姓名：毛剑峰性别：男
职务：高校教师

技术职称：博士生导师、副研究员最高学位：工学博士
办公电话：0571-85290527

邮箱地址：jianfeng-mao@163.com
个人简介：
“全国“挑战杯”大学生课外学术科技作品竞赛‘一等奖’”；“全国科技竞赛优秀指导教师”；“浙江省“挑战杯”大学生课外学术科技作品竞赛‘特等奖’”“校优秀毕业设计指导教师”；“校优秀本科生导师”；“院优秀
科技工作者”，等。
主要研究方向：
方向一：机械结构完整性设计，新一代核电、太阳热电、超超临界火电、先进化工生产、航空发动机等领域关键高温部件的设计、制造、评估技术；
方向二：机器人中的机-电-液耦合技术，超高压柱塞泵技术，直流无刷电机及控制技术；方向三：机电系统中的测量技术，智能传感器技术；
教育经历：
(1) 2019-12至现在, 浙江工业大学, 机械工程学院, 副研究员； (2) 2014-9至2019-12, 浙江工业大学, 机械工程学院, 讲师；
(3)2010-9至2014-6, 上海交通大学, 动力工程及工程热物理, 博士；
(4) 2013-3至2013-9, 美国加州结构完整性（SI）研究院, 火电技术部, 访问学者（合作导师： Pete Riccardella；Tony Giannuzzi）；
(5) 2012-3至2013-2, 上海电气集团汽轮机厂, 研发部, 工程师；
(6) 2005-6至2007-9, 广汽集团长丰猎豹汽车, 研发部, 工程师；
主要科研项目：
(1) 国家自然科学基金委员会，面上项目，51975526，严苛事故环境条件下核电压力容器结构强度急降与失效机制的研究，2020-01至2023-12，在研，主持；
(2) 消防应急救援装备应急管理部，重点实验室开放课题，2020XFZB10，消防液压破拆装备用高压柱塞泵关键技术研究，2021-01至2022-12，在研，主持；
(3) 科技部，国家重点研发计划子课题，2018YFC0808800，严苛环境下典型承压类特种设备结构安全性评价及失效预防技术，2019-01至2021-12，在研，参与；
(4) 杭州众拓科技有限公司，重点横向项目，SH1020170122，BELTON工具产品设计，2017-02至2018-02，已结题，主持；
(5) 国家自然科学基金委员会，青年项目，51505425，700℃含镍耐热钢多轴蠕变孔洞长大失效机制和应用模型研究，2015-01至2018-12，已结题，主持；
(6) 浙江省自然科学基金委员会，青年项目，LQ15E050007，太阳热电蒸汽发生器的多轴蠕变-疲劳寿命分析，2015-01至2016-12，已结题，主持；

