張元祥,男,博士,東北大學軋制技術及連軋自動化國家重點實驗室講師。
基本介紹
- 中文名:張元祥
- 職業:教師
- 畢業院校:東北大學
- 學位/學歷:博士
- 專業方向:材料加工工程
- 任職院校:東北大學
人物經歷,學習經歷,工作經歷,研究方向,學術成果,科研項目,發表論文,申請專利,
人物經歷
學習經歷
2004.9-2008.7:瀋陽理工大學 材料成型及控制工程 本科
2008.9-2010.7:東北大學 材料加工工程 碩士研究生
2010.9-2017.4:東北大學 材料加工工程 博士研究生
2008.9-2010.7:東北大學 材料加工工程 碩士研究生
2010.9-2017.4:東北大學 材料加工工程 博士研究生
工作經歷
2017/11 –今,東北大學,軋制技術及連軋自動化國家重點實驗室,講師
研究方向
薄帶鑄軋短流程成形技術、電工鋼組織織構控制
學術成果
科研項目
[1] 國家自然科學基金重點項目-基於雙輥薄帶連鑄的高品質矽鋼織構控制理論與工業化技術研究,50734001, 參與人;
[2] 國家自然科學基金鋼鐵聯合基金重點項目-凝固、冷卻及熱處理一體化柔性調控無取向矽鋼夾雜物與析出物的基礎研究,U1260204,主要參與人;
[3] 國家自然科學基金面上項目-非等溫熱激勵大變形薄帶連鑄Fe-Si 合金的超快速再結晶與擇優取向研究,51174059,主要參與人;
[4] 企事業單位合作科技項目-短流程薄帶鑄軋高品質鋼產業化系列關鍵技術研發,鋼種與工藝設計。
[2] 國家自然科學基金鋼鐵聯合基金重點項目-凝固、冷卻及熱處理一體化柔性調控無取向矽鋼夾雜物與析出物的基礎研究,U1260204,主要參與人;
[3] 國家自然科學基金面上項目-非等溫熱激勵大變形薄帶連鑄Fe-Si 合金的超快速再結晶與擇優取向研究,51174059,主要參與人;
[4] 企事業單位合作科技項目-短流程薄帶鑄軋高品質鋼產業化系列關鍵技術研發,鋼種與工藝設計。
發表論文
[1] Zhang Y X, Xu Y B, Liu H T, Li C G, Cao G M, Liu Z Y, Wang G D. Microstructure, texture and magnetic properties of strip-cast 1.3% Si non-oriented electrical steels. Journal of Magnetism & Magnetic Materials, 2012, 324(20):3328-3333.
[2] Zhang Y X, Fang F, Xu Y B, Wang Y, Lu X, Cao G M, Li C G, Yu Y M. Research on the Abnormal Grain Growth of Goss Grains in Strip-Cast 4.5%Si Grain-Oriented Electrical Steels. Applied Mechanics & Materials, 2014, 633-634:858-864.
[3] Zhang Y X, Wu L G, Xu Y B, Wang Y, Chen L Q, Yu Y M, Wang G D. Effect of Secondary Cooling on Microstructure, Texture and Properties of 1.2wt% Si Non-Oriented Electrical Steel Processed by Twin-Roll Strip Casting. Key Engineering Materials, 2014, 622-623:798-803.
[4] 張元祥, 許雲波, 劉振宇, 王國棟. 雙輥薄帶連鑄1.2%Si無取向電工鋼組織和析出物. 東北大學學報(自然科學版), 2012, 33(5):653-656.
[5] 張元祥, 許雲波, 劉振宇, 王國棟. 雙輥薄帶連鑄對無取向矽鋼織構和磁性能的影響. 材料熱處理學報, 2012, 33(8):64-68.
2. 非第一作者論文:
[6] Xu Y B, Zhang Y X, Wang Y, Li C G, Cao G M, Liu Z Y, Wang G D. Evolution of cube texture in strip-cast non-oriented silicon steels[J]. Scripta Materialia, 2014, 87(4):17-20.
[7] Wang Y, Zhang Y X, Lu X, Fang F, Xu Y B, Cao G M, Li C G, R.D.K. Misra, Wang G D. A novel ultra-low carbon grain oriented silicon steel produced by twin-roll strip casting[J]. Journal of Magnetism & Magnetic Materials, 2016, 419:225-232.
[8] Fang F, Zhang Y X, Lu X, Wang Y, Cao G M, Yuan G, Xu Y B, Wang G D, R.D.K. Misra. Inhibitor induced secondary recrystallization in thin-gauge grain oriented silicon steel with high permeability[J]. Materials & Design, 2016, 105:398-403.
