关凯书

关凯书

Email: guankaishu@ecust.edu.cn

职位: 博士生导师

职称: 教授

 

 

 

 




个人简介:

       1962年12月生,黑龙江人,博士,博士生导师。 2000年6月于华东理工大学化工机械研究所获得博士学位(获上海市优秀毕业生),2002年9月于山东 大学材料科学与工程学院博士后出站。2002.10 威尼斯欢乐娱人成app任教。

       主持承担了国家自然科学基金项目、国家“十一五”、“十二五”科技攻关项目、国家质检总局公益性项目、失效分析与预防等项目。上海市特种设备事故应急专家,进年来完成了数百项石油化工设备失效分析案例,参加及主持了上海市组织的承压设备重大事故失效分析工作。Engineering Fracture Mechanics、Surface and Coatings Technology、Applied Surface Science国际期刊及多个国内核心期刊审稿人。获得二次上海市科技进步奖。

       在微试样测试方面参加小冲杆测试技术的国家标准制订研究、与欧盟小冲杆标准化技术工作组进行密切合作,双方教师及研究生进行多次互访交流标准的进展和制订工作。2012年有3名研究生在捷克钢铁研究院进行了2周的小冲干测试技术交流工作,2015年有3名研究生在捷克钢铁研究院和捷克奥斯特拉法工业大学进行了为期3个月的学术交流活动。目前国际微试样国际学术会议已经举办了三次,关凯书都出席了会议,介绍了中国及华东理工大学在微试样测试技术的进展。鉴于华东理工大学在微试样测试技术取得的成就,第四届国际微试样测试技术学术会议将于2016年10月在华东理工大学召开。
       石油化工设备的失效分析与预防可以更好地了解设备设计、制造及使用中存在的问题,建立了良好的校企合作关系,同时也为研究生提供了良好的实践平台。
       近年来与中石化合作开展了石化法兰接头的结构完整性研究工作。实验室搭建了法兰接头容器测试平台,针对基于泄漏率的法兰接头结构、材料选择以及安装规范进行了研究。

 

联系方法:

电话: 021-64253055 、13166213046

Email: guankaishu@ecust.edu.cn

 个人及国际学术会议网站  www.ssttchina.org 

研究方向

       从事苛刻条件下过程设备安全保障技术研究,包括高温、高压及腐蚀环境化工过程设备的安全技术,体现机械、材料、力学与化工工艺学科的交叉和融合。具体包括:
(1)    微试样测试技术评价在役设备的力学性能
(2)    极端环境设备的结构完整性评价,包括设备的失效分析与预防,  高温法兰接头的结构
(3)    纳米涂层。

承担科研项目

获奖成果

代表性著作

  1. Kaishu Guan,etal.Assessment of toughness in long term service CrMo low alloy steel by fracture toughness and small punch test. Nuclear Engineering and Design. 2011,241(5), 1407-1413(SCI/EI)

  2. Kaishu Guan, Qiangqi Wang. Analysis of failed electron beam welds in ethylene cracking tubes. Engineering Failure Analysis.2011,18(5):1366–1374(SCI/EI)

  3. Kaishu Guan. The relationship between photocatalytic activities, super-hydrophilicity and self-cleaning effect of TiO2-SiO2 films. Surface and Coatings Technology.2005,191(2-3):155-160) (SCI/EI)(被引用100次以上)

  4. Kaishu Guan, Baojun Lu ,Y.S. Yin. Enhanced effect and mechanism of SiO2 addition in super-hydrophilic property of TiO2 films. Surface and Coatings Technology.2003,173(2-3):219-223 (SCI/EI) (被引60多次)

  5. Kaishu Guan, Fubiao. Xu, Z.W. Wang, Hong Xu. Failure analysis for hot corrosion of weldment in ethylene cracking tubes. Engineering Failure Analysis.2005,12(1):1-12(SCI/EI)

