贺良国

2018-10-23
姓 名贺良国

职 称副教授
职 务
所属系机械设计工程系
邮 箱helg@hfut.edu.cn,lguohe@163.com
电 话

0551-62901756

个人基本情况

贺良国,博士,副教授,硕士生导师。
迄今,作为主要研究人员完成了1项国家自然科学基金项目,作为项目负责人主持国家自然科学基金1项、安徽省自然基金1项、博士后面上基金1项;发表科研论文20余篇其中SCI/EI收录20余篇;第一发明人授权发明专利近10项。

教育背景
2013.09–2016.11  合肥工业大学  机械工程博士后流动站  博士后
2008.09–2013.06  中国科学技术大学  精密仪器及机械  硕博士
2001.09–2005.07  合肥工业大学  机械设计及其自动化系  学士
研究工作经历

2015.12–今  合肥工业大学 机械设计工程系  副教授
2013.07–2015.12  合肥工业大学 机械设计工程系  讲师
2005.07–2007.05,富士康科技集团  冲压磨具研发部  助理工程师

主要研究方向

基于压电智能材料的驱动器、传感器和换能器的设计、分析和优化及应用研究;智能医疗器械、机械产品研发。

开设课程
机械原理,机械设计基础

近年主持的项目

1. 超声软组织切割止血刀头研发(JK2020120901),企业合作项目,2020.12.09-2023.12.29.

2. 化纤倍捻用智能穿丝机(2020010041),企业合作项目,2020.03.16-2023.03.15

3. 基于自钳位的单谐波驱动谐振型惯性冲击压电马达研究(2008085ME154),安徽省自然科学基金面上项目,2020.07.01 – 2023.06.30.

4.基于机械波合成的谐振方波钳位式压电马达研究(51405127),国家自然科学基金,2015.01-2017.12.

5.利用谐振方波钳位提高压电马达效率的研究(2015M571921),中国博士后面上基金,2015.05-2016.09.

6.基于周期机械波合成的压电马达研究(2013HGBH0050),博士后专项基金,2014.06-2015.12.

7.新型同步箝位控制压电马达研究(JZ2014HGBZ0017),中央高校基本科研业务费,2013.09-2014.12


近年的专著与论文、专利、获奖

[1].Liangguo He,Zengxiang Shan, Xinyu Li, Kun Li, Haotian Dou, Xinfang Ge, Yuge Dong, and Hu Wang,Bidirectional motion characteristics of a singleharmonic-driven self-clamping linearpiezoelectric motor[J]. Review of Scientific Instruments,DOI:10.1063/5.0076407, (2022).

[2].Liangguo He, Guangjie Gao, Yan Kan, Sai Hao, Xinyu Li, Xinfang Ge, Jian Chen, and Weijie Chang, Resonant-type inertial impact piezoelectric motorbased on a cam locking mechanism [J]. Review of Scientific Instruments,DOI: 10.1063/5.0052900, (2021).

