English>>
首页 学院概况 机构设置 党群工作 师资建设 教学工作 学术科研 招生工作 学生工作 院长信箱 下载中心
师资概况
导师风采
师资队伍
人才引进
请输入关键词:
 
 姓名:王树奇  (博士生导师)
 职称: 教授
 地址:镇江市学府路301号
 Telephone:13921589766
 Fax:
 E-mail:shuqi_wang@ujs.edu.cn
  研究方向:
(一)金属磨损机理、高温氧化磨损
(二)耐磨钢及金属间化合物耐磨涂层
(二)精铸模具材料及制造技术
(三)热锻模失效分析及寿命提高
  教育经历:
1980-1984 大连理工大学机械系金属材料专业,获工学学士学位
1984-1987 哈尔滨工业大学材料科学与工程学院 金属热处理专业
获工学硕士学位
1993-1997 哈尔滨工业大学材料科学与工程学院 铸造专业 获工学博士学位
  教学经历:
(一)教学工作历程
1987—2000 吉林工业大学链传动研究所 实习研究员
1988—1996 吉林工业大学国家链条检测中心 助理研究员
1996—1997 吉林工业大学国家链条检测中心 副研究员
1997—1999 吉林工业大学材料科学与工程学院 副教授
1999—2000 吉林工业大学材料科学与工程学院 教授 (破格晋升)
2000—2001 加拿大Queen’s University 材料及冶金工程系 访问学者
2000—2002 吉林大学材料科学与工程学院 教授
2002—2004 江苏大学材料科学与工程学院 教授
2005—2010 江苏大学材料科学与工程学院 教授 钢铁冶金学科带头人
2004—至今 江苏大学材料科学与工程学院 教授 博士生导师

(二)主讲课程:
1997-2000 《特种铸造》本科生
1998-2000 《材料的相变与扩散》硕士生
2003-2005 《专业英语》本科生
2003-2017 《金属材料组织控制原理》本科生
2003-2014 《工程材料的形变与断裂》硕士生
2004-2006 《自蔓延高温合成技术与材料》硕士生
2004-2005 《梯度功能材料》硕士生
2003-2005 《高等材料热力学》博士生
2006-2013 《材料的热力学和动力学》博士生
2007-2017 《The Introduction of Materials Science》本科生(双语)
2007-2010 《材料科学与工程》硕士生
2007-2010 《金属学及热处理》本科生(合讲)
2009-2010 《科技创新与论文写作》本科生
2009-2010 《科技创新与论文写作》硕士生
(三)教材编写:
《金属材料学》化学工业出版社,2005.8 (参编)ISBN978-7-5025-7241-9
《材料科学研究方法》国防工业出版社,2004.8(参编)ISBN7-118-03535-1
《金属组织控制原理》化学工业出版社,2008.11(参编)ISBN978-7-122-03646-9

(四)教研项目
江苏大学842工程精品课程《金属材料组织控制原理》培育项目,负责人,2010-2012


(四) 研究生培养:
共培养博士生7人(毕业6人;在读12人),博士后1人
硕士生51人(在读8人;毕业43人),
工程硕士3人。
其中获校优秀硕士论文2篇、省优秀硕士论文1篇。
校优秀博士论文2篇、省优秀博士论文1篇
  项  目:
一. 在研项目
(1) 江苏省政策引导类计划(产学研合作)前瞻性联合研究项目“一种新型耐磨、耐蚀工程链条的研制与开发”,负责人,35万,2016-2018。
(2) 2013年江苏吴中区第二批创新创业领军人才计划项目“链条性能提升的基础研究,负责人, 90万,2014-2017。
(3) 横向课题:链条性能提升的基础研究,负责人,25万,2012-2017。
(4) 横向课题:钢件热浸镀铝耐磨、耐蚀涂层的开发研究,负责人,20万, 2015-2017。
(5) 横向课题:低速、重载传动用大规格链条的选材及热处理工艺开发,负责人,3万,2016-2018。
(6) 横向课题:HK30/EW52 摩擦副磨损行为和磨损机理的实验研究,负责人,40万,2017-2018。

