-7Si-0.6 Mg alloy via defects control
JH Rao, Y Zhang, A Huang, X Wu, K Zhang
International Journal of Fatigue 129, 105215, 2019
172019
In-situ chemical reaction mechanism and non-equilibrium microstructural evolution of (TiB2+ TiC)/AlSi10Mg composites prepared by SLM-CS processing
J Yi, X Zhang, JH Rao, J Xiao, Y Jiang
Journal of Alloys and Compounds 857, 157553, 2021
132021
The influence of surface roughness on the fatigue performance of selective laser melted aluminium alloy A357
JH Rao, K Zhang, P Rometsch, A Huang, X Wu
Canadian Institute of Mining, Metallurgy & Petroleum: 16th International …, 2018
102018
A survey of fatigue properties from wrought and additively manufactured Ti-6Al-4V
JH Rao, N Stanford
Materials Letters 283, 128800, 2021
82021
Correlation of textures and hemming performance of an AA6XXX aluminium alloy
K Zhang, Q He, JH Rao, Y Wang, R Zhang, X Yuan, W Feng, A Huang
Journal of Alloys and Compounds 853, 157081, 2021
62021
The processing and heat treatment of selective laser melted Al-7Si-0.6 Mg alloy
JH Rao, P Rometsch, X Wu, CHJ Davies
Additive Manufacturing for the Aerospace Industry, 143-161, 2019
52019
Microstructure evolution and strengthening mechanisms of aluminium alloy A357 manufactured by Selective Laser Melting
H Rao, X Wu, C Davies
17th Australian International Aerospace Congress: AIAC 2017, 110, 2017
42017
On the Processing Feasibility, Microstructure Evolution, and Mechanical Properties of Laser Clad Stellite® 21 Alloy
JH Rao, N Stanford
Journal of Thermal Spray Technology, 1-8, 2021
22021
Mechanical Property Evaluation of a SLMed Martensitic Stainless Steel
Y Shi, X Xiong, Z Liu, Y Yang, J Hou, S Wu, JH Rao, K Zhang, A Huang
Acta Metallurgica Sinica (English Letters) 33 (11), 1466-1476, 2020
12020
Structural design of a novel fume hood for vapor and spatter removal in direct energy deposition via numerical investigation
X Zhang, JH Rao, M Wang, B Cai, H Liu
Additive Manufacturing 37, 101704, 2021
2021
Procedure for post-heat treatment of aluminium-silicon-magnesium components made by selective laser melting (3d metal printing)
Xinhua Wu, Kun Yang, Elena Labelle, Paul Rometsch, Heng Rao
WO Patent WO2019090398A1, 2019
2019
The Influence of Processing and Heat Treatment Parameters on Selective Laser Melted Aluminium Alloy A357
JH Rao
Monash University, 2017
2017
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