[3]. Liangguo He, Ziyang Cheng, Lei Xu, Xinyu Li, Xinfang Ge, Jian Chen and Jiang Han , Resonant-type inertia linear piezoelectric motor based on a synchronized switching stimulated by harmonic synthesized mechanical square wave [J]. Review of Scientific Instruments,DOI: 10.1063/5.0008580, (2020).
[4]. Liangguo He, Yong Zhang, Yong Wang, Xinyu Li, Jian Chen, Xiaoyong Zhao, Yuge Dong, and Xinfang Ge, Novel piezoelectric rotary motor on the basis of synchronized switching control [J], Review of Scientific Instruments, DOI: 10.1063/5.0013885, (2020)
[5]. Liangguo He, Sai Hao, Xiaoyong Zhao, Yuge Dong, Xinyu Li, Jian Chen and Yong Wanga) ,Resonant-type piezoelectric linear motor driven by harmonic synthesized mechanical square wave [J]. Review of Scientific Instruments,DOI: 10.1063/1.5110774, (2020).
[6]. Liangguo He, Yuheng Chu, Sai Hao, Xiaoyong Zhao, Yuge Dong, and Yong Wanga) ,Inertial piezoelectric linear motor driven by a single-phase harmonic wave with automatic clamping mechanism[J]. Review of Scientific Instruments, 89, 055008 (2018).
[7]. Q. L. Dai, R. Z. Zuo, Y. D. Xu, L. G. He, A novel temperature-stable Ba2-xCaxMgTi5O13 microwave dielectric ceramic[J]. Journal of the European Ceramic Society,2020, 40: 376-380
[8]. F. Y. Xiao; Y. Wang; L. G. He; H. Wang; W. H. Li; Z. S. Liu, Motion Estimation from Surface Electromyogram Using Adaboost Regression and Average Feature Values [J]. IEEE Access 2019, 7, 13121–13134.
[9].R.Z. Zuo, Y. D. Xu, M. Shi, L. G He, A new series of low-temperature cofirable Li3Ba2La3(1-x) Y3x(MoO4)8 microwave dielectric ceramics[J]. Journal of the European Ceramic Society, 2018:4677–4681.
[10]. Y. G. Dong Y, H. M. Zhang, L. G. He, C. Wang, M. H. Wang. The computation of standard normal distribution integral in any required precision based on reliability method [J]. Communications in Statistics - Theory and Methods, 2018:1-12.
[11]. F. S. Huang, Z. H. Feng, Y. T. Ma, Y. B. Liu, L. G. He. High-frequency performance for a spiral-shaped piezoelectric bimorph [J]. Modern Physics Letters B, 2018, 32(10):1850111.
[12]. L. G. He, Q. Zhang, C. L. Pan, B. Ju, and Z. H. Feng*, Piezoelectric motor based on synchronized switching control [J]. Sensors and Actuators A-Physical, 197: 53–61, 2013.
[13]. L. G. He, C. L. Pan, H. B. Wang, and Z. H. Feng*, Note: Arbitrary periodical mechanical vibrations can be realized in the resonant state based on multiple tuning fork structure [J]. Review of Scientific Instruments, 84(9): 096104, 2013.
[14]. L. G. He*, L. S. Zhang, and B. Ju, Measurement of Solid Materials’ Young’s Modulus by Piezoelectric Resonance and ANSYS Simulation Method, 2012 International Conference on Advanced Materials and Its Application, AMA2012, 460: 295-299, 2012.
[15].
贺良国,赵韩,朱立红,刘永斌,王勇*,谐振锯齿波驱动型冲击直线压电马达,振动工程学报,28(3): 456–461, 2015.
[16].
贺良国,刘永斌,张连生,琚斌,潘巧生,基于压电激振的弹性模量测量方法,振动与冲击,34(6): 1080–1083, 2014.
[17].
贺良国,刘永斌,张祺,张连生,潘巧生,新型同步箝位控制压电马达,振动与冲击,32(23): 26~32, 2013.
[18]. J. J, F. R. Kong, L. G. He, Q. C. Guan, and Z. H. Feng*, Piezoelectric wind-energy-harvesting device with reed and resonant cavity [J]. Japanese Journal of Applied Physics, 49(5R):050204, 2010.
[19]. Q. S. Pan, L. G. He, C. L. Pan, G. J. Xiao, and Z. H. Feng*, Resonant-type inertia linear motor based on the harmonic vibration synthesis of piezoelectric bending actuator [J]. Sensors and Actuators A-Physical, 209:169-174, 2014.
[20]. J. Yin*, L. G. He, and H. B. Wang, Weak signal detection system of static vector magnetometer based on LabVIEW [J]. Instrument Technique and Sensor, 6:93-95, 2011.
[21]. Q. S. Pan, L. G. He, F. S. Huang, X. Y. Wang, and Z. H. Feng*, Piezoelectric micropump using dual-frequency drive [J]. Sensors and Actuators A-Physical, 229:86-93, 2015.
[22]. Q. S. Pan, Y. B. Liu, L. G. He, C. L. Pan, and Z. S. Deng, Design of an ultrasonic horn with high amplitude of longitudinal vibration [J]. Journal of vibration and shock, 33(9), 1-5,2014.
[23].X. J. Lv, X. G. Gu, L. G. He, D. Y. Zhou, and W. G. Liu, Reliability design optimization of vehicle front-end structure for pedestrian lower extremity protection under multiple impact cases [J]. Thin-Walled Structures, 94:500–511, 2015.
[24].Q. S. Pan*, Y. B. Liu, Y. H. Liu, L. J. Gong, L. G. He, and Z. H. Feng* Design and fabrication of a large displacement piezoelectric actuator[C]//Piezoelectricity, Acoustic Waves, and Device Applications (SPAWDA), 2015 Symposium on. IEEE, 2015: 261-264.