  6. Kaishu Guan,Xinghua Zhang, Xuedong Gu, Longzhan Cai,HOng Xu Zhiwen Wang. Failure analysis for 304 stainless bellows expansion joint. Engineering Failure Analysis. 2005,12(3):387-399 (SCI/EI)

  7. Kaishu Guan, Hong Xu, Zhiwen Wang. Analysis of failed ethylene cracking tubes. Engineering Failure Analysis.2005, 12(3): 420-431 (SCI/EI)

  8. Kai-shu GUAN,Yan-sheng YIN Effect of rare earth addition on super- hydrophilic property of TiO2/SiO2 composite film. Material chemistry and Physics.2005,92(1): 10-15(SCI/EI)

  9. Kaishu Guan, etal. Cracks and precipitate phases of 321 stainless steel weld of flue gas pipe. Engineering Failure Analysis. 2005,12(4): 623-633(SCI/EI)

  10. Kaishu Guan, etal.Quantitative study of creep cavity area of HP40 furnace tubes. Nuclear Engineering and Design. 2005, 235/14 :1447-1456(SCI/EI)Kaishu Guan, etal.Effect of aging at 700 °C on precipitation and toughness of AISI 321 and AISI 347 austenitic stainless steel welds. Nuclear Engineering and Design. 2005,235(23):2485-2494(SCI/EI)

  11. lMing Song, Kaishu Guan. Failure analysis of a weld decayed austenitic stainless steel. Engineering failure analysis. 2011,18:1613-1618(SCI/EI)

  12. Song, M., Guan K.S., Wen Q., Jerzy A Szpunar. Comparison of mechanical properties in conventional and small punch tests of fractured anisotropic A350 alloy forging flange. Nuclear Engineering and Design, 2012(247): 58-65

  13. Bai Tao; Li Dong; Guan Kaishu. property variation and micro-structure evolution of 304L stainless steel subjected to surface mechanical rolling treatment  ACTA METALLURGICA SINICA: 2011,1459-1463 (SCI)

  14.  Tao Bai, Peng Chen, Kaishu Guan..Evaluation of stress corrosion cracking susceptibility of stainless steel 304L with surface nanocrystallization by small punch test. Materials Science and Engineering: A, A 561 (2013) 498–506(SCI/EI)

  15. Yifei Xu, Kaishu Guan Evaluation of fracture toughness by notched small punch tests with Weibull stress method. Materials & Design,2013(51): 605-611(SCI/EI)

  16. Kai-shu Guan, etal.Effect of microdefects on load-deflection of small punch test by experimental investigation and finite element analysis. International Journal of Pressure Vessels and Piping,2013(110):14-16(SCI/EI)

  17. Yifei Xu, Tong Xu, Kaishu Guan. Prediction of cleavage fracture in ferritic steels by small punch tests with a modified Weibull stress model. Engineering Fracture Mechanics. 2014, 124-125: 97-111(SCI/EI)

  18. Song, Ming,Guan, Kaishu,etal Size effect criteria on the small punch test for 316L austenitic stainless steel. Materials Science and EngineeringA,2014, 606: 346-353(SCI/EI)

  19. Xiangsai Feng, Tong Xu, Yanfeng Qin, Kaishu Guan. Determination of creep properties of P91 by small punch test. Materials at high temperatures. 2015,32(4): 355-362.(SCI)

  20. SB,Wu,KS Guan.Evaluation of tensile properties of 316L with linear hardening by modified indentation method. Material science and technology.2014,30(12):1404-1409(SCI)

  21. Ma K, Zhang Y, Zhang L,K Guan et al. Behavior of bolted joints with metal-to-metal contact type gaskets under bolting-up and loading conditions. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 2014(SCI)

  22. Ma K, Guan K, Cai R. Compression recovery performance of spring energized C-rings. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 2015 (SCI)

       化工设备失效原理与案例分析 华东理工大学出版社


网页发布时间: 2019-05-16