章林(北京科技大學新材料技術研究院研究員)

章林(北京科技大學新材料技術研究院研究員)

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研究員北京科技大學新材料技術研究院

基本介紹

  • 中文名
  • 學位/學歷
  • 職業
  • 職稱
個人簡介,研究經歷,研究方向,科研業績,科研項目,發表論文,授權專利,所獲榮譽,

個人簡介

研究經歷

研究方向

科研業績

科研項目

6.國家自然科學基金面上項目,粉末冶金鐵素體超合金中納米析出相演變與協同強化
機制(51574029),2016.1-2019.12,80萬,結題,主持;
7.軍品配套科研項目,XXX型材研製(JPPT-XXX-113),2015.7-2018.3,493萬,結題,主持;
8.國防973計畫項目課題,XXX技術,2015.1-2020.4,521萬,在研,主持;
9.北京市自然科學基金.新型鈷基ODS合金中納米複合氧化物的粒徑和界面結構演化規律(2132046),2013.1-2015.12,14萬,結題,主持;
10.國家863計畫項目子課題,先進粉末高溫合金的研製及製備技術(2012AA03A514),2012.1-2015.12,525萬,結題,主持;
11.國家自然科學基金青年基金.γ′相和納米複合氧化物強化新型鈷基ODS合金的研究(51104007),2012.1-2014.12,25萬,結題,主持;
12.中國博士後基金.ODS合金組織演變基礎問題研究(11175026),2011.11-2012.11年,10萬,結題,主持;
13.軍品配套科研項目,XXX基底研製(JPPT-XXX-125),2011.7-2015.12,305萬,結題,主持。

發表論文

[1] Li Xingyu, Zhang Lin*, Dong Yanhao, Gao Rui, Qin Mingli, Qu Xuanhui, Li Ju. Pressureless two-step sintering of ultrafine-grained tungsten Acta Materialia, 2020, 186: 116-123.
[2] 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.
[3] Li Xingyu, Zhang Lin*, Wang Guanghua, Qin Mingli, Qu Xuanhui, So Kang Pyo. Influence of impurities on hot-rolled molybdenum for high temperature applications, International Journal of Refractory Metals and Hard Materials, 2020, 92: 105294.
[4] Li Xingyu, Zhang Lin*, Wang Guanghua, Long Ying, Yang Junjun, Qin Mingli, Qu Xuanhui, So Kang Pyo. Microstructure evolution of hot-rolled pure and doped tungsten under various rolling reductions, Journal of Nuclear Materials, 2020, 533: 152074.
[5] 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.
[6] 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.
[7] 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.
[8] Chen Xiaowei, Zhang Lin*, Liu Ye, Gao Xiaoyong, Li Dan, Lu Huifeng, Qu Xuanhui. Phase evolution and densification behavior of MIM418 superalloy utilizing master alloy approach. Journal of Alloys and Compounds, 2019, 771(15): 33-41.
[9] Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Adjusting function of MoS2 on the high-speed emergency braking properties of copper-based brake pad and the analysis of relevant tribo-film of eddy structure. Composites Part B-Engineer, 2020, 185: 107779.
[10] Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. A high-performance copper-based brake pad for high-speed railway trains and its surface substance evolution and wear mechanism at high temperature. Wear, 2020, 444-445: 203182.
[11] Zhang Peng, Zhang Lin*, Wu Peifang, Cao Jingwu, Shijia Cairang, Wei Dongbin, Qu Xuanhui. Effect of carbon fiber on the braking performance of copper-based brake pad under continuous high-energy braking conditions. Wear, 2020, 458-459: 203408.
[12] Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui, Fu Kangxi. Effect of graphite type on the contact plateaus and friction properties of copper-based friction material for high-speed railway train. Wear, 2019, 432-433: 202927.
[13] Zhang Peng, Zhang Lin*, Fu Kangxi, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Effects of different forms of Fe powder additives on the simulated braking performance of Cu-based friction materials for high-speed railway trains. Wear, 2018, 414-415: 317-326.
[14] Zhang Peng, Zhang Lin*, Fu Kangxi, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Fade behaviour of copper-based brake pad during cyclic emergency braking at high speed and overload condition. Wear, 2019, 428-429: 10-23.
[15] Zhang Peng, Zhang Lin*, Fu Kangxi, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. The effect of Al2O3 fiber additive on braking performance of copper-based brake pads utilized in high-speed railway train. Tribology International, 2019, 135: 444-456.
[16] Zhang Peng, Zhang Lin*, Wei Dongbin, Wu Peifang, Cao Jingwu, Shijia Cairang, Qu Xuanhui. Substance evolution and wear mechanism on friction contact area of brake disc for high-speed railway trains at high temperature. Engineering Failure Analysis, 2020, 111: 104472.

