張新房

2015 年12 月至今北京科技大學 冶金與生態工程學院 教授 [中國]

2012 年10 月-2015 年10 月 帝國理工學院 材料系 博士後 [英國]

2010 年4 月-2012 年9 月 大阪大學 接合科學研究所 特任研究員 [日本]

2009 年12 月-2010 年3 月 大阪大學 產業科學研究所 日本學術振興會外國人特別研究員 [日本]

2004年9月-2010年1月 中國科學院金屬研究所 博士[中國]

在日本大阪大學和英國帝國理工學院從事教學與研究工作6年余。在金屬夾雜物分離提純、凝固相變冶金過程原位觀察、核電用鋼老化延壽、海洋用耐腐鋼及微電子器件電損傷等電磁冶金領域有初步的理論及實驗技術研究。提出和完善了外場下清潔冶煉提純新工藝及新理論，發現了微電子器件電損傷機理，整合了同步輻射和光學原位測試冶金過程新手段，被國際學者認同和跟蹤研究。

張新房教授共發表包括Scientific Reports、Applied Physics Letters、Scripta Materialia等SCI 檢索刊物論文28篇，國際會議論文15篇，英文專著一部，中國及日本專利4項。在國際國內會議、企業、大學做過30多次演講。

先後獲得2012年國際焊接學會“最佳海報獎”，2010 年中國科學院“師昌緒獎學金”；2007年國際封裝學會“最佳論文獎”。所發表的文章被他引260多次。主持及參與中組部、基金委、教育部、科技部973、北京市科技計畫，以及英國EPSRC，日本JSPS與NEDO等縱向項目10項；承擔國家電網、神戶制鋼及日本JFE等企業課題4項。擔任過程冶金類國際刊物Metallurgical and Materials Transaction A/B、 Scientific Reports、Scripta Materialia等審稿專家，及英國Nature集團子刊Scientific Reports與國內刊物《金屬學報》英文版期刊編委。

1. 中組部“千人計畫”青年項目，2016年，鋼鐵冶金，在研，主持

2. 國家自然科學基金青年科學基金項目，51601011，電脈衝致老化的核電用不鏽鋼的再生機理研究，2017/01-2019/12, 在研，主持

3. 中央高校基本科研業務費，FRF-BD-16-007A，稀貴金屬元素提取分離關鍵技術研究與污水淨化關鍵技術研究，2017/01-2017/12, 在研，主持

4. 國家電網委託項目，39020436，浙江省環境下GIS筒體鋁材的選材分析及其性能最佳化，2016/06-2017/05, 在研，主持

5. 北京市科技計畫項目，Z161100002716018，汽車板和管線鋼品質提升技術研究及套用，2016/06-2017/06，在研，參與

6. 中央高校基本科研業務費，06500038，超潔淨鋼的綠色生產工藝研究，2016/04-2019/03, 在研，主持

7. 英國工程和物理科學研究委員會項目(EPSRC)，EP/J011460/1，A novel electropulse-based clean steel green processing method，2012/10-2015/10, 已結題，參與

8. 日本新能源產業技術開發機構項目(NEDO)，2012B1236，利用同步輻射技術研究TWIP鋼中的殘餘奧氏體，2012/01-2012/12, 已結題，參與

9. 日本學術振興會項目(JSPS)，2011B0426，長壽命關鍵部件的損傷原位觀察，2011/10-2012/10, 主持

10. JFE株式會社企業委託項目，2010B1886，開發船板用高強度低合金鋼，2010/03-2012/03, 已結題，參與

11. 神戶制鋼株式會社企業委託項目，2010B1436，開發船體用低溫韌性焊接金屬材料，2010/03-2011/03, 已結題，參與

12.日本學術振興會獎學金項目(JSPS)，2009年，微連線，已結題，主持

1) X.F. Zhang, R.S. Qin, Separation of electrically neutral non-metallic inclusions from molten steel by pulsed electric current, Materials Science and Technology, 2017.

