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Xinhua Wu
Researcher at Monash University, Clayton campus
Publications - 193
Citations - 8841
Xinhua Wu is an academic researcher from Monash University, Clayton campus. The author has contributed to research in topics: Microstructure & Alloy. The author has an hindex of 44, co-authored 190 publications receiving 6197 citations. Previous affiliations of Xinhua Wu include Ben-Gurion University of the Negev & Monash University.
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Direct laser deposition cladding of AlxCoCrFeNi high entropy alloys on a high-temperature stainless steel
TL;DR: The effect of key processing variables on the formation of HEA claddings and the compositional mixing between the deposited layer and the substrate was investigated through a three-level parametric study on laser power, laser scanning speed, laser beam size, powder feeding rate and hatch distance as mentioned in this paper.
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On direct laser deposited Hastelloy X: dimension, surface finish, microstructure and mechanical properties
Fude Wang,Xinhua Wu,Daniel Clark +2 more
TL;DR: In this article, the influence of laser power, scan speed, scan spacing and nominal laser power density on the tensile properties, dimensional accuracy, surface roughness, number of cracks and top surface concavity of samples of Hastelloy X manufactured using a laser powder bed facility, has been assessed systematically on three-dimensional samples.
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Influence of hot isostatic pressing temperature on microstructure and tensile properties of a nickel-based superalloy powder
TL;DR: In this paper, a high strength high γ ′ fraction of nickel-based superalloy powder RR 1000 has been hot isotatically pressed (HIPed) at different temperatures.
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Towards a high strength aluminium alloy development methodology for selective laser melting
TL;DR: In this article, an experimentally-based novel alloy development methodology utilising wedge mold casting and laser remelting is proposed, and the processability and properties of the developed alloys can be predicted for SLM.
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Microstructures and tensile properties of massively transformed and aged Ti46Al8Nb and Ti46Al8Ta alloys
TL;DR: In this article, fully massively transformed samples of Nb and Ti46Al8Nb have been HIPped in the (α+γ) phase field in order to generate a fine convoluted microstructure and their tensile properties compared with those of samples with coarse lamellar microstructures.