[4]        Xiao-Dong Yang, You-Qi   Tang, Li-Qun Chen, C.W., Lim. Dynamic stability of axially   accelerating Timoshenko beam: Averaging method, European Journal of Mechanics   A-Solids, 2010, 29, 81-90. (SCI, EI)

[5]        Li-Qun Chen, You-Qi   Tang, C.W., Lim. Dynamic stability in parametric resonance of axially   accelerating viscoelastic Timoshenko beams, Journal of Sound and Vibration,   2010, 329, 547-565. (SCI, EI)

[6]        You-Qi Tang, Li-Qun Chen. Nonlinear free transverse vibrations of in-plane   moving plates: without and with internal resonances, Journal of Sound and   Vibration, 2011, 330: 110-126. (SCI, EI)

[7]        Li-Qun Chen, You-Qi   Tang. Combination and principal parametric resonances of axially   accelerating viscoelastic beams: Recognition of longitudinally varying   tensions. Journal of Sound and Vibration, 2011, 330: 5598-5614. (SCI, EI)

[8]        Biao Li, You-Qi Tang, Li-Qun Chen.   Nonlinear free transverse vibrations of axially moving Timoshenko beams with   two free ends, Science in China Series E: Technological Sciences, 2011, 54:   1966-1976. (SCI, EI)

[9]        Li-Qun Chen, You-Qi   Tang. Parametric stability of axially accelerating viscoelastic beams   with the recognition of longitudinally varying tensions, ASME Journal of   Vibration and Acoustics, 2012, 134: 011008. (SCI, EI)

[10]    You-Qi Tang, Li-Qun Chen. Parametric and internal resonances of in-plane   accelerating viscoelastic plates, Acta Mechanica, 2012, 223: 415-431. (SCI,   EI)

[11]    You-Qi Tang, Li-Qun Chen. Primary resonance in forced vibrations of in-plane   translating viscoelastic plates with 3:1 internal resonance, Nonlinear   Dynamics, 2012, 69: 159-172. (SCI, EI)

[12]    You-Qi Tang, Li-Qun Chen. Natural frequencies, modes and critical speeds of   in-plane moving plates, Advances in Vibration Engineering, 2012, 11(3): 229-244.   (SCI)

[13]    You-Qi Tang, Li-Qun Chen. Stability analysis and numerical confirmation in   parametric resonance of axially moving viscoelastic plates with time-dependent   speed, European Journal of Mechanics A-Solids, 2013, 37: 106-121. (SCI, EI)

[14]    You-Qi Tang, Li-Qun Chen, Hai-Juan Zhang, Shao-Pu Yang. Stability of axially   accelerating viscoelastic Timoshenko beams: recognition of longitudinally varying   tensions, Mechanism and Machine Theory, 2013, 62: 31-50. (SCI, EI)

[15]    Li-Qun Chen, You-Qi   Tang, Jean W. Zu. Nonlinear transverse vibration of axially   accelerating strings with exact internal resonances and longitudinally   varying tensions, Nonlinear Dynamics, 2014, 76: 1443-1468. (SCI, EI)

[16]    You-Qi Tang, Deng-Bo Zhang, Jia-Ming Gao. Parametric and internal resonance   of axially accelerating viscoelastic beams with the recognition of   longitudinally varying tensions, Nonlinear Dynamics, 2016, 83: 401-418. (SCI,   EI)

[17]    You-Qi Tang, Deng-Bo Zhang, Mo-Han Rui, Xin Wang, Di-Cheng Zhu. Dynamic   stability of axially accelerating viscoelastic plates with longitudinally   varying tensions, Applied Mathematics and Mechanics-English Edition, 2016, 37   (12): 1647-1668. (SCI, EI)

[18]    Hadi Arvin, You-Qi   Tang, Afshin Ahmadi Nadooshan. Dynamic stability in principal   parametric resonance of rotating beams: Method of multiple scales versus   differential quadrature method, International Journal of Non-Linear   Mechanics, 2016, 85: 118-125. (SCI, EI)

[19]    Hu Ding, You-Qi Tang, Li-Qun   Chen. Frequencies of transverse vibration of an axially moving viscoelastic   beam, Journal of Vibration and Control, 2017, 23 (20): 3504–3514. (SCI, EI)

[20]    You-Qi Tang, Deng-Bo Zhang, Jia-Ming Gao. Vibration characteristic analysis   and numerical confirmation of an axially moving plate with viscous damping,   Journal of Vibration and Control, 2017, 23: 731-743. (SCI, EI)