2) X.F. Zhang, R.S. Qin, Controlled motion of electrically neutral microparticles by pulsed direct current, Scientific Reports, 5, 10162, 2015.

3) X.F. Zhang, R.S. Qin, Preparation of surface coatings on a conductive substrate by controlled motion of graphene nanoflakes in a liquid medium, Applied Surface Science, Vol. 329, pp. 276-280, 2015.

4) X.F. Zhang, W.J. Lu, R.S. Qin, Oriented sulphides induced by electric current in medium carbon steel, Philosophical Magazine Letters, Vol. 95, No. 2, pp. 101-109, 2015.

5) X.F. Zhang, R.S. Qin, Segregation of copper in an Fe-Cu alloy under pulsed electric current, Philosophical Magazine Letters, Vol. 95, No. 7, pp. 367-375, 2015.

6) W.J. Lu, X.F. Zhang, R.S. Qin, The structure and properties of κ-carbides in duplex lightweight steels,Ironmaking & Steelmaking: Processes, Products and Applications, Vol. 42, No. 8, pp. 626-631, 2015.

7) W.J. Lu, X.F. Zhang, R.S. Qin, Stability of precipitates under electropulsing in 316L stainless steel, Materials Science and Technology, Vol. 31, No. 13, pp. 1530-1535, 2015.

8) W.J. Lu, X.F. Zhang, R.S. Qin, κ-carbide hardening in a low-density high-Al high-Mn multiphase steel, Materials Letters, Vol.138, pp. 96-99, 2015.

9) X.F. Zhang, R.S. Qin, Electric current-driven migration of electrically neutral particles in liquids, Applied Physics Letters, Vol. 104, 114106, 2014.

10) X.F. Zhang, W.J. Lu, R.S. Qin, Morphology and distribution control of MnS inclusions in molten steel by electropulsing, Materials Research Innovations, Vol.18, Suppl. 4, pp. 244-248, 2014.

11) W.J. Lu, X.F. Zhang, R.S. Qin, Electropulsing-induced strengthening of steel at high temperature, Philosophical Magazine Letters, Vol. 94, pp. 688-695, 2014.

12) R.S. Qin, A. Rahnama, W.J. Lu, X.F. Zhang, B. Elliott-Bowman, Electropulsed steels, Materials Science and Technology, Vol. 30, No. 9, pp. 1040-1044, 2014.

13) X.F. Zhang, Y. Komizo, In situ investigation of the allotropic transformation in iron, Steel Research International, Vol. 84, No. 8, pp. 751-760, 2013.

14) X.F. Zhang, W.J. Lu, R.S. Qin, Removal of MnS inclusions in molten steel using electropulsing, Scripta Materialia, Vol. 69, pp. 453-456, 2013.

15) X.F. Zhang, Y. Komizo, Direct observation of thermal stability of M₂₃C₆ carbides during reheating using in situ synchrotron X-ray diffraction, Philosophical Magazine Letters, Vol. 93, No. 1, pp. 9-17, 2013.

16) X.F. Zhang, H. Terasaki, Y. Komizo, In situ observations of phase transformation during C-Mn-Al steel weld solidification,Materials Science and Technology, Vol. 29, No. 11, pp. 1363-1372, 2013.

17) X.F. Zhang, Y. Komizo,Visual analysis of solidification of δ–γ transformations in steels, Materials Science and Technology, Vol. 29, No. 5, pp. 631-635, 2013.

18) X.F. Zhang, H. Terasaki, Y. Komizo, In situ investigation of structure and stability of niobium carbonitrides in an austenitic heat-resistant steel, Scripta Materialia, Vol. 67, No. 2, pp. 201-204, 2012.

19) X.F. Zhang, H. Terasaki, Y. Komizo, Y. Murakami, K. Yasuda, In situ observation of high temperature creep behavior during annealing of steel, Metallurgical and Materials Transactions A, Vol. 43, No. 13, pp. 5067-5078, 2012.