[9] Wang Y, Zhang Y X, Lu X, Fang F, Cao G M, Li C G, Xu Y B, R.D.K. Misra, Wang G D. Effect of Hot Rolling on Texture, Precipitation, and Magnetic Properties of Strip‐Cast Grain‐Oriented Silicon Steel[J]. Steel Research International, 2016.
[10] Yu Y M, Zhang Y X, Li C S, Wang G D. Effect of TSCR Process on Cold Rolling Texture of Fe-3% Silicon Steels[J]. Advanced Materials Research, 2010, 160-162: 488-491.
[11] Wang Y, Xu Y B, Zhang Y X, Xie S Q, Yu Y M, Wang G D. On abnormal growth of {210} <001>grain in grain-oriented silicon steel[J]. Materials Research Bulletin, 2015, 69: 138-141.
[12] Wang Y, Xu Y B, Zhang Y X, et al. Effect of annealing after strip casting on texture development in grain oriented silicon steel produced by twin roll casting[J]. Materials Characterization, 2015, 107:79-84.
[13] Wang Y, Xu Y B, Zhang Y X, Fang F, Lu X, R.D.K. Misrab, Wang G D. Development of microstructure and texture in strip casting grain oriented silicon steel[J]. Journal of Magnetism & Magnetic Materials, 2015, 379:161-166.
[14] Lu X, Fang F, Zhang Y X, Wang Y, Yuan G, Xu Y B, Cao G M, R.D.K. Misrab, Wang G D. Influence of Rolling Reduction on Secondary Recrystallization and Magnetic Properties in Strip‐Cast Grain‐Oriented 4.5%Si Steel[J]. Steel Research International, 2016.
[15] Fang F, Xu Y B, Zhang Y X, Lu X, R.D.K Misrab, Wang G D. Evolution of recrystallization microstructure and texture during rapid annealing in strip-cast non-oriented electrical steels[J]. Journal of Magnetism & Magnetic Materials, 2015, 381:433-439.
[16] Fang F, Lu X, Zhang Y X, Wang Y, Jiao H T, Cao G M, Yuan G, Xu Y B, R.D.K. Misrab, Wang G D. Influence of cold rolling direction on texture, inhibitor and magnetic properties in strip-cast grain-oriented 3% silicon steel[J]. Journal of Magnetism & Magnetic Materials, 2016, 424:339-346.
[17] Wang Y, Xu Y B, Zhang Y X, He Z Y, Fu S J, Yu Y M, Wang G D. Characterization of Initial Structures, Texture and Precipitates in Strip-cast 3wt%Si Steel Sheet[J]. Procedia Engineering, 2014, 81:1529-1534.
[18] Wang Y. Xu Y B, Zhang Y X, Fang F, Lu X, Wang G D. Inhomogeneous Distributions of Sub-Grains and Precipitates in Strip-Cast 3wt% Si Steel Sheet[J]. Materials Science Forum, 2016, 850:549-553.
[19] Wang Y, Xu Y B, Zhang Y X, Fang F, Lu X, Yu Y M, Wang G D. Cu2S and AlN Precipitates in Fe-3%Si-0.5%Cu Steel Produced by Low Slab Reheating Technique[J]. Advanced Materials Research, 2013, 790:69-72.
[20] 王洋,許雲波,張元祥,王國棟. 冷軋工藝對取向矽鋼初次再結晶織構的影響,東北大學學報,2014,35(2): 217-222.
[2] Zhang Y X, Fang F, Xu Y B, Wang Y, Lu X, Cao G M, Li C G, Yu Y M. Research on the Abnormal Grain Growth of Goss Grains in Strip-Cast 4.5%Si Grain-Oriented Electrical Steels. Applied Mechanics & Materials, 2014, 633-634:858-864.
[3] Zhang Y X, Wu L G, Xu Y B, Wang Y, Chen L Q, Yu Y M, Wang G D. Effect of Secondary Cooling on Microstructure, Texture and Properties of 1.2wt% Si Non-Oriented Electrical Steel Processed by Twin-Roll Strip Casting. Key Engineering Materials, 2014, 622-623:798-803.
[4] 張元祥, 許雲波, 劉振宇, 王國棟. 雙輥薄帶連鑄1.2%Si無取向電工鋼組織和析出物. 東北大學學報(自然科學版), 2012, 33(5):653-656.
[5] 張元祥, 許雲波, 劉振宇, 王國棟. 雙輥薄帶連鑄對無取向矽鋼織構和磁性能的影響. 材料熱處理學報, 2012, 33(8):64-68.
2. 非第一作者論文:
[6] Xu Y B, Zhang Y X, Wang Y, Li C G, Cao G M, Liu Z Y, Wang G D. Evolution of cube texture in strip-cast non-oriented silicon steels[J]. Scripta Materialia, 2014, 87(4):17-20.