(7) 国家核电工程公司，重点横向项目，SH1020160361，国产SA-508 Gr.3 Cl.1钢高温拉伸试验，2015-01至2016-12，已结题，参与；
(8) 科技部，国家科技重大专项课题，2014ZX06002001，SA508 Gr.3 Cl.2;母材断裂韧性参数敏感性和疲劳裂纹扩展试验，2014-12至2016-12，已结题，参与；
(9) 中国广核集团，国家级科技计划项目，2014ZX06012003，压力容器内堆芯熔融物滞留IVR下RPV结构完整性评价，2014-12至2016-12，已结题，参与；
代表性论文、专利、论著：
[1]Jianfeng Mao, XiangyangLi，DashengWang，FengpingZhong，LijiaLuo，Shiyi Bao, Zhenyu Ding.
Experimental study on creep-fatigue behaviors of chinese P92 steel with consideration of several
important factors. International Journal of Fatigue, 2021,142:105900.(SCI:)
[2] Jianfeng Mao, Xiangyang Li, Shiyi Bao*, Renyue Ge, Ling Yan. The experimental and
numerical studies on multiaxial creep behavior of Inconel 783 at 700°C. International Journal of
Pressure Vessels and Piping,2019,173:133-146.(SCI: ID5QU)
[3] Jianfeng Mao, Xiangyang Li, Shiyi Bao*, Lijia Luo, Zhenyu Ding. Comparative study of the
geometric effects on fracture behaviors of side-grooved and plain-sided compact
tension specimens. Journal of Materials Engineering and Performance,
2019,28(10):6514-6524.(SCI: JH2KN)
[4] Shiyi Bao, Yunkai Liu, Jianfeng Mao*, Renyue Ge, Xiangyang Li. Numerical
and experimental investigation on limit load of elbow with local thinning area. International
Journal of Pressure Vessels and Piping,2019,172:414-422.(SCI:IB1VI)
[5] Jianfeng Mao, Yunkai Liu, Shiyi Bao*, Lijia Luo, Zhiming Lu, Zengliang Gao.
Structural integrity investigation for RPV with various cooling water levels under pressurized
melting pool. Mechanical Sciences, 2018,9(1):147-160. (SCI:FY3WK)
[6] Jianfeng Mao, Shiyi Bao, Zhiming Lu*, Lijia Luo, Zengliang Gao. The influence of crust layer on
RPV failure under pressurized core meltdown accident. ASME Journal of Nuclear Engineering and
Radiation Science,2018,4:041015-1(SCI: HK7YD)
[7] Jianfeng Mao, Xiangqing Li, Shiyi Bao*, Lijia Luo, Zengliang Gao. The influence of the crust
layer on RPV structural failure under severe accident condition. Nuclear Engineering and
Design,2017,316:63-74.(SCI:EU6AG)
[8] Jianfeng Mao, Linghui Hu, Shiyi Bao*, Lijia Luo, Zengliang Gao. Investigation on the RPV
structural behaviors caused by various cooling water levels under severe accident.
Engineering Failure Analysis,2017,79:274-284.(SCI:FA6FN)
[9] Jianfeng Mao, Jianwei Zhu, Shiyi Bao*, Lijia Luo, Zengliang Gao. Investigation on structural
behaviors of reactor pressure vessel with the effects of critical heat flux and
internal pressure. Journal of Pressure Vessel Technology-Transactions of the
ASME.2017,139(2):021206.(SCI: EN5JN)
[10] Jianwei Zhu, Jianfeng Mao*, Shiyi Bao, Lijia Luo, Zengliang Gao. Comparative study on
reactor pressure vessel failure behaviors with various geometric discontinuities under
severe accident. Journal of Pressure Vessel Technology- Transactions of the
ASME.2017,139(2): 021214.(SCI:EN5JN)
[11] Jianfeng Mao, Xiangqing Li, Shiyi Bao*, Zengliang Gao. Investigation on multilayer failure
mechanism of RPV with a high temperature gradient from core meltdown scenario. Nuclear
Engineering and Design,2016,310:39-47.(SCI:EG0QD)
[12] Jianfeng Mao, Jianwei Zhu, Shiyi Bao*, Lijia Luo, Zengliang Gao. Creep deformation and

