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2021 Journal Article The characterisation and formation of novel microstructural features in a Ti−Nb−Zr−Mo−Sn alloy manufactured by Laser Engineered Net Shaping (LENS)Zhu, Hanliang, Wang, Zhiyang, Muránsky, Ondrej, Davis, Joel, Yu, Sen, Kent, Damon, Wang, Gui and Dargusch, Matthew S. (2021). The characterisation and formation of novel microstructural features in a Ti−Nb−Zr−Mo−Sn alloy manufactured by Laser Engineered Net Shaping (LENS). Additive Manufacturing, 37 101705, 1-13. doi: 10.1016/j.addma.2020.101705 |
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2020 Journal Article Ultrahigh strain hardening in a transformation-induced plasticity and twinning-induced plasticity titanium alloyFu, Yu, Xiao, Wenlong, Kent, Damon, Dargusch, Matthew S., Wang, Junshuai, Zhao, Xinqing and Ma, Chaoli (2020). Ultrahigh strain hardening in a transformation-induced plasticity and twinning-induced plasticity titanium alloy. Scripta Materialia, 187, 285-290. doi: 10.1016/j.scriptamat.2020.06.029 |
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2020 Journal Article Role of germanium in microstructural development of powder metallurgy Ti-20Cr-xGe alloysSjafrizal, Teddy, Kent, Damon, Dehghan-Manshadi, Ali, Yan, Ming and S. Dargusch, Matthew (2020). Role of germanium in microstructural development of powder metallurgy Ti-20Cr-xGe alloys. Materials Letters, 274 127964, 127964. doi: 10.1016/j.matlet.2020.127964 |
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2020 Journal Article Spheroidization behaviour of a Fe-enriched eutectic high-entropy alloyYin, Yu, Kent, Damon, Tan, Qiyang, Bermingham, Michael and Zhang, Ming-Xing (2020). Spheroidization behaviour of a Fe-enriched eutectic high-entropy alloy. Journal of Materials Science and Technology, 51, 173-179. doi: 10.1016/j.jmst.2020.01.066 |
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2020 Journal Article High strength heat-treatable β-titanium alloy for additive manufacturingBermingham, M. J., Kent, D., Pace, B., Cairney, J. M. and Dargusch, M. S. (2020). High strength heat-treatable β-titanium alloy for additive manufacturing. Materials Science and Engineering A, 791 139646, 139646. doi: 10.1016/j.msea.2020.139646 |
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2020 Journal Article Eutectic modification of Fe-enriched high-entropy alloys through minor addition of boronYin, Yu, Tan, Qiyang, Wang, Tong, Kent, Damon, Mo, Ning, Bermingham, Michael, Li, Huijun and Zhang, Ming-Xing (2020). Eutectic modification of Fe-enriched high-entropy alloys through minor addition of boron. Journal of Materials Science, 55 (29), 14571-14587. doi: 10.1007/s10853-020-05025-3 |
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2020 Journal Article Simultaneously enhanced strength and ductility in a metastable β-Ti alloy by stress-induced hierarchical twin structureRen, Lei, Xiao, Wenlong, Kent, Damon, Wan, Min, Ma, Chaoli and Zhou, Lian (2020). Simultaneously enhanced strength and ductility in a metastable β-Ti alloy by stress-induced hierarchical twin structure. Scripta Materialia, 184, 6-11. doi: 10.1016/j.scriptamat.2020.03.039 |
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2020 Journal Article Additive manufacturing of low-cost porous titanium-based composites for biomedical applications: advantages, challenges and opinion for future developmentAttar, Hooyar, Ehtemam-Haghighi, Shima, Soro, Nicolas, Kent, Damon and Dargusch, Matthew S. (2020). Additive manufacturing of low-cost porous titanium-based composites for biomedical applications: advantages, challenges and opinion for future development. Journal of Alloys and Compounds, 827 154263, 154263. doi: 10.1016/j.jallcom.2020.154263 |
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2020 Journal Article High-temperature age-hardening of a novel cost-effective Fe45Ni25Cr25Mo5 high entropy alloyYin, Yu, Chen, Zhihan, Mo, Ning, Kent, Damon, Candella, Adhitya Riadhi, Koey, Kai En, Tan, Qiyang, Bermingham, Michael and Zhang, Ming-Xing (2020). High-temperature age-hardening of a novel cost-effective Fe45Ni25Cr25Mo5 high entropy alloy. Materials Science and Engineering A, 788 139580, 139580. doi: 10.1016/j.msea.2020.139580 |
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2020 Journal Article Dynamic recrystallization of pure zinc during high strain-rate compression at ambient temperatureLiu, Shiyang, Kent, Damon, Zhan, Hongyi, Doan, Nghiem, Dargusch, Matthew and Wang, Gui (2020). Dynamic recrystallization of pure zinc during high strain-rate compression at ambient temperature. Materials Science and Engineering A, 784 139325, 139325. doi: 10.1016/j.msea.2020.139325 |