[21]    Deng-Bo Zhang, You-Qi   Tang, Li-Qun Chen. Irregular instability boundaries of axially   accelerating viscoelastic beams with 1:3 internal resonance,   International Journal of Mechanical Sciences, 2017, 133: 535-543. (SCI, EI)

[22]    You-Qi Tang, Er-Bao Luo, Xiao-Dong Yang. Complex modes and travelling waves   of axially moving Timoshenko beams, Applied Mathematics and Mechanics-English   Edition, 2018, 39(4): 597-608. (SCI, EI)

[23]    You-Qi Tang, Yuan-Xun Zhang, Xiao-Dong Yang. On Parametric Instability   Boundaries of Axially Moving Beams with Internal Resonance, Acta Mechanica   Solida Sinica, 2018, 31(4): 470-483. (SCI, EI)

[24]    Deng-Bo Zhang, You-Qi   Tang, Li-Qun Chen. Internal resonance in parametric vibrations of   axially accelerating viscoelastic plates, European Journal of Mechanics A-Solids,   2019, 75: 142-155. (SCI, EI)

[25]    You-Qi Tang, Zhao-Guang Ma. Nonlinear vibration of axially moving beams with   internal resonance, speed dependent tension and tension dependent speed,   Nonlinear Dynamics, 2019, 98: 2475-2490. (SCI, EI)

[26]    You-Qi Tang, Zhao-Guang Ma, Shuang Liu, Lan-Yi Zhang. Parametric Vibration   and Numerical Validation of Axially Moving Viscoelastic Beams with Internal   Resonance, Time and Spatial Dependent Tension and Tension Dependent Speed,   Journal of Vibration and Acoustics, 2019, 141: 061011. (SCI, EI)

[27]    Deng-Bo Zhang, You-Qi   Tang, Hu Ding, Li-Qun Chen. Parametric and internal resonance of a transporting   plate with a varying tension, Nonlinear Dynamics, 2019, 98: 2491-2508. (SCI,   EI) 7

[28]    Deng-Bo Zhang, You-Qi   Tang, Ru-Quan Liang, Liu Yang, Li-Qun Chen. Dynamic stability of an   axially transporting beam with two-frequency parametric excitation and internal   resonance, European Journal of Mechanics-ASolids, 2021, 85: 104084. (SCI, EI)18

[29]    You-Qi Tang, Yuan Zhou, Shuang Liu, Shan-Ying Jiang. Complex stability   boundaries of axially moving beams with interdependent speed and tension,   Applied Mathematical Modelling, 2021, 89: 208-224. (SCI, EI)

[30]    Ling Chen, You-Qi   Tang, Shuang Liu, Yuan Zhou, Xing-Guang Liu. Nonlinear phenomena in   axially moving beams with speed dependent tension and tension dependent speed,   International Journal of Bifurcation and Chaos, 2021, 31(3): 2150037. (SCI,   EI)

[31]    Shuang Liu, You-Qi   Tang, Ling Chen. Multi-scale analysis and Galerkin verification for   dynamic stability of axially translating viscoelastic Timoshenko beams,   Applied Mathematical Modelling, 2021, 93: 885-897. (SCI, EI)

[32]    Deng-Bo Zhang, You-Qi   Tang, Ru-Quan Liang, Yuan-Mei Song, Li-Qun Chen. Internal resonance   of axially transporting beams with two-frequency parametric excitation, Applied   Mathematics and Mechanics-English Edition, 2022, 43: 1805-1820. (SCI, EI)

[33]    You-Qi Tang, Yong-Heng Mao, Fan Yang. Modelling and dynamic of travelling   viscoelastic beams with an eccentric front end support, Journal of Vibration   Engineering & Technologies, 2023, 93: 885-897. (SCI, EI)

[34]    Xia Tan, You-Qi Tang. Free   vibration analysis of Timoshenko pipes with fixed boundary conditions   conveying high velocity fluid, Heliyon, 2023, 9: e14716. (SCI, EI)

[35]    Jun-Hao Wu, You-Qi   Tang, Ling Chen. Transverse and longitudinal coupled nonlinear   vibration of an axially moving Euler beam under variable tension, Journal of   Physics: Conference Series, 2022, 2215: 012026. (EI)

