The University of Queensland

Manufacturing of high strength and high conductivity copper with laser powder bed fusion

Liu, Yingang, Zhang, Jingqi, Niu, Ranming, Bayat, Mohamad, Zhou, Ying, Yin, Yu, Tan, Qiyang, Liu, Shiyang, Hattel, Jesper Henri, Li, Miaoquan, Huang, Xiaoxu, Cairney, Julie, Chen, Yi-Sheng, Easton, Mark, Hutchinson, Christopher and Zhang, Ming-Xing (2024). Manufacturing of high strength and high conductivity copper with laser powder bed fusion. Nature Communications, 15 (1) 1283, 1-9. doi: 10.1038/s41467-024-45732-y

Ultrauniform, strong, and ductile 3D-printed titanium alloy through bifunctional alloy design

Zhang, Jingqi, Bermingham, Michael J., Otte, Joseph, Liu, Yingang, Hou, Ziyong, Yang, Nan, Yin, Yu, Bayat, Mohamad, Lin, Weikang, Huang, Xiaoxu, StJohn, David H. and Dargusch, Matthew S. (2024). Ultrauniform, strong, and ductile 3D-printed titanium alloy through bifunctional alloy design. Science, 383 (6683), 639-645. doi: 10.1126/science.adj0141

Towards uniform and enhanced tensile ductility of additively manufactured Ti−5Al−5Mo−5V−3Cr alloy through designing gradient interlayer deposition time

Zhang, Jingqi, Bermingham, Michael, Otte, Joseph, Liu, Yingang and Dargusch, Matthew (2023). Towards uniform and enhanced tensile ductility of additively manufactured Ti−5Al−5Mo−5V−3Cr alloy through designing gradient interlayer deposition time. Scripta Materialia, 223 115066, 115066. doi: 10.1016/j.scriptamat.2022.115066

Designing against phase and property heterogeneities in additively manufactured titanium alloys

Zhang, Jingqi, Liu, Yingang, Sha, Gang, Jin, Shenbao, Hou, Ziyong, Bayat, Mohamad, Yang, Nan, Tan, Qiyang, Yin, Yu, Liu, Shiyang, Hattel, Jesper Henri, Dargusch, Matthew, Huang, Xiaoxu and Zhang, Ming-Xing (2022). Designing against phase and property heterogeneities in additively manufactured titanium alloys. Nature Communications, 13 (1) 4660, 4660. doi: 10.1038/s41467-022-32446-2

Enhancing specific energy absorption of additively manufactured titanium lattice structures through simultaneous manipulation of architecture and constituent material

Zhang, Jingqi, Liu, Yingang, Babamiri, Behzad Bahrami, Zhou, Ying, Dargusch, Matthew, Hazeli, Kavan and Zhang, Ming-Xing (2022). Enhancing specific energy absorption of additively manufactured titanium lattice structures through simultaneous manipulation of architecture and constituent material. Additive Manufacturing, 55 102887, 102887. doi: 10.1016/j.addma.2022.102887

Achieving high ductility in a selectively laser melted commercial pure-titanium via in-situ grain refinement

Zhang, Jingqi, Liu, Yingang, Bayat, Mohamad, Tan, Qiyang, Yin, Yu, Fan, Zhiqi, Liu, Shiyang, Hattel, Jesper Henri, Dargusch, Matthew and Zhang, Ming-Xing (2021). Achieving high ductility in a selectively laser melted commercial pure-titanium via in-situ grain refinement. Scripta Materialia, 191, 155-160. doi: 10.1016/j.scriptamat.2020.09.023

Manufacturing of high strength and high conductivity copper with laser powder bed fusion

Liu, Yingang, Zhang, Jingqi, Niu, Ranming, Bayat, Mohamad, Zhou, Ying, Yin, Yu, Tan, Qiyang, Liu, Shiyang, Hattel, Jesper Henri, Li, Miaoquan, Huang, Xiaoxu, Cairney, Julie, Chen, Yi-Sheng, Easton, Mark, Hutchinson, Christopher and Zhang, Ming-Xing (2024). Manufacturing of high strength and high conductivity copper with laser powder bed fusion. Nature Communications, 15 (1) 1283, 1-9. doi: 10.1038/s41467-024-45732-y

Ultrauniform, strong, and ductile 3D-printed titanium alloy through bifunctional alloy design