二.已完成或鉴定项目
已完成或鉴定项目30余项,其中省部级以上代表性项目如下:
(1) 国家自然科学基金项目:钢的氧化磨损轻微-严重磨损转变和磨损机制, 2010-2013。
(2) 江苏省自然科学基金项目:钢表面耐热、耐磨冶金反应复合涂层的制备及性能, 2009-2011。
(3) 国家计委项目:新型铸造热锻模具钢新材料及近终形成型技术, 1999-2002。
(4) 国家教委归国留学人员科研启动基金:自蔓延内生陶瓷颗粒增强钢基梯度材料的形成机制, 2003-2006。
(5) 国家自然科学基金项目:变质铸造高碳高合金模具钢中碳化物粒化机理的研究, 1997-1999。
(6) 吉林省科委基础项目,新型铸造铬系高耐磨模具钢共晶碳化物粒化及性能研究, 1996-1998。
(7) 吉林省科委工业处项目:“以铸代锻”优质低耗少无加工热锻模具的研究, 1995-1997。
(8) 吉林省计委项目:以铸代锻优质热锻模材料及少无加工精铸热锻模技术攻关, 1990—1999。
(9) 国家自然科学基金项目:高速钢凝固过程中元素偏析与晶界脆化改善的研究, 1994—1996。
(10)吉林省科委工业处项目:新型高强度、高耐磨蠕铁刹车毂的研究, 1996—1999。
(11)国家自然科学基金项目:团球状共晶体奥-贝新型抗磨钢的组织形成机制与抗磨性, 1997—1999。
(12) 国家科委项目:轿车用新型系列压铸铝合金与铝合金强化技术及产品开发, 1997—1999。
  奖  项:
1. 1999.12省科技进步一等奖“高碳高合金钢碳化物团球化机理的研究”。
2. 1999.12省科技进步三等奖“含硼低合金高强韧马贝耐磨钢新工艺”。
3. 2009.2 江苏大学获特等奖和江苏省二等奖“材料类专业系列精品教材的建设”。
4. 2007.1 第八届中国石油和化学工业优秀教材奖一等奖“金属材料学”。
5. 2013.6. 获2008-1012年度江苏大学优秀博士生指导教师。
  学术组织和学术活动:
Mater.Lett., Mater. Sci. Eng. A, Tribol. Int., Mater.Des., J. Mater. Process. Technol., J. Mater. Perf., J. Eng. Tribol.,Apply Sur.Sci., Tribo.Lett.,等国际刊物审稿人。Journal of Iron & Steel Research, Inernaional,编委;国家自然科学基金项目评审人。
  论文专著专利:
(一)代表性论文:
2015-2017
1. Artificial oxide-contained tribo-layer and its effect of on wear of Ti-6Al-4V alloy, Tribol. Int., 105(2017)334-344 (通讯作者)(SCI, 2区)
2. Improvement of tribological performance of TC11 alloy via formation of a double-layer tribo-layer
containing graphene/Fe2O3 nanocomposite,Tribol. Int., 2017(in press) (通讯作者) (SCI, 2区)
3. Effect of Various Nanoparticles on Tribo-Layers and Wear Behavior of TC11 Alloy, Metallurgical and Materials Transactions A.2017 accepted (通讯作者)(SCI, 2区)
4. Relation among Tribo-layers and Wear Behavior during Dry Sliding of Fe-Al Hot-dipped Coating, Tribol.Trans., 2017 (in press) (通讯作者)(SCI, 3区)
5.Investigation on tribo-layers and their function of a titanium alloy during dry sliding. Tribology International 94 (2016) 541–549. (通讯作者)(SCI, 2区)
6. Relations of counterface hardness with wear behavior and tribo-oxide layer of AISI H13 steel. Metallurgical and Materials Transactions A.47(2016)4777-5258 (通讯作者)(SCI, 2区)
7.Wear behavior and mechanism of Fe-Al intermetallic coating prepared by hot-dip aluminizing and diffusion. Metallurgical and Materials Transactions A. 47(2016)2232-2242(通讯作者) (SCI,2区)
8. Accelerated formation of tribo-oxide layer and its effect on sliding wear of a titanium alloy, Tribol. Lett., 2016, 63(2):1-13 (通讯作者)(SCI, 2区)
9. Mild and severe wear of titanium alloys, Tribol.Lett., 2016, 61:1-14. (通讯作者)(SCI, 2区)
10. Wear Behavior and Mechanism of H13 Steel in Different Environmental Media, Journal of Mater. Eng. Perf. (2016)25:4134-4144 (通讯作者)(SCI,4区)
11. Comparative research on dry sliding wear of hot-dip aluminized and uncoated AISI H13 steel. Wear 344-345 (2015) 22–31. (通讯作者)(SCI,3区)
12. Relations of counterface materials with stability of tribo-oxide layer and wear behavior of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy, Tribol. Int., 2015.,91: 246-257 (通讯作者) (SCI,2区)
13.Investigation on wear characteristics of a titanium alloy/steel tribo-pair,Mater. Des.2015,65:65-73, (通讯作者) (SCI, 3区)
14.Variation of wear behavior of H13 steel sliding against different-hardness counterfaces, Proc IMechE Part J: J Engineering Tribology 2015, Vol. 229(6) 763–770 (通讯作者)(SCI, 4区)
15. Wear characteristics of a thermally oxidized and vacuum diffusion heat treated coating on Ti-6Al-4V alloy, Wear, 344-345(2015)9–21 (通讯作者)(SCI, 3区)
16. Wear characteristics of a thermally oxidized and vacuum diffusion heat treated coating on Ti-6Al-4V alloy, Wear, 344-345(2015)9–21 (通讯作者)(SCI, 3区)
17. Effects of sliding velocity on tribo-oxides and wear behavior of Ti–6Al–4V alloy, Tribol.Int., 91(2015)228–234 (通讯作者)(SCI, 2区)
18. Dry sliding wear characteristics of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy under various sliding speeds, Metall. Mater. Trans. A, 2015,46:4360-4368 (通讯作者)(SCI, 2区)