damage behavior of reactor pressure vessel under core meltdown scenario. International Journal of
Pressure Vessels and Piping,2016,139-140:107-116. (SCI:DM2YT)
[13] Jianfeng Mao, Di Tang, Shiyi Bao*, Lijia Luo, Zengliang Gao. High temperature strength
and multiaxial fatigue life assessment of a tubesheet structure. Engineering Failure
Analysis, 2016,68:10-21.(SCI: DT9RL)
[14] Jianfeng Mao*, Shiyi Bao, Lijia Luo, Zengliang Gao. Effect of bolt clamping force
and constraint arrangement on structural strength of bolted joint. ASME Proceedings of
the 24th International Conference on Nuclear Engineering,2016, 1:V001T03A014.(SCI:BG2AS)
[15] Jianfeng Mao*, Shiyi Bao. Comparative studies on buckling behaviors of T joint and pipe by
varying geometric parameters and analysis methods. International Journal of
Mechanical Sciences,2015,90:113-121.(SCI:CA9VJ)
[16] Jianfeng Mao, Shiyi Bao*, Lijia Luo, Zengliang Gao. Comparative study on peak
stress multipliers for perforated flat plate with various loadings.
Mechanics Research Communications,2015,66:20-26.(SCI:CJ8SK)
[17] Jianfeng Mao*, Jianwei Zhu, Shiyi Bao, Lijia Luo, Zengliang Gao. Creep and Damage
Analysis of Reactor Pressure Vessel Considering Core Meltdown Scenario.
Procedia Engineering,2015,130:1148 -1161.(SCI:BE3KA)
[18] Jianfeng Mao, Weizhe Wang*, Junhui Zhang, Yingzheng Liu. Numerical investigation on the
dynamic behaviors of turbine valve disc-seat impact at low velocity. Journal of
Mechanical Science and Technology,2015,29(2):507-515.(SCI: CB1WT)
[19] Jianfeng Mao*, Weizhe Wang. Environmental fatigue analysis of a U seal in pressure vessel
under simulated LWR operation. Engineering Failure Analysis,2014 36:362-371.(SCI: AB2AA)
[20] Jianfeng Mao, Weizhe Wang*, Yingzheng Liu, Junhui Zhang. Comparative study of
flange-to-seal contact couplings with bolt relaxation under creep condition. Journal of Engineering
for Gas Turbines and Power-Transactions of the ASME.2014, 136(7): 072504.(SCI:AJ8FS)
[21] Jianfeng Mao, Weizhe Wang*, Yingzheng Liu, Junhui Zhang. Multiaxial creep- fatigue life
prediction on the rotor of a 1000mw supercritical steam turbine. Proceedings of ASME
Turbo Expo: Power for Land, Sea and Air, 2013, v7(A&B): 289-298.(SCI:BA4JO)
[22] Jianfeng Mao, Junhui Zhang, Weizhe Wang*. Creep-fatigue life prediction of stop &
regulating valves on the intermediate-pressure section of a 1000mw steam turbine, Proceedings of
ASME Turbo Expo 2013: Power for Land, Sea and Air. GT2013-94167, June 3-7, 2013, Texas, USA.
(SCI:BD5ZA)
[23] Jianfeng Mao, Weizhe Wang*，Yingzheng Liu. Experimental and theoretical investigation on the
sealing performance of the combined seals for reciprocating rod. Journal of Mechanical
Science and Technology, 2012,26(6):1765~1772.(SCI: 957NL)
专利成果：
(1)毛剑峰,等.严重事故工况下反应堆压力容器安全性测试系统,2018.06.01,中国,发明专利号ZL201610720893.6；
(2) 毛剑峰, 等. 飞机起落架缓冲器密封性能试验装置,2019.10.21, 中国, 发明专利号 ZL201610722745.8；
(3)毛剑峰,等.一种螺栓连接件变形及摩擦模拟试验装置,2017.09.26,中国,发明专利号 ZL201510020159.4；
(4) 包士毅, 高增梁, 毛剑峰. 一种反应堆压力容器IVR 条件下结构完整性试验平台,2017.07.07,中国,发明专利号ZL201510371631.9；

(5) 毛剑峰, 等. 一种U 型油压泵泵体的油路结构,2019.01.08, 中国, 发明专利号 ZL201710664974.3；
(6)毛剑峰,等.一种紧凑型多功能油路一体式泵体的油路结构,2019.03.08,中国,发明专利号ZL201710664959.9；
(7)毛剑峰,等.往复机械的高性能组合密封圈性能测试系统,2018.05.04,中国,发明专利号 ZL201610713471.6；
(8) 罗利佳, 包士毅, 毛剑峰, 等. 一种用于序列数据分割的有序模糊C 均值聚类方法,2019.10.29,中国,发明专利号ZL201510702441.0；
(9)毛剑峰,等.一种一体式高压柱塞油泵驱动的挤压器,2018.10.29,中国,发明专利号 CN201810024157.6；
(10) 毛剑峰, 等. 一种轻型钢筋速断器,2017.09.28, 中国, 发明号CN201710680129.5； (11)毛剑峰,等.一种液压顶扩器,2017.09.11,中国,发明专利号
CN201710431168.1；
(12)毛剑峰,等.一种一体式高压柱塞油泵驱动的挤压器,2018.12.19,中国,发明专利号CN 201810024157.6；
(13)柳云恺,包士毅,毛剑峰.一种管道压力测试装置及方法,2019.02.26,中国,发明专利号 CN201910142573.0；
奖励和荣誉（省部级及以上）：
(1)全国“挑战杯”大学生课外学术科技作品竞赛‘一等奖’； (2)全国科技竞赛优秀指导教师；
(3)浙江省“挑战杯”大学生课外学术科技作品竞赛‘特等奖’