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2020 Journal Article Sintering and biocompatibility of blended elemental Ti-xNb alloysChen, Yunhui, Han, Pingping, Dehghan-Manshadi, Ali, Kent, Damon, Ehtemam-Haghighi, Shima, Jowers, Casey, Bermingham, Michael, Li, Tong, Cooper-White, Justin and Dargusch, Matthew S. (2020). Sintering and biocompatibility of blended elemental Ti-xNb alloys. Journal of the Mechanical Behavior of Biomedical Materials, 104 103691, 103691. doi: 10.1016/j.jmbbm.2020.103691 |
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2020 Journal Article Improved biodegradable magnesium alloys through advanced solidification processingDargusch, M.S., Balasubramani, N., Venezuela, J., Johnston, S., Wang, G., Lau, C., Bermingham, M., Kent, D. and StJohn, D.H. (2020). Improved biodegradable magnesium alloys through advanced solidification processing. Scripta Materialia, 177, 234-240. doi: 10.1016/j.scriptamat.2019.10.028 |
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2020 Journal Article Activation of homogeneous precursors for formation of uniform and refined α precipitates in a high-strength β-Ti alloyXiao, Wenlong, Dargusch, Matthew S., Kent, Damon, Zhao, Xinqing and Ma, Chaoli (2020). Activation of homogeneous precursors for formation of uniform and refined α precipitates in a high-strength β-Ti alloy. Materialia, 9 100557, 100557. doi: 10.1016/j.mtla.2019.100557 |
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2020 Journal Article Additively manufactured iron-manganese for biodegradable porous load-bearing bone scaffold applicationsCarluccio, Danilo, Xu, Chun, Venezuela, Jeffrey, Cao, Yuxue, Kent, Damon, Bermingham, Michael, Demir, Ali Gökhan, Previtali, Barbara, Ye, Qingsong and Dargusch, Matthew (2020). Additively manufactured iron-manganese for biodegradable porous load-bearing bone scaffold applications. Acta Biomaterialia, 103, 346-360. doi: 10.1016/j.actbio.2019.12.018 |
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2020 Journal Article Effect of Fe addition on properties of Ti–6Al-xFe manufactured by blended elemental processSjafrizal, Teddy, Dehghan-Manshadi, Ali, Kent, Damon, Yan, Ming and Dargusch, Matthew S. (2020). Effect of Fe addition on properties of Ti–6Al-xFe manufactured by blended elemental process. Journal of the Mechanical Behavior of Biomedical Materials, 102 103518, 103518. doi: 10.1016/j.jmbbm.2019.103518 |
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2019 Journal Article Properties of powder metallurgy-fabricated oxygen-containing beta Ti-Nb-Mo-Sn-Fe alloys for biomedical applicationsDehghan-Manshadi, Ali, Kent, Damon, StJohn, David and Dargusch, Matthew (2019). Properties of powder metallurgy-fabricated oxygen-containing beta Ti-Nb-Mo-Sn-Fe alloys for biomedical applications. Advanced Engineering Materials, 22 (3) 1901229, 1901229. doi: 10.1002/adem.201901229 |
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2019 Journal Article Comparison of the microstructure and biocorrosion properties of additively manufactured and conventionally fabricated near β Ti–25Nb–3Zr–3Mo–2Sn alloyDargusch, Matthew S., Wang, Gui, Kent, Damon, Bermingham, Michael, Venezuela, Jeffrey, Frith, Jessica E., Yu, Zhentao, Yu, Sen and Shi, Zhiming (2019). Comparison of the microstructure and biocorrosion properties of additively manufactured and conventionally fabricated near β Ti–25Nb–3Zr–3Mo–2Sn alloy. ACS Biomaterials Science and Engineering, 5 (11) acsbiomaterials.9b00596, 5844-5856. doi: 10.1021/acsbiomaterials.9b00596 |
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2019 Journal Article Composition of the nanosized orthorhombic O′ phase and its direct transformation to fine α during ageing in metastable β-Ti alloysLi, Tong, Lai, Minjie, Kostka, Aleksander, Salomon, Steffen, Zhang, Siyuan, Somsen, Christoph, Dargusch, Matthew S. and Kent, Damon (2019). Composition of the nanosized orthorhombic O′ phase and its direct transformation to fine α during ageing in metastable β-Ti alloys. Scripta Materialia, 170, 183-188. doi: 10.1016/j.scriptamat.2019.06.008 |
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2019 Journal Article Evaluation of the mechanical and wear properties of titanium produced by three different additive manufacturing methods for biomedical applicationAttar, H., Bermingham, M. J., Ehtemam-Haghighi, S., Dehghan-Manshadi, A., Kent, D. and Dargusch, M. S. (2019). Evaluation of the mechanical and wear properties of titanium produced by three different additive manufacturing methods for biomedical application. Materials Science and Engineering: A, 760, 339-345. doi: 10.1016/j.msea.2019.06.024 |
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2019 Journal Article Comparative study of pure iron manufactured by selective laser melting, laser metal deposition, and casting processesCarluccio, Danilo, Bermingham, Michael, Kent, Damon, Demir, Ali Gökhan, Previtali, Barbara and Dargusch, Matthew S. (2019). Comparative study of pure iron manufactured by selective laser melting, laser metal deposition, and casting processes. Advanced Engineering Materials, 21 (7) adem.201900049, 1900049. doi: 10.1002/adem.201900049 |