[7] Wang Y, Zhang Y X, Lu X, Fang F, Xu Y B, Cao G M, Li C G, R.D.K. Misra, Wang G D. A novel ultra-low carbon grain oriented silicon steel produced by twin-roll strip casting[J]. Journal of Magnetism & Magnetic Materials, 2016, 419:225-232.
[8] Fang F, Zhang Y X, Lu X, Wang Y, Cao G M, Yuan G, Xu Y B, Wang G D, R.D.K. Misra. Inhibitor induced secondary recrystallization in thin-gauge grain oriented silicon steel with high permeability[J]. Materials & Design, 2016, 105:398-403.
[9] Wang Y, Zhang Y X, Lu X, Fang F, Cao G M, Li C G, Xu Y B, R.D.K. Misra, Wang G D. Effect of Hot Rolling on Texture, Precipitation, and Magnetic Properties of Strip‐Cast Grain‐Oriented Silicon Steel[J]. Steel Research International, 2016.
[10] Yu Y M, Zhang Y X, Li C S, Wang G D. Effect of TSCR Process on Cold Rolling Texture of Fe-3% Silicon Steels[J]. Advanced Materials Research, 2010, 160-162: 488-491.
[11] Wang Y, Xu Y B, Zhang Y X, Xie S Q, Yu Y M, Wang G D. On abnormal growth of {210} <001>grain in grain-oriented silicon steel[J]. Materials Research Bulletin, 2015, 69: 138-141.
[12] Wang Y, Xu Y B, Zhang Y X, et al. Effect of annealing after strip casting on texture development in grain oriented silicon steel produced by twin roll casting[J]. Materials Characterization, 2015, 107:79-84.
[13] Wang Y, Xu Y B, Zhang Y X, Fang F, Lu X, R.D.K. Misrab, Wang G D. Development of microstructure and texture in strip casting grain oriented silicon steel[J]. Journal of Magnetism & Magnetic Materials, 2015, 379:161-166.
[14] Lu X, Fang F, Zhang Y X, Wang Y, Yuan G, Xu Y B, Cao G M, R.D.K. Misrab, Wang G D. Influence of Rolling Reduction on Secondary Recrystallization and Magnetic Properties in Strip‐Cast Grain‐Oriented 4.5%Si Steel[J]. Steel Research International, 2016.
[15] Fang F, Xu Y B, Zhang Y X, Lu X, R.D.K Misrab, Wang G D. Evolution of recrystallization microstructure and texture during rapid annealing in strip-cast non-oriented electrical steels[J]. Journal of Magnetism & Magnetic Materials, 2015, 381:433-439.
[16] Fang F, Lu X, Zhang Y X, Wang Y, Jiao H T, Cao G M, Yuan G, Xu Y B, R.D.K. Misrab, Wang G D. Influence of cold rolling direction on texture, inhibitor and magnetic properties in strip-cast grain-oriented 3% silicon steel[J]. Journal of Magnetism & Magnetic Materials, 2016, 424:339-346.
[17] Wang Y, Xu Y B, Zhang Y X, He Z Y, Fu S J, Yu Y M, Wang G D. Characterization of Initial Structures, Texture and Precipitates in Strip-cast 3wt%Si Steel Sheet[J]. Procedia Engineering, 2014, 81:1529-1534.
[18] Wang Y. Xu Y B, Zhang Y X, Fang F, Lu X, Wang G D. Inhomogeneous Distributions of Sub-Grains and Precipitates in Strip-Cast 3wt% Si Steel Sheet[J]. Materials Science Forum, 2016, 850:549-553.
[19] Wang Y, Xu Y B, Zhang Y X, Fang F, Lu X, Yu Y M, Wang G D. Cu2S and AlN Precipitates in Fe-3%Si-0.5%Cu Steel Produced by Low Slab Reheating Technique[J]. Advanced Materials Research, 2013, 790:69-72.
[20] 王洋,許雲波,張元祥,王國棟. 冷軋工藝對取向矽鋼初次再結晶織構的影響,東北大學學報,2014,35(2): 217-222.
申請專利
[1] 許雲波,張元祥,王洋,方烽,盧翔,焦海濤,曹光明,李成剛,劉振宇,王國棟. 雙輥薄帶連鑄無取向矽鋼過程中析出物與夾雜物控制方法:CN104226954B[P]. 2016,10.
[2] 許雲波,張元祥,王洋,盧翔,方烽,焦海濤,曹光明,李成剛,劉振宇,王國棟. 快速冷卻控制雙輥薄帶連鑄低矽無取向矽鋼磁性能的方法:CN104164618B[P]. 2016,08.