授權專利

[1]Zhang Lin, Qu Xuanhui, Li Xingyu, Qin Mingli, Dong Yanhao, Li Ju, Wang Guanghua, Long Ying, Zhongwei. Metal material sintering densification and grain size control method. US Provisional patent, Application No.16/793897.(申請美國專利)
[2]Zhang Lin, Qu Xuanhui, Zhang Peng, Wu Peifang, Qin Mingli, Shijia Cairang, Cao Jingwu, Fu Kangxi. Fiber-reinforced copper-based brake pad for high-speed railway train, and preparation and friction braking performance thereof. US Provisional patent, Application No.16/793938.(申請美國專利)
[3]章林、高小勇、曲選輝、陳曉瑋、宋利軍、欒益鋒. 一種控制粉末冶金高溫合金母合金中非金屬夾雜物的方法. 中國發明專利, 專利號: ZL 201811259985.4, 授權日: 2020.3.27
[4]章林, 曲選輝, 秦明禮, 何新波, 趙曉瑋. 納米β΄相和納米氧化物複合強化鐵基ODS合金的製備方法. 中國發明專利, 專利號: ZL201310126630.9, 授權日: 2014.10.15
[5]章林, 曲選輝, 秦明禮, 劉燁, 何新波. 一種近終成形多孔鎳基ODS合金的方法, 中國發明專利, 專利號:ZL201310006565.6, 授權日:2014.08.13
[6]章林, 曲選輝, 秦明禮, 劉燁, 何新波.一種複雜形狀鈮基ODS合金的製備方法, 中國發明專利, 專利號:ZL201310014888.X, 授權日:2014.09.17
[7]章林, 曲選輝, 何新波, 秦明禮. 一種氧化物彌散強化鈷基超合金的製備方法. 中國發明專利,專利號:ZL201010513441.3, 授權日: 2012.05.23
[8]章林,曲選輝,李啟軍,陳曉瑋,秦明禮,何新波,張瑞傑.一種輕質鈮基合金粉末及零部件的製備方法.中國發明專利,授權號:ZL201410019406.4,授權日:2015.09.09.
[9]章林, 劉燁, 曲選輝, 何新波, 秦明禮. 一種製備注射成形鎳基ODS合金的方法. 中國發明專利, 專利號: ZL201110180744.2, 授權日: 2012.11.28
[10]章林, 劉燁, 曲選輝, 何新波, 秦明禮. 一種機械化學反應發製備鈷基ODS合金的方法. 中國發明專利, 專利號: ZL201110187691.7, 授權日: 2013.01.09
[11]章林, 李丹, 曲選輝, 秦明禮, 何新波.一種具有中空內部結構增壓渦輪的近終成形方法, 中國發明專利, 專利號:ZL201310193544.X, 授權日:2014.12.24
[12]章林,李丹,曲選輝,秦明禮,何新波.一種帶側斜面零件的注射成形模具.中國發明專利,授權號:ZL201310494939.3,授權日:2015.09.09.

所獲榮譽

[1]曲選輝; 秦明禮; 章林; 吳昊陽; 鄔均文; 鐘偉. 高性能特種粉體材料近終形製造技術及套用, 2019年國家技術發明二等獎,(第3)。
[2]章林; 曲選輝; 秦明禮; 余鵬; 路新;李啟軍. 輕質鈮、鈦基合金製品近終形製造技術及套用, 2019年中國有色金屬工業技術發明一等獎,(第1)。
[3]秦明禮; 章林; 陳鵬起; 曲選輝; 李睿; 陳錚.高性能複雜形狀金屬鎢製品的粉末注射成形技術及套用, 2018年中國有色金屬工業技術發明一等獎,(第2)
[4]秦明禮; 曲選輝; 章林; 陳鵬起; 李睿; 陳錚. 高性能金屬鎢製品精密製備技術及套用, 2018年教育部技術 發明一等獎。
開發的注射成形產品獲兩項“2018年世界粉末冶金大會傑出創新產品獎”。
2020年11月,獲第十屆中國金屬學會冶金青年科技獎青年教師獲獎。

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