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Faculty

Name : Lin Zhang

Department : Institute of Powder Metallurgy

Title :Professor

Address :Institute for Advanced Materials and Technology, University of Science and Technology Beijing, 30 Xueyuan Road, Haidian District, Beijing, China

Zip code :100083

Office Location : 230 Room, Jinwu Building

Office Telephone : 010-82377286

Mailbox : zhanglincsu@163.com

Personal profile:

Zhang Lin, born in 1980, doctor of materials science, Professor. In 2002, he graduated from Central South University of powder metallurgy with a bachelor's degree; in 2002-2005, he graduated from South University of powder metallurgy with a master's degree; in 2005-2009, he graduated from Beijing University of science and technology with a doctoral degree; from March 2017 to April 2018, he was a visiting scholar of MIT. He mainly studies ODS alloys, refractory metal, metal 3D printing, superalloys, friction and brake materials and the other advanced powder metallurgy materials. As the project leader, he has successively undertaken 9 projects such as  

National Key R&D Program of China, "973" plan project, "863" plan project, National Natural Science Foundation project, doctoral program of the Ministry of education, Beijing Natural Science Foundation and many enterprise projects, applied for more than 36 invention patents, published more than 45 academic papers, and won three provincial and ministerial first prize (ranking second and third).

Research direction:

1. Near net shape forming technology  

2. Powder metallurgy superalloy

3. Sintered or deformed refractory metal products (W, Mo and Re)

4. Oxide dispersion strengthened alloy

5. High density iron-based materials

6. Friction and brake material

7. Selective electron beam melting of refractory metals and ODS alloys

Scientific research achievement :

[1] Zhang Lin*, Ukai Shigeharu, Hoshino Takeshi, Hayashi Shigenari, Qu Xuanhui. Y2O3 evolution and dispersion refinement in Co-base ODS alloys. Acta Materialia, 2009, 57(12): 3671-3682.

[2] Zhang Lin*, Qu Xuanhui, Rafiud Din, Qin Mingli, Wang Yue. Ferritic alloys strengthened by β′ phase and nanosized oxide. Materials Letter, 2014, 117, 286-289.

[3] Zhang Lin*, Qu Xuanhui, He Xinbo, Rafiud Din, Qin Mingli, Liu Ye. Microstructure and mechanical properties of γ΄ strengthened Co-Ni-Al-W-base ODS alloys. Materials Chemistry and Physics. 2012, 136(2-3): 371-378.

[4] Haishen Sun, Lin Zhang, Yan Chen, Fangfang Chen, Lei Zhang. Magnetic properties of iron-based soft magnetic composites prepared by utilizing polyimide insulating layer. Journal of Magnetism and Magnetic Materials, 2019, 486(15): 165287

[5] Lin Zhang, Ye Liu, Shengxi Wang, Xiaowei Chen, Xuanhui Qu. ODS alloy with ferritic-austenitic duplex matrix and NiAl precipitation prepared by master alloy approach. Journal of Alloys and Compounds, 2019, 811(30): 152066.

[6] Xiaowei Chen, Lin Zhang, Ye Liu, Xiaoyong Gao, Xuanhui Qu. Phase evolution and densification behavior of MIM418 superalloy utilizing master alloy approach. Journal of Alloys and Compounds, 2019, 771(15): 33-41.

[7] Peng ZhangLin ZhangKangxi FuJingwu CaoCairang ShijiaXuanhui Qu. Effects of different forms of Fe powder additives on the simulated braking performance of Cu-based friction materials for high-speed railway trains [J]. Wear, 2018, 414: 317-326.

[8] Peng Zhang, Lin Zhang, Kangxi Fu, Peifang Wu, Jingwu Cao, Cairang Shijia, Xuanhui Qu. Fade behaviour of copper-based brake pad during cyclic emergency braking at high speed and overload condition [J]. Wear, 2019, 428: 10-23.

[9] Peng Zhang, Lin Zhang, Kangxi Fu, Peifang Wu, Jingwu Cao, Cairang Shijia, Xuanhui Qu. The effect of Al2O3 fiber additive on braking performance of copper-based brake pads utilized in high-speed railway train [J]. Tribology International, 2019, 135: 444-456.

[10] Peng Zhang, Lin Zhang, Dongbin Wei, Peifang Wu, Jingwu Cao, Cairang Shijia, Xuanhui Qu, Kangxi Fu. Effect of graphite type on the contact plateaus and friction properties of copper-based friction material for high-speed railway train [J]. Wear, 2019: 202927.

[11] Peng Zhang, Lin Zhang, Shubin Ren, Kangxi Fu, Peifang Wu, Jingwu Cao, Cairang Shijia, Xuanhui Qu. Effect of matrix alloying of Fe on friction and wear properties of Cu-based brake pad materials [J]. Tribology Transactions, 2019 (just-accepted): 1-12.

[12] Peng Zhang, Lin Zhang, Kangxi Fu, Peifang Wu, Jingwu Cao, Cairang Shijia, Xuanhui Qu. Effects of Ni-coated graphite flake on braking behavior of Cu-based brake pads applied in high-speed railway trains [J]. Journal of Tribology, 2019: 1-30.