20) X.F. Zhang, P. Han, H. Terasaki, M. Sato, Y. Komizo, Analysis investigation of prior austenite grain size dependence of low temperature toughness in steel weld metal, Journal of Materials Science & Technology, Vol. 28, No. 3, pp. 241-248, 2012.

21) X.F. Zhang, H. Terasaki, Y. Komizo, Correlation of delta-ferrite precipitation with austenite grain growth during annealing of steels, Philosophical Magazine Letters, Vol. 91, No. 7, pp. 491-497, 2011.

22) X.F. Zhang, H.Y. Liu, J.D. Guo, J.K. Shang, Inhibition of electromigration in eutectic SnBi solder interconnect by plastic prestraining, Journal of Materials Science & Technology, Vol. 27, No. 11, pp. 1072-1076, 2011.

23) X.F. Zhang, J.D. Guo, J.K. Shang, Current-induced interfacial reactions of Sn solder joint with electroplated FeNi/Cu substrate, Journal of Electronic Materials, Vol. 39, No. 3, pp. 333-337, 2010.

24) X.F. Zhang, J.D. Guo, J.K. Shang, Effects of electromigration on interfacial reactions in the Ni/Sn-Zn/Cu solder interconnect, Journal of Electronic Materials, Vol. 38, No. 3, pp. 425-429, 2009.

25) X.F. Zhang, J.D. Guo, J.K. Shang, Controlling intermetallic compound formation reaction between Sn and Ni-P by Zn addition, Journal of Alloys and Compounds, Vol. 479, No. 1-2, pp. 505-510, 2009.

26) X.F. Zhang, J.D. Guo, J.K. Shang, Growth kinetics of intermetallic compounds between Sn-9Zn solder and electroplated Fe-42Ni metallization, Journal of Alloys and Compounds, Vol. 487, No. 1-2, pp. 776-780, 2009.

27) X.F. Zhang, J.D. Guo, J.K. Shang, Reverse polarity effect from effective charge disparity during electromigration in eutectic Sn-Zn solder interconnect, Journal of Materials Research, Vol. 23, No. 12, pp. 3370-3378, 2008.

28) X.F. Zhang, J.D. Guo, J.K. Shang, Abnormal polarity effect of electromigraton on intermetallic compound formation in Sn-9Zn solder interconnect, Scripta Materialia, Vol. 57, No. 6, pp. 513-516, 2007.

1) ‘Hybrid system for in situ observation of microstructure evolution in steel materials’ in T Kannengiesser, S Babu, Y Komizo, and A Ramirez (eds.) (2014), In-situ Studies with Photons, Neutrons and Electrons Scattering II, Springer International Publishing, pp. 1-27, ISBN 978-3-319-06145-0.

（1）張新房，郭敬東，尚建庫；一種抑制焊料互連凸點電遷移失效的方法；發明專利；授權號：CN101728286B；2008年10月。
（2）H. Kan, M. Sato, Y. Komizo, X.F. Zhang, Bond flux for submerged arc welding, wire, welding metal and welding method, Japanese Patent, Patent Application No. 2012-002316, 10th January 2012.
（3）H. Kan, M. Sato, Y. Komizo, X.F. Zhang, Bonded flux and wire for submerged arc welding, Patent Application No. 2011-178650, 17th August 2011.
（4）祝清省，郭建軍，張新房，張磊，郭敬東，尚建庫；微電子封裝中焊料凸點連線金屬化層及套用；中國發明專利；申請號：200710157857.4, 2007年10月。

2007年榮獲國際電子封裝學會“最佳論文獎”

2009獲日本學術振興會博士後獎學金（JSPS Fellowship）

2010年獲中國科學院金屬研究所“師昌緒獎學金”

2012年獲國際焊接學會“最佳海報獎”

2016年入選中組部“青年千人計畫”

2016年入選“北京市優秀青年人才”

2016年獲北京科技大學“優秀人才”