[3] 王國棟,張元祥,王洋,盧翔,方烽,曹光明,李成剛,許雲波,劉振宇. 一種取向高矽鋼的製備方法:CN104372238B[P]. 2016,05.
[4] 王國棟,許雲波,王洋,張元祥,方烽,盧翔,曹光明,李成剛,劉振宇. 一種超低碳取向矽鋼及其製備方法:CN104294155B[P]. 2016,05.
[5] 許雲波,張元祥,王洋,曹光明,李成剛,劉振宇,方烽,盧翔,王國棟. 一種雙輥薄帶連鑄製備1.5mm級Fe-Si合金帶的方法:CN103602886B[P]. 2015,11.
[6] 王國棟,劉振宇,張曉明,李成剛,曹光明,張婷,張元祥. 一種無取向矽鋼薄帶及其製備方法:CN101967602B[P]. 2012,08.
[7] 王國棟,劉振宇,張曉明,李成剛,曹光明,張婷,張元祥. 一種高矽鋼薄帶及其製備方法:CN101935800B[P]. 2010,09.
[8] 方烽,曹光明,李成剛,盧翔,焦海濤,王鶴松,王洋,張元祥,許雲波,袁國,劉振宇,王國棟. 一種高磁感取向矽鋼極薄帶的減量化製備方法:CN105385937A[P]. 2016,03.
[9] 許雲波,張元祥,方烽,王洋,盧翔,焦海濤,曹光明,李成剛,劉振宇,王國棟. 控制雙輥薄帶連鑄無取向矽鋼磁性能的快速熱處理方法:CN104178617A[P]. 2014,12.
[10] 許雲波,張元祥,王洋,曹光明,李成剛,劉振宇,方烽,盧翔,王國棟. 一種雙輥薄帶連鑄製備高效電機用無取向電工鋼的方法:CN103614618A[P]. 2014,03.
[11] Wang G D, Zhang Y X, Wang Y, Lu X, Fang F, Cao G M, Li C G, Yuan G, Xu Y B,Liu Z Y, Wang Z D. A PREPARATION METHOD OF ORIENTED HIGH SILICON STEEL: US20160247613[P]. 2016, 08.
[2] 許雲波,張元祥,王洋,盧翔,方烽,焦海濤,曹光明,李成剛,劉振宇,王國棟. 快速冷卻控制雙輥薄帶連鑄低矽無取向矽鋼磁性能的方法:CN104164618B[P]. 2016,08.
[3] 王國棟,張元祥,王洋,盧翔,方烽,曹光明,李成剛,許雲波,劉振宇. 一種取向高矽鋼的製備方法:CN104372238B[P]. 2016,05.
[4] 王國棟,許雲波,王洋,張元祥,方烽,盧翔,曹光明,李成剛,劉振宇. 一種超低碳取向矽鋼及其製備方法:CN104294155B[P]. 2016,05.
[5] 許雲波,張元祥,王洋,曹光明,李成剛,劉振宇,方烽,盧翔,王國棟. 一種雙輥薄帶連鑄製備1.5mm級Fe-Si合金帶的方法:CN103602886B[P]. 2015,11.
[6] 王國棟,劉振宇,張曉明,李成剛,曹光明,張婷,張元祥. 一種無取向矽鋼薄帶及其製備方法:CN101967602B[P]. 2012,08.
[7] 王國棟,劉振宇,張曉明,李成剛,曹光明,張婷,張元祥. 一種高矽鋼薄帶及其製備方法:CN101935800B[P]. 2010,09.
[8] 方烽,曹光明,李成剛,盧翔,焦海濤,王鶴松,王洋,張元祥,許雲波,袁國,劉振宇,王國棟. 一種高磁感取向矽鋼極薄帶的減量化製備方法:CN105385937A[P]. 2016,03.
[9] 許雲波,張元祥,方烽,王洋,盧翔,焦海濤,曹光明,李成剛,劉振宇,王國棟. 控制雙輥薄帶連鑄無取向矽鋼磁性能的快速熱處理方法:CN104178617A[P]. 2014,12.
[10] 許雲波,張元祥,王洋,曹光明,李成剛,劉振宇,方烽,盧翔,王國棟. 一種雙輥薄帶連鑄製備高效電機用無取向電工鋼的方法:CN103614618A[P]. 2014,03.
[11] Wang G D, Zhang Y X, Wang Y, Lu X, Fang F, Cao G M, Li C G, Yuan G, Xu Y B,Liu Z Y, Wang Z D. A PREPARATION METHOD OF ORIENTED HIGH SILICON STEEL: US20160247613[P]. 2016, 08.