[13] Peng Zhang, Lin Zhang, Kangxi Fu, Peifang Wu, Jingwu Cao, Cairang Shijia , Xuanhui Qu. The synergistic effect of Cr and CrFe particles on the braking behavior of Cu-based composites [J]. Tribology Transactions, Published online: 09 Aug 2019.

[14] Hongzhou Zhang, Lin Zhang, Guoqiang Dong, Zhiwei Liu, Yuanzhi Lü. Effects of annealing on high velocity compaction behavior and mechanical properties of iron-base PM alloy. Powder Technology, 2016, 288: 435-440.

[15] Zhang Lin*, Qu Xuanhui, He Xinbo, Rafiud Din, Qin Mingli, Zhu Hongmin. Hot deformation behavior of Co-base ODS alloys. Journal of Alloys and Compounds, 2012, 512(1): 39-46.

[16] Zhang Lin*, Liu Hengsan, He Xinbo, Rafiud Din, Qu Xuanhui, Qin Mingli, Zhang Guoqing. Thermal evolution behavior of carbides and γ΄ precipitates in FGH96 superalloy powder. Materials Characterization, 2012, 67: 52-64.

[17] Zhang Lin*, He Xinbo, Qu Xuanhui, Liu Ye, Qin Mingli, Zhu Hongmin. Characteristics of complex oxides in Co based ODS alloys. Powder Metallurgy, 2013, 56(1): 24-31.

[18] Zhang Lin*, Qu Xuanhui, Qin Mingli, Rafiud Din, He Xinbo, Liu Ye, Li Dan. Microstructural development and coarsening behavior of γ΄ precipitates in Co-Ni-Al-W-base ODS alloys. Materials Transactions, 2012, 53(11): 1922-1928.

[19] Zhang Lin*, Qu Xuanhui, He Xinbo, Rafiud Din, Liu Hengsan, Qin Mingli, Zhu Hongmin. Microstructural Characterization of Co-Based ODS Alloys. Journal of Materials Engineering and Performance, 2012: 21(11): 2487-2494.

[20] Zhang Lin*, He Xinbo, Qu Xuanhui, Rafiud Din, Liu Hengsan, Li Dan, Zhu Hongmin. Microstructural formation in novel Co-base ODS alloys produced by mechanical alloying. Advanced Materials Research, 2012, 415-417: 1136-1139.

[21] Zhang Lin*, He Xinbo, Qin Mingli, Liu Ye, Qu Xuanhui. The influence of Ni on the microstructure of Co-base ODS alloys. Advanced Materials Research, 2012, 535-537: 1011-1014.

[22] Zhang Lin*, Qu Xuanhui, Duan Bohua, He Xinbo, Ren Shubin, Qin Mingli. Microstructure and thermo-mechanical properties of pressureless infiltrated SiCp/Cu composites. Composite Science and Technology, 2008, 68(13): 2731-2738.

[23] Zhang Lin*, Qu Xuanhui, He Xinbo, Duan Bohua, Ren Shubin, Qin Mingli. Thermophysical and mechanical properties of high volume fraction SiCp/Cu composites prepared by pressureless infiltration. Materials Science & Engineering A, 2008. 489(1-2): 285-293.

[24] Zhang Lin*, He Xinbo, Qu Xuanhui, Duan Bohua, Qin Mingli. Dry sliding wear properties of high volume fraction SiCp/Cu composites produced by pressureless infiltration. Wear, 2008. 265(11-12): 1848-1856.

[25] Zhang Lin*, Qu Xuanhui, He Xinbo, Duan Bohua, Ren Shubin, Qin Mingli. SiCp/Cu composites prepared by pressureless infiltration of copper into porous SiC performs. Powder metallurgy, 2008, 51(1): 53-58.

[26] Zhang Lin*, Qu Xuanhui, He Xinbo, Duan Bohua, Ren Shubin, Qin Mingli. Thermal expansion behavior of SiCp/Cu composites prepared by spark plasma sintering and pressureless infiltration. Powder Metallurgy, 2009, 52(1): 17-23.

[27] Zhang Lin*, Qu XuanhuiDuan BohuaHe Xinbo. Effect of porosity on wear resistance of SiCP/Cu composites prepared by pressureless infiltration. Trans. Nonferrous Met. Soc. China. 2008, 18(5): 1076-1082.

[28] Zhang Lin*, Qu Xuanhui, He Xinbo, Duan Bohua. Preparation of SiCP/Cu composites by Ti-activated pressureless infiltration. Trans. Nonferrous Met. Soc. China. 2008, 18(4): 872-878.

[29] Liu Hengsan, Zhang Lin*, He Xinbo, Qu Xuanhui, Zhang Guoqing, Zhu Hongmin. Effect of oxygen content on carbide precipitation behavior in a PM Ni-base superalloy. International Journal of Minerals, Metallurgy and Materials. 2012, 19(9): 827-835.