[36]    Bo Wang, You-Qi Tang. Research   on time delay feedback control of lateral vibration axially moving   viscoelastic beam, Journal of Physics: Conference Series, 2022, 2215: 012012.   (EI)

[37]    Yong-Heng Mao, You-Qi   Tang, Jun-Hao Wu. Research on free vibration characteristics of   axially moving functionally graded plates under the action of temperature   field, Journal of Physics: Conference Series, 2022, 2365: 012010. (EI)

[38]    Chang-Hao Yan, You-Qi   Tang, Bo Wang. Dynamic stability study of velocity time lag feedback   control of axially moving viscoelastic beams, Journal of Physics: Conference   Series, 2022, 2365: 012001. (EI)

[39]    胡超荣, 唐有绮, 丁虎, 陈立群. 轴向变速粘弹性Rayleigh梁参数共振稳定性, 应用力学学报, 2011, 3: 254-258.

[40]    张计光, 胡超荣, 唐有绮, 孟沥原. 轴向运动Timoshenko固支梁固有频率的数值仿真, 上海大学学报: 自然科学版, 2011, 17: 648-652.

[41]    杨晓东, 唐有绮. Timoshenko模型轴向运动梁的横向振动特性分析, 机械强度, 2008, 30(6), 903-906. (EI)

[42]    杨晓东, 唐有绮, 戈新生. 轴向运动Timoshenko梁固有频率的求解方法研究, 机械强度, 2009, 31(2), 208-210.

[43]    李彪, 唐有绮, 丁虎, 陈立群. 轴向运动黏弹性Timoshenko梁横向非线性强受迫振动, 振动与冲击, 2012, 31(13), 142-146. (EI)

[44]    唐有绮. 轴向变速黏弹性Timoshenko梁的非线性振动, 力学学报, 2013, 45(6), 965-973. (EI)

[45]    唐有绮, 陈立群. 面内平动黏弹性板非线性振动的内-外联合共振, 应用数学和力学, 2013, 34(5), 480-487.

[46]    唐有绮, 陈立群. 面内平动黏弹性板自由振动频率研究, 科技论文在线, 2013, 201301-563.

[47]    唐有绮, 陈立群. 内共振条件下面内平动黏弹性板的非线性受迫振动, 科技论文在线, 2013, 201301-757.

[48]    唐有绮, 陈立群. 混沌摆的建模和仿真, 力学与实践, 2014, 36, 493-496.

[49]    唐有绮, 高佳明. 轴向运动Timoshenko梁自由振动的数值分析, 上海应用技术大学学报, 2014, 14(3), 209-211.

[50]    唐有绮, 陈立群. 面内平动板横向振动研究进展, 固体力学学报,   2015, 36(2), 93-104.

[51]    唐有绮, 蒋扇英. 刚性直杆倾倒过程的动态分析, 力学与实践, 2018, 40(1), 83-86.

[52]    张登博, 唐有绮, 陈立群. 非齐次边界条件下轴向运动梁的非线性振动, 力学学报, 2019, 51(1), 218-227. (EI)

[53]    陈玲, 唐有绮. 时变张力作用下轴向运动梁的分岔与混沌, 力学学报, 2019, 51(4), 1180-1188. (EI)

[54]    高立名, 唐有绮. 一类材料力学超静定结构的优化分析, 力学与实践, 2019, 41(6), 703-704.

[55]    周远, 唐有绮, 刘星光. 黏弹性阻尼作用下轴向运动Timoshenko梁振动特性的研究, 力学学报, 2019, 51(6), 1897-1904. (EI)

[56]    刘星光, 唐有绮, 周远. 三种典型轴向运动结构的振动特性对比, 力学学报, 2020, 52(2):   522-532. (EI)

[57]    唐有绮. 致研究生新生起步高效科研生涯的几点建议, 教育教学论坛, 2020, 21: 329-330.

[58]    陈喜, 唐有绮, 柳爽. 磁场作用下轴向运动功能梯度Timoshenko 梁的振动特性, 振动工程学报, 2021,   34(6): 1161-1168. (EI)

[59]    唐有绮, 毛永恒, 柳爽. 浅谈研究生学术论文的写作方法, 当代教育实践与教学研究,   2023, 01: 240-242.

[60]    柳爽, 唐有绮, 蒋扇英. 新形式下应用型本科基础力学课程与思政协同育人模式的探索, 大众科学, 2023, 26: 86.