Zhang, Jingqi, Bermingham, Michael J., Otte, Joseph, Liu, Yingang, Hou, Ziyong, Yang, Nan, Yin, Yu, Bayat, Mohamad, Lin, Weikang, Huang, Xiaoxu, StJohn, David H. and Dargusch, Matthew S. (2024). Ultrauniform, strong, and ductile 3D-printed titanium alloy through bifunctional alloy design. Science, 383 (6683), 639-645. doi: 10.1126/science.adj0141

Evolution of degradation mechanism and fixation strength of biodegradable Zn–Cu wire as sternum closure suture: an in vitro study

Yang, Nan, Venezuela, Jeffrey, Zhang, Jingqi, Wang, Anguo, Almathami, Sharifah and Dargusch, Matthew (2023). Evolution of degradation mechanism and fixation strength of biodegradable Zn–Cu wire as sternum closure suture: an in vitro study. Journal of the Mechanical Behavior of Biomedical Materials, 138 105658, 1-11. doi: 10.1016/j.jmbbm.2023.105658

Laser powder bed fusion of copper matrix iron particle reinforced nanocomposite with high strength and high conductivity

Liu, Yingang, Zhang, Jingqi, Sun, Qiang, Li, Meng, Yan, Ming, Cheng, Xing, Li, Miaoquan and Zhang, Ming-Xing (2023). Laser powder bed fusion of copper matrix iron particle reinforced nanocomposite with high strength and high conductivity. Journal of Materials Science and Technology, 134, 50-59. doi: 10.1016/j.jmst.2022.06.007

Towards uniform and enhanced tensile ductility of additively manufactured Ti−5Al−5Mo−5V−3Cr alloy through designing gradient interlayer deposition time

Zhang, Jingqi, Bermingham, Michael, Otte, Joseph, Liu, Yingang and Dargusch, Matthew (2023). Towards uniform and enhanced tensile ductility of additively manufactured Ti−5Al−5Mo−5V−3Cr alloy through designing gradient interlayer deposition time. Scripta Materialia, 223 115066, 115066. doi: 10.1016/j.scriptamat.2022.115066

Designing against phase and property heterogeneities in additively manufactured titanium alloys

Zhang, Jingqi, Liu, Yingang, Sha, Gang, Jin, Shenbao, Hou, Ziyong, Bayat, Mohamad, Yang, Nan, Tan, Qiyang, Yin, Yu, Liu, Shiyang, Hattel, Jesper Henri, Dargusch, Matthew, Huang, Xiaoxu and Zhang, Ming-Xing (2022). Designing against phase and property heterogeneities in additively manufactured titanium alloys. Nature Communications, 13 (1) 4660, 4660. doi: 10.1038/s41467-022-32446-2

Enhancing specific energy absorption of additively manufactured titanium lattice structures through simultaneous manipulation of architecture and constituent material

Zhang, Jingqi, Liu, Yingang, Babamiri, Behzad Bahrami, Zhou, Ying, Dargusch, Matthew, Hazeli, Kavan and Zhang, Ming-Xing (2022). Enhancing specific energy absorption of additively manufactured titanium lattice structures through simultaneous manipulation of architecture and constituent material. Additive Manufacturing, 55 102887, 102887. doi: 10.1016/j.addma.2022.102887

Heterogeneous lamella design to tune the mechanical behaviour of a new cost- effective compositionally complicated alloy

Yin, Yu, Tan, Qiyang, Sun, Qiang, Ren, Wangrui, Zhang, Jingqi, Liu, Shiyang, Liu, Yingang, Bermingham, Michael, Chen, Houwen and Zhang, Ming-Xing (2022). Heterogeneous lamella design to tune the mechanical behaviour of a new cost- effective compositionally complicated alloy. Journal of Materials Science and Technology, 96, 113-125. doi: 10.1016/j.jmst.2021.03.083

Laser additive manufacturing of steels

Yin, Yu, Tan, Qiyang, Bermingham, Michael, Mo, Ning, Zhang, Jingqi and Zhang, Ming-Xing (2022). Laser additive manufacturing of steels. International Materials Reviews, 67 (5), 1-87. doi: 10.1080/09506608.2021.1983351

The significant impact of grain refiner on γ-TiAl intermetallic fabricated by laser-based additive manufacturing