[1] 贺良国、楚宇恒、王勇等,一种谐振型惯性冲击压电马达,中国发明专利,专利号:ZL201610761493.X,申请:2016.08.29,授权:2018.05.22.

[2] 贺良国、庞席德、董玉革等,一种谐振方波同步钳位压电直线马达,中国发明专利,专利号:ZL201710107697.6,申请:2017.02.27,授权:2018.09.07

[3] 贺良国、楚宇恒、王勇等,一种直线压电马达,中国发明专利,专利号:ZL201710493979.4,申请:2017.06.26,授权:2019.01.11

[4] 贺良国、楚宇恒、王勇等,一种压电马达,中国发明专利,专利号:ZL201711088360.1,申请:2017.11.08,授权:2019.03.26

[5] 贺良国、郝赛、赵小勇等,一种旋转压电马达,中国发明专利,专利号:ZL 201810288415.1,申请:2018.04.03,授权:2019.09.10

[6] 贺良国、徐磊、王勇等,一种惯性直线压电马达,中国发明专利,专利号:ZL201811049645.9,申请:2018.09.10,授权:2019.12.03

[7] 贺良国、程子阳、贺提曼等,一种谐振型惯性冲击式压电马达,中国发明专利,专利号:ZL 201910230949.3,申请:2019.03.26,授权:2019.12.03.

[8]贺良国、张勇、葛新方等,一种由合成方波驱动的直线压电马达,中国发明专利,专利号:ZL 201910230966.7,申请:2019.03.26,授权:2020.01.03

[9]贺良国、徐磊、李新宇等,一种惯性旋转压电马达,中国发明专利,专利号:ZL201910265851.1,申请:2019.04.03,授权:2020.03.27

[10] 贺良国、郝赛、王武等,一种旋转压电驱动器,中国发明专利,专利号:ZL201910721798.1,申请:2019.08.06,授权:2020.07.17

[11] 贺良国、高广杰、王武等,一种同步冲击压电马达,中国发明专利,专利号:ZL201911375792.X,申请:2019.12.27,授权:2020.12.29

[12] 贺良国、严毅、王武等,一种钳位控制的惯性冲击马达,中国发明专利,专利号:ZL202010041224.2,申请:2020.01.15,授权:2020.12.29

[13] 贺良国、程子阳、韩江、王武、葛新方、张勇、高广杰、严毅,一种锯齿波驱动的压电马达,中国发明专利,专利号:ZL 202010410573.7,申请:2020.05.15,授权:2021.03.12

[14] 贺良国、严毅、王勇等,一种基于悬臂梁结构的惯性冲击直线压电马达,中国发明专利,专利号:202010857159.0,申请:2020.08.24,授权:2021.08.24

[15] 贺良国、高广杰、韦邦暄等,一种下肢被动康复机构,中国发明专利,专利号:202010304769.8,申请:2020.04.17,,授权:2021.10.08




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