导师姓名:刘丰禄
职位:讲师、工学博士、硕士研究生导师
导师简介:
1、学习工作经历:
2009.09-2013.07 中国矿业大学(北京)机械工程及自动化专业,本科;
2013.09-2016.07 北京林业大学机械设计及理论专业,学术型硕士研究生;
2016.09-2019.12 北京林业大学机械工程专业,博士研究生;
2017.09-2019.02 美国农业部林产品实验室,国家CSC公派博士联合培养;
2020.03-至今 william hill中文网任教
2、主讲课程:
本科生课程:《计算机辅助工程分析》、《工程力学E》;
3、研究方向和领域:
工程检测技术、竹材、木材无损检测与评价、应力波传播机理研究等;
4、科研项目:
[1]主持国家自然科学基金青年科学基金项目“基于双相饱和多孔介质的应力波在人工林活立木中传播特性研究”,2024-2026,30万;
[2]主持福建省自然科学基金青年科学基金项目“应力波在杉木苗木中传播机理及其材性原位无损检测与分级方法研究”,2022-2025,4万;
[3]主持福建省教育厅中青年教师教育科研项目“应力波在马尾松人工林活立木中传播机理研究”,2021-2022,2万;
[4]主持英国威廉希尔公司科技创新专项基金项目“应力波在马尾松人工林活立木中传播模拟研究”,2021-2022,1.5万;
[5]参与国家自然科学基金项目“应力波在人工林活立木中传播机理及波速转换模型的研究”,2014-2015,20万;
[6]参与国家林业局林业公益性行业科研专项项目“足尺人造板力学性能无损检测技术研究与示范”,2013-2016,200万。
5、发表论文:
[1] Liu Fenglu, Zhang Houjiang, Jiang Fang, Wang Xiping, Guan Cheng. Variations in Orthotropic Elastic Constants of Green Chinese Larch from Pith to Sapwood[J]. Forests, 2019, 10(5), 456. SCI.
[2] Liu Fenglu, Xu Pengfei, Zhang Houjiang, Guan Cheng, Feng Dan, Wang Xiping. Use of time-of-flight ultrasound to measure wave speed in poplar seedlings [J]. Forests, 2019, 10(8), 682. SCI.
[3] Liu Fenglu, Wang Xiping, Zhang Houjiang, Jiang Fang, Yu Wenhua, Liang Shanqing, Fu Feng. Acoustic guided waves in standing trees—part I. Numerical simulation[J]. Wood and Fiber Science, 2020, 52(1):1-21. SCI.
[4] Fenglu Liu, Houjiang Zhang, Xiping Wang, Fang Jiang. Acoustic wave propagation in standing trees─Part II. Effects of tree diameter and juvenile wood. Wood and Fiber Science, 2021, 53(2):95-108. SCI.
[5] Gong Yinchun, Liu Fenglu, Tian Zhaopeng, Wu Guofang, Ren Haiqing, Guan Cheng. Evaluation of mechanical properties of cross-laminated timber with different lay-ups using Japanese larch[J]. Journal of Renewable Materials, 2019, 7(10):941-956. SCI.
[6] Guan Cheng, Zhang Houjiang, Wang Xiping, Miao Hu, Zhou Lujing, Liu Fenglu. Experimental and theoretical modal analysis of full-sized wood composite panels supported on four nodes [J]. Materials, 2017, 10(6):683. SCI.
[7] Zhenbo Xin, Houjiang Zhang, Cheng Guan C, Dian Zhang, Fenglu Liu, Yongzhu Yu, Kailong Guo. Screening for internal defects of timber members based on impact evaluation method[J]. Construction and Building Materials, 2020, 263:120145. SCI.
[8] Xin Zhenbo, Guan Cheng, Zhang Houjiang, Yu Yongzhu, Liu Fenglu, Zhou Lujing, Shen Yinlan. Assessing the density and mechanical properties of ancient timber members based on the active infrared thermography[J]. Construction and Building Materials, 2021,304:124614. SCI.
[9] Xin Zhenbo, Zhang Houjiang, Guan Cheng, Liu Jinhao, Liu Fenglu, Gong Yingchun, Li Huan, Sheng Yinlan. Determining elastic constants of full-size cross laminated timber panel supported on four nodes using a vibration method[J]. Construction and Building Materials, 2022,323:126513. SCI.
[10] Xin Zhenbo, Ke Dongfang, Zhang Houjiang, Yu Yongzhu, Liu Fenglu. Non-destructive evaluating the density and mechanical properties of ancient timber members based on machine learning approach[J]. Construction and Building Materials, 2022,341:127855. SCI.
[11] Pengfei Xu, Zhang Houjiang, Xin Zhenbo, Liu Fenglu, Song Haiou, and Yuan Jiangyu. Determining ages of conifer trees with resistance microdrilling[J]. Canadian Journal of Forest Research, 2023.SCI
[12] Zhu Yue, Kan Jiangming, Liu Fenglu. A Research of Design, Lateral Stability and Simulation for a Chassis Running in Forest[J]. Croatian journal of forest engineering, 2022,43(2):271-286. SCI.
[13] 刘丰禄, 张厚江, 王喜平, 姜芳, 管成. 应力波在落叶松活立木中传播影响因素的数值模拟[J].农业机械学报, 2020, 51(2):203-212. EI.
[14] 刘丰禄, 姜芳, 王喜平, 张厚江, 刘兴凯. 应力波在落叶松活立木中的传播规律[J].南京林业大学学报(自然科学版), 2017, 41(03):133-139.
[15] 刘丰禄, 姜芳, 王喜平, 张厚江, 杨志慧. 应力波在落叶松活立木中传播二维模拟研究[J].西北林学院学报, 2016, 31(04):201-205.
[16] 刘丰禄, 姜芳, 张建中, 张厚江, 王喜平, 杨志慧. 落叶松生材12个弹性常数的试验研究[J].西北林学院学报, 2015, 30(06):227-231.
[17] 赵扬, 刘丰禄, 李国梁. 髓心、心材和边材的比例对应力波在活立木中传播影响数值模拟研究[J]. 福建农机, 2022(03):17-22+30.
[18] 孙晓楠, 岳小泉, 林睿睿, 刘丰禄. 基于Surfer软件的木横梁腐朽状态应力波无损检测技术[J]. 木材科学与技术, 2022,36(03):90-95.
7、专利:
[1]一种评价正交胶合木(CLT)胶合性能的无损检测方法--CN111141826A(发明专利)
8、联系方式:(联系电话)13121984811,(电子邮箱)liufenglu39@fafu.edu.cn