Huang, Danni, Tan, Qiyang, Zhou, Yinghao, Yin, Yu, Wang, Feng, Wu, Tao, Yang, Xianliang, Fan, Zhiqi, Liu, Yingang, Zhang, Jingqi, Huang, Han, Yan, Ming and Zhang, Ming-Xing (2021). The significant impact of grain refiner on γ-TiAl intermetallic fabricated by laser-based additive manufacturing. Additive Manufacturing, 46 102172, 102172. doi: 10.1016/j.addma.2021.102172

Additive manufacturing of high strength copper alloy with heterogeneous grain structure through laser powder bed fusion

Liu, Yingang, Zhang, Jingqi, Tan, Qiyang, Yin, Yu, Liu, Shiyang, Li, Meng, Li, Miaoquan, Liu, Qiong, Zhou, Ying, Wu, Tao, Wang, Feng and Zhang, Ming-Xing (2021). Additive manufacturing of high strength copper alloy with heterogeneous grain structure through laser powder bed fusion. Acta Materialia, 220 117311, 117311. doi: 10.1016/j.actamat.2021.117311

Mechanical performance of simple cubic architected titanium alloys fabricated via selective laser melting

Liu, Yingang, Zhang, Jingqi, Tan, Qiyang, Yin, Yu, Li, Miaoquan and Zhang, Ming-Xing (2021). Mechanical performance of simple cubic architected titanium alloys fabricated via selective laser melting. Optics and Laser Technology, 134 106649, 1-8. doi: 10.1016/j.optlastec.2020.106649

Achieving high ductility in a selectively laser melted commercial pure-titanium via in-situ grain refinement

Zhang, Jingqi, Liu, Yingang, Bayat, Mohamad, Tan, Qiyang, Yin, Yu, Fan, Zhiqi, Liu, Shiyang, Hattel, Jesper Henri, Dargusch, Matthew and Zhang, Ming-Xing (2021). Achieving high ductility in a selectively laser melted commercial pure-titanium via in-situ grain refinement. Scripta Materialia, 191, 155-160. doi: 10.1016/j.scriptamat.2020.09.023

Uncovering the roles of LaB6-nanoparticle inoculant in the AlSi10Mg alloy fabricated via selective laser melting

Tan, Qiyang, Yin, Yu, Fan, Zhiqi, Zhang, Jingqi, Liu, Yingang and Zhang, Ming-Xing (2021). Uncovering the roles of LaB6-nanoparticle inoculant in the AlSi10Mg alloy fabricated via selective laser melting. Materials Science and Engineering: A, 800 140365. doi: 10.1016/j.msea.2020.140365

A novel strategy to additively manufacture 7075 aluminium alloy with selective laser melting

Tan, Qiyang, Fan, Zhiqi, Tang, Xiaoqin, Yin, Yu, Li, Gan, Huang, Danni, Zhang, Jingqi, Liu, Yingang, Wang, Feng, Wu, Tao, Yang, Xianliang, Huang, Han, Zhu, Qiang and Zhang, Ming-Xing (2021). A novel strategy to additively manufacture 7075 aluminium alloy with selective laser melting. SSRN Electronic Journal, 821 141638, 141638. doi: 10.2139/ssrn.3774509

Effect of processing parameters on the densification of an additively manufactured 2024 Al alloy

Tan, Qiyang, Liu, Yingang, Fan, Zhiqi, Zhang, Jingqi, Yin, Yu and Zhang, Ming-Xing (2020). Effect of processing parameters on the densification of an additively manufactured 2024 Al alloy. Journal of Materials Science and Technology, 58, 34-45. doi: 10.1016/j.jmst.2020.03.070

Mechanical performance of a node reinforced body-centred cubic lattice structure manufactured via selective laser melting

Liu, Yingang, Zhang, Jingqi, Gu, Xiaojun, Zhou, Ying, Yin, Yu, Tan, Qiyang, Li, Miaoquan and Zhang, Ming-Xing (2020). Mechanical performance of a node reinforced body-centred cubic lattice structure manufactured via selective laser melting. Scripta Materialia, 189, 95-100. doi: 10.1016/j.scriptamat.2020.08.015

Inoculation treatment of an additively manufactured 2024 aluminium alloy with titanium nanoparticles

