辦公電話：053188728307

電子郵件：yanghb@sdas.org,；[email protected]

通訊地址：濟南市歷城區(qū)經(jīng)十東路28789號

郵政編碼：250014

一,、個人簡歷

2020.09-至今：助理研究員,，齊魯工業(yè)大學，材料科學與工程學部

2014.09–2019.12  山東大學   材料科學與工程   博士

2010.09–2014.06  山東大學   材料科學與工程   學士

二,、研究方向

主要從事高性能鋁合金材料成分設(shè)計,、相和相變調(diào)控研究,，研究關(guān)鍵詞：鋁合金,，熔體，凝固,，形核機理,，熱處理，強韌化,，力學性能,，導電導熱，耐腐蝕性能等,。

三,、科研項目 

1．新型非均質(zhì)Al₂O₃/Al納米復合材料的合成及其強韌化機理研究，山東省自然科學基金青年項目,，15萬,，主持，結(jié)題,。

2．鋁基復合材料中納米粒子線狀構(gòu)型的構(gòu)筑及其強韌化機理研究,，齊魯工業(yè)大學工程基礎(chǔ)研究類項目，10萬,，主持,，結(jié)題。

3．基于異質(zhì)形核調(diào)控的高強韌TiC_x/Al-Cu異構(gòu)復合材料設(shè)計及其超塑性變形機制研究,，齊魯工業(yè)大學人才科研項目,，19.57萬，主持,，結(jié)題,。

4.高導熱Al-Mg-Si合金開發(fā)，高校技術(shù)研發(fā),，3萬,，主持，結(jié)題,。

5.高導電鋁合金部件材料成分設(shè)計,、鑄造工藝及熱處理技術(shù)開發(fā)，企業(yè)技術(shù)研發(fā),，40萬,，主持，在研,。

四,、代表性論文

期刊論文

[1] H.B. Yang,  Z. Qian, H.W. Chen, X.J. Zhao, G. Han, W.Z. Du, X. Nie, K. Zhao, G.L. Liu, Q.Q. Sun, T. Gao, J.X. Zhou, J.F. Nie, X.F. Liu, A new insight into heterogeneous nucleation mechanism of Al by non-stoichiometric TiC_x, Acta Mater. 233 (2022) 117977.

[2] H.B. Yang, C.C. Sun, Y. Li, K.M. Cheng, Y.T. Liu, J.H. Wu, H.T. Liu, J. Wang, D.Q. Zhao, L.H. Song, X.S. Feng, J.X. Zhou, X.F. Liu, Effect of grain size and dislocation density on thermal stability of

Al-Cu-Mg alloy, Materialia 38 (2024) 102276.

[3] H.B. Yang, Y.T. Liu, Y. Li, S.Q. Zhang, J.H. Wu, H. Yu, H.T. Liu, B.C. Ma, H.H. Zhuang, X.S. Feng, P. Zhang, J.X. Zhou, X.F. Liu, Influence of Cu/Mg ratio and content on heat-resistance of Al–Cu–Mg alloys,，J. Mater. Res. Technol. 29 (2024) 1040–1051.

[4] H.B. Yang, K. Zhao, J.F. Nie, X.F. Liu, The enhanced superplasticity of a 2024 matrix nanocomposite reinforced by TiC particles, Mater. Sci. Eng. A 774 (2020) 138926.

[5] H.B. Yang, T. Gao, H.N. Zhang, J.F. Nie, X.F. Liu, Enhanced age-hardening behavior in Al–Cu alloys induced by in-situ synthesized TiC nanoparticles, J. Mater. Sci. Technol. 35 (2019) 374–382.

[6] H.B. Yang, T. Gao, G.L. Liu, X.J. Zhao, H.W. Chen, H.C. Wang, J.F. Nie, X.F. Liu, Simultaneously improving strength and ductility for Al–Cu–Mg alloy via threadiness array of TiC nanoparticles, Materialia 6 (2019) 100333.

[7] H.B. Yang, S. Tian, T. Gao, J.F. Nie, Z.S. You, G.L. Liu, H.C. Wang, X.F. Liu, High-temperature mechanical properties of 2024 Al matrix nanocomposite reinforced by TiC network architecture, Mater. Sci. Eng. A 763 (2019) 138121.

[8] H.B. Yang, Z. Qian, G.J. Zhang, J.F. Nie, X.F. Liu, The grain refinement performance of B-doped TiC on Zr-containing Al alloys, J. Alloys Compd. 731 (2018) 774–783.

[9] H.B. Yang, T. Gao, Y.Y. Wu, H.N. Zhang, J.F. Nie, X.F. Liu, Microstructure and mechanical properties at both room and high temperature of in-situ TiC reinforced Al–4.5 Cu matrix nanocomposite, J. Alloys Compd. 767 (2018) 606–616.

[10] H.B. Yang, T. Gao, H.C. Wang, J.F. Nie, X.F. Liu, Influence of C/Ti stoichiometry in TiC_x on the grain refinement efficiency of Al–Ti–C master alloy, J. Mater. Sci. Technol. 33 (2017) 616–622.

會議報告

[1] Yang, H.B., A new insight into heterogeneous nucleation mechanism of Al by non-stoichiometric TiC_x, The seventh Chinese-Norwegian symposium on light metals and new energy materials, October 7-10, 2023, Tianjin, China

五、榮譽獎勵

2014年山東省優(yōu)秀畢業(yè)生