2013-2014
1. Tribo-layer and its role in dry sliding wear of Ti-6Al-4V alloy,Wear,2013, 297: 1032-1039 (通讯作者)(SCI)
2. Mild-to-severe wear transition and transition region of oxidative wear in steels, Wear, 2013, 306,311-320 (第一作者)(SCI)
3. Characteristics of oxidative wear and oxidative mild wear, Tribol. Int., 2013, 63: 214-223 (通讯作者)(SCI)
4. Severe-to-mild wear transition of titanium alloys as a function of temperature, Tribol. Lett. 2014, 53(3): 511-520. (通讯作者)(SCI)
5. Dry sliding wear behavior of Ti-6.5Al-3.5Mo-1.5Zr-0.3Si alloy. Metall. Mater. Trans,. 2014, 45(4):2284-2296 (通讯作者)(SCI)
6. Wear behavior and mechanism of spheroidal graphite cast iron, J. Iron and Steel Res. Int., 2013,20(10): 81-86 (通讯作者)(SCI)
7. Synthesis and evaluation of TiC/Al3Ti coating on iron via thermal explosion of Al-Ti-C system. J. Mater. Eng. Performance, 2014, 23(5):1845-1853 (通讯作者)(SCI)
8. Comparative study on hot-working die steels, Applied Mechanics and Materials, 2013, 331:559-562. (通讯作者)(EI)
9. Microstructure and erosion resistance of hot-dip-aluminized 3Cr13 steel, Advanced Materials Research, 2013,750-752:2008-2011 (通讯作者)(EI)
10. Comparative study of wear behavior of a selected titanium alloy and H13 steel as a function of temperature and load,Tribol. Trans., 2014,57: 838-845 (通讯作者)(SCI)