Tan, Qiyang, Zhang, Jingqi, Sun, Qiang, Fan, Zhiqi, Li, Gan, Yin, Yu, Liu, Yingang and Zhang, Ming-Xing (2020). Inoculation treatment of an additively manufactured 2024 aluminium alloy with titanium nanoparticles. Acta Materialia, 196, 1-16. doi: 10.1016/j.actamat.2020.06.026

A novel method to 3D-print fine-grained AlSi10Mg alloy with isotropic properties via inoculation with LaB6 nanoparticles

Tan, Qiyang, Zhang, Jingqi, Mo, Ning, Fan, Zhiqi, Yin, Yu, Bermingham, Michael, Liu, Yingang, Huang, Han and Zhang, Ming-Xing (2020). A novel method to 3D-print fine-grained AlSi10Mg alloy with isotropic properties via inoculation with LaB6 nanoparticles. Additive Manufacturing, 32 101034. doi: 10.1016/j.addma.2019.101034

Novel cost-effective Fe-based high entropy alloys with balanced strength and ductility

Yin, Yu, Zhang, Jingqi, Tan, Qiyang, Zhuang, Wyman, Mo, Ning, Bermingham, Michael and Zhang, Ming-Xing (2018). Novel cost-effective Fe-based high entropy alloys with balanced strength and ductility. Materials & Design, 162, 24-33. doi: 10.1016/j.matdes.2018.11.033

Deformation heating and flow localization in Ti–15–3 metastable β titanium alloy subjected to high Z deformation

Zhang, Jingqi and Di, Hongshuang (2016). Deformation heating and flow localization in Ti–15–3 metastable β titanium alloy subjected to high Z deformation. Materials Science and Engineering: A, 676, 506-509. doi: 10.1016/j.msea.2016.09.011

Flow softening of 253 MA austenitic stainless steel during hot compression at higher strain rates

Zhang, Jingqi, Di, Hongshuang and Wang, Xiaoyu (2016). Flow softening of 253 MA austenitic stainless steel during hot compression at higher strain rates. Materials Science and Engineering: A, 650, 483-491. doi: 10.1016/j.msea.2015.10.084

Processing maps for hot deformation of a high-Mn TWIP steel: a comparative study of various criteria based on dynamic materials model

Zhang, Jingqi, Di, Hongshuang, Mao, Kun, Wang, Xiaoyu, Han, Zhijie and Ma, Tianjun (2013). Processing maps for hot deformation of a high-Mn TWIP steel: a comparative study of various criteria based on dynamic materials model. Materials Science and Engineering: A, 587, 110-122. doi: 10.1016/j.msea.2013.08.036

An electron backscattered diffraction study on the dynamic recrystallization behavior of a nickel–chromium alloy (800H) during hot deformation

Cao, Yu, Di, Hongshuang, Zhang, Jingqi, Zhang, Jiecen, Ma, Tianjun and Misra, R.D.K. (2013). An electron backscattered diffraction study on the dynamic recrystallization behavior of a nickel–chromium alloy (800H) during hot deformation. Materials Science and Engineering: A, 585, 71-85. doi: 10.1016/j.msea.2013.07.037

Constitutive analysis of the hot deformation behavior of Fe–23Mn–2Al–0.2C twinning induced plasticity steel in consideration of strain

Zhang, Jingqi, Di, Hongshuang, Wang, Xiaoyu, Cao, Yu, Zhang, Jiecen and Ma, Tianjun (2013). Constitutive analysis of the hot deformation behavior of Fe–23Mn–2Al–0.2C twinning induced plasticity steel in consideration of strain. Materials and Design, 44, 354-364. doi: 10.1016/j.matdes.2012.08.004

Hot deformation behavior of Ti-15-3 titanium alloy: a study using processing maps, activation energy map, and Zener–Hollomon parameter map

Zhang, Jingqi, Di, Hongshuang, Wang, Hongtao, Mao, Kun, Ma, Tianjun and Cao, Yu (2012). Hot deformation behavior of Ti-15-3 titanium alloy: a study using processing maps, activation energy map, and Zener–Hollomon parameter map. Journal of Materials Science, 47 (9), 4000-4011. doi: 10.1007/s10853-012-6253-1

Design and tailoring of additively manufactured titanium and titanium alloys by laser powder bed fusion

Zhang, Jingqi (2021). Design and tailoring of additively manufactured titanium and titanium alloys by laser powder bed fusion. PhD Thesis, School of Mechanical and Mining Engineering, The University of Queensland. doi: 10.14264/727abe4