2011-2012
1. Comparative research on wear characteristics of spheroidal graphite cast iron and carbon steel, Wear,2012,274-275:84-93 (通讯作者)(SCI)
2.Wear characteristics of Ti-6Al-4V alloy at 20-400℃, Tribol. Trans. 2012,55(2):185-190.
(通讯作者)(SCI)
3.Selection of heat treatment process and wear mechanism of a high wear resistant cast hot-forging die steel. J. Iron and Steel Res. Int. 2012,19(5):58-62. (通讯作者)(SCI)
4.Relation of oxidative wear with Cr content of steels, Wear, 2011,272:110-121 (通讯作者)(SCI)
5. Wear behavior and mechanism of a Cr-Mo-V cast hot-working die steel, Metall. Mater. Trans. A., 2011,42(6):1646-1656 (通讯作者)(SCI)
6. Effects of the ambient temperature and load on the wear performances and mechanisms of H13 steel, Metall. Mater. Trans. A, 2011,42(10):3106-3114. (通讯作者)(SCI)
7. Effect of tempering condition on wear resistance in various wear mechanisms of H13 steel. Tribol. Int., 2011,44(7-8):898-905. (通讯作者)(SCI)
8. Analysis for wear behaviors of oxidative wear, Tribol. Lett. , 2011,42(1): 1-7.(通讯作者)(SCI)
9. Reaction synthesis and wear resistance of a TiCp/Ni3Al-Fe composite coating on steel. Int. J. Mater. Res , 2011,102(3 ): 298-303 . (通讯作者)(SCI)
10.Wear characteristics of H13 steel with various tempered states, J. Mater. Eng. Performance, 2011, 20(6):1055-1062 (通讯作者)(SCI)
11.Wear characteritics and mechanism of oxidative wear in 3Cr13 steel, Tribol. Trans. 2011 ,54(6):840- 848 (通讯作者)(SCI)
12.Effect of microstructures on elevated-temperature wear resistance of a hot working die steel. Journal of Iron and Steel Research International, 2011,18(10):47-53 (通讯作者)(SCI)
13.Dry wear behavior and mechanisms of AM60B alloy at 25-200 ℃, Transactions of nonferrous Metals Society of China, 2011,21:2584-2591 (通讯作者)(SCI)

2009-2010
1. Effects of the tribo-oxide and matrix on dry sliding wear characteristics and mechanisms of a cast steel, Wear,2010,269:424-434 (通讯作者)(SCI)
2. Transition of elevated temperature wear mechanisms and the oxidative delamination wear in hot-working die steels, Tribol. Int. 2010,43:577-584 (第一作者、通讯作者)(SCI)
3. Sliding wear characteristics of AZ91D alloy at ambient temperatures of 25-200 ℃,Tribology Letters, (2010) 38:39–45 (第一作者、通讯作者)(SCI)
4.Evaluation of wear characteristics of Al3Tip/Mg composite, Mater. Char. 2010,61 (5): 554-563
(通讯作者)(SCI)
5.A new delamination pattern in elevated-temperature oxidative wear, Journal of Materials Science 2010,44:227-232 (通讯作者)(SCI)
6.Characteristics of extrusive wear and transition of wear mechanisms in elevated temperature wear of a carbon steel, Tribology Trans. 2010, 53(6), 888 – 896 (通讯作者)(SCI)

7.Effect of morphology of oxide scale on oxidation wear in hot working die steels,Materials Science & Engineering A, 2009 505(1-2):20-26 (第一作者、通讯作者)(SCI)
8.Comparative research on the elevated-temperature wear resistance of a cast hot-working die steel,Materials & Design, 2009,30(9): 3608-3614 (通讯作者)(SCI)
9.A thermal explosion process to fabricate an intermetallic matrix composite coating on a steel, Materials & Design 2009,30(8): 3041-3047 (通讯作者)(SCI)
10.Oxidation and tribo-oxidation of an alloy steel H13 at elevated temperature,PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART J-JOURNAL OF ENGINEERING TRIBOLOGY,2009, 223(J6): 881-885 (通讯作者)(SCI)
11.In situ synthesis of heat resistant gradient composite on steel surface, Journal of Iron and Steel Research International, 2009,16(2):89-94 (通讯作者)(SCI)
12.Brittle fracture of hot-forging cast dies,Journal of Failure Analysis and Prevention, 2009,9(5):486 (第一作者、通讯作者)(EI)

2006-2008
1. A new-developed magnesium matrix composite by reactive sintering, Composites: Part A, 2008,39:1427-1432 (通讯作者)(SCI)
2. Research on oxidation wear mechanism of the cast steels, Wear, 2008, 265(3-4):468-476 (通讯作者)(SCI)
3. Formation of Al3Ti/Mg composite by powder metallurgy of Mg-Al-Ti system, Science and Technology of Advanced Materials,2008,3(9) (通讯作者)(SCI)
4. Effect of secondary carbides on oxidation wear of the Cr–Mo–V cast steels, Materials Letters, 2008, 62 (2008) 279–281, (第一作者、通讯作者)(SCI)
5. Transition of mild wear to severe wear in oxidative wear of H21 steel, Tribology Letters,2008,32(2):67-72 (第一作者、通讯作者)(SCI)
6. Alloying design for high wear resistant cast hot-forging die steels, Journal of Iron and Steel Research International, 2008,15(4):67-72 (通讯作者)(SCI)
7. TiC/Ni3Al coating on steel via combustion synthesis during casting, Materials Letters, 2007,61: 2531- 2534 (第一作者、通讯作者)(SCI)
8.A newly-developed high wear resistant cast hot-forging die steel, ISIJ International, 2007, 47(9): 1335-1340 (第一作者、通讯作者)(SCI)
9.Formation of stacking fault tetrahedra at twin lamellae in AISI 304 austenitic stainless steel by high current pulse electron beam irradiation, ISIJ Int., 2007,47(9):1375-1377(第二作者)(SCI)
10.Effect of alloying elements n thermal wear of cast hot-forging die steels, Journal of Iron and Steel Research International, 2006,13(5):53-59 (第一作者)(SCI)
11.Research on thermal wear of cast hot forging die steel modified by rare earths, Journal of Rare Earths, 2007, 25(1):88-92 (第二作者)(SCI)


2000以前
1.Influence of trace elements and heat treatment on carbide morphology and properties of CD-2 steel, Materials Science & Engineering A, 1999,264: 172-176 (第一作者)(SCI)
2.Cr12MoV Die Steel with Granular Carbide Modified by Re-Mg compound, Journal of Materials Science Letter,1995:20(15):256 (第一作者)(EI)
3.Effect of trace elements on eutectic carbide morphology during heat treatment, Journal of Materials Science Letter,1998,17:2017-2019 (第一作者)(SCI)
4.Effect of boron on carbide morphology of high Cr ledeburite steel, Journal of Materials Science and Technology,1999,15(3):286-288 (第一作者)(SCI)
5.Effect of RE on granulation of eutectic carbide in ledeburite steel, Journal of Rare Earths, 1998,16(4): 290-294 (第一作者)(SCI)
6.Effect of modification on carbide granulation and its mechanism, Acta Metallurgica Sinca, 1999, 12(2): 167-172 (第一作者)(EI)
7.Improvement of carbide morphology and mechanical properties of Cr12MoV steels, Acta Metallurgica Sinca,2000:13(5):1053-1058 (第二作者)(EI)


(二)专利
1. 国家发明专利: “TiC/Ni3Al金属间化合物基表面复合涂层的制备方法”专利号ZL200610038185.0。 (第一发明人)
2. 国家发明专利: “原位内生Al3Ti增强Mg基复合材料及制备”专利号ZL200710023304.X (第一发明人)
3. 国家发明专利: “TiC/Al3Ti/Fe表面复合涂层及制备” 专利号201110104730.2 (第一发明人)
4. 国家发明专利: 一种钢件表面高温耐磨涂层的制备方法,专利号:201310558378.9.。 (第二发明人)
5. 国家发明专利:一种用于链条零件的耐蚀表面处理方法,专利号:201310558410.3.(第一发明人)。
6. 国家发明专利:铸造热锻模具钢,专利号:CN02133244 (第四发明人)
7. 国家发明专利:一种钛合金表面固态原位复合减摩抗磨材料,专利申请号:201510444550.7.
(第一发明人)。
8. 国家发明专利:一种钛合金减摩抗磨用多层石墨烯/三氧化二铁复合材料及其制备方法,专利申请号:201611022633.8. (第一发明人)。
9. 国家发明专利:一种钛合金抗磨减摩用含氧化物自润滑纳米混合材料,专利申请号:
201611018013.7 (第一发明人)。


版权所有:江苏大学材料科学与工程学院 Copyright ©2013 material.ujs.edu.cn. All Rights Reserved
E-mail:clxyyb@ujs.edu.cn  [ 教师登录 ]