[61]    谭霞, 唐有绮. 课程思政背景下基础力学教师育德意识和能力提升路径探讨, 大众科学, 2023, 22: 124.

[62]    陈晓轶, 蒋扇英, 柳爽, 唐有绮. 在线教学设计与实施：以工程流体力学课程为例, 创新教育研究, 2023, 11(10), 3150-3156.

国际会议文章8篇：

[1]        Li-Qun Chen, You-Qi   Tang. Natural frequencies and critical speeds of in-plane moving   rectangular plates, Seventh International Symposium on Vibrations of   Continuous Systems, Poland, 2009.

[2]        You-Qi Tang, Li-Qun Chen. Stability in parametric resonance of in-plane   accelerating viscoelastic plates, The Third International Conference on Dynamics,   Vibration and Control, Hangzhou, 2010.

[3]        You-Qi Tang, Li-Qun Chen. Nonlinear forced vibrations of in-plane translating   viscoelastic plates with 3:1 internal resonance, The 23rd International Congress   of Theoretical and Applied Mechanics, Beijing, 2012.

[4]        Li-Qun Chen, You-Qi   Tang. Steady-State Responses of Axially Accelerating Viscoelastic   Strings with the Account of Exact Internal Resonances, The 15th Asia Pacific   Vibration Conference, Korea, 2013.

[5]        You-Qi Tang. Parametric   and 3:1 internal resonance of axially accelerating viscoelastic beams with   the recognition of longitudinally varying tensions, The 4th International Conference   on Dynamics Vibration and Control, Shanghai, 2014.

[6]        You-Qi Tang, Deng-Bo Zhang, Er-Bao Luo. Parametric and internal resonance of   axially accelerating viscoelastic beams, The 24rd International Congress of   Theoretical and Applied Mechanics, Montréal, 2016.

[7]        You-Qi Tang, Zhao-Guang Ma, Shuang Liu, Lan-Yi Zhang. Nonlinear vibration of   axially moving beams with internal resonance, speed dependent tension and   tension dependent speed, The First International Nonlinear Dynamics   Conference, Rome, 2019.

[8]        Deng-Bo Zhang, You-Qi   Tang, Hu Ding, Li-Qun Chen. Parametric and internal resonance of a   transporting plate with a varying tension, The First International Nonlinear   Dynamics Conference, Rome, 2019.

国内会议文章17篇：

[1]        唐有绮, 杨晓东. Timoshenko模型轴向运动梁的振动特性分析, 中国力学学会学术大会, 北京, 2007.

[2]        唐有绮, 陈立群, 张利芳. 轴向变速运动Timoshenko梁非线性振动研究, 第十二届全国非线性振动暨第九届全国非线性动力学和运动稳定性学术会议,   镇江, 2009.

[3]        唐有绮, 陈立群. 不同边界条件面内运动板的横向振动分析, 第六届沪港力学及应用论坛, 上海, 2009.

[4]        Li-Qun Chen, You-Qi   Tang. Stability in parametric resonance of in-plane accelerating   viscoelastic plates, The fourth Young Scholars' Symposium on Dynamics and   Control, Dalian, 2009.

[5]        Li-Qun Chen, You-Qi   Tang. Nonlinear parametric vibration of in-plane accelerating   viscoelastic plates, The Symposium on Dynamical Systems and Vibration,   Taiwan, 2010.

[6]        唐有绮, 陈立群. 面内运动黏弹性板的非线性受迫振动, 第十三届全国非线性振动暨第十届全国非线性动力学和运动稳定性学术会议,   天津, 2011.

[7]        唐有绮, 陈立群. 轴向加速黏弹性Timoshenko梁的非线性振动：径向变化张力的影响, 第九届全国动力学与控制学术会议, 西安, 2012.

[8]        陈立群, 唐有绮. 径向张力变化对变速运动黏弹性梁横向振动的影响, 第六届全国动力学与控制青年学者学术研讨会, 上海, 2012.

[9]        唐有绮. 面内平动黏弹性板自由振动频率研究, 第三届海峡两岸动力学、振动与控制学术会议, 呼和浩特, 2013.

[10]    唐有绮, 张登博, 高佳明. 轴向运动黏弹性梁的参数共振和内共振分析, 第十五届全国非线性力学大会, 长沙, 2015.

[11]    张登博, 唐有绮, 高佳明. 两种粘性阻尼模型面内运动板的振动特性分析和数值验证, 第十五届全国非线性力学大会, 长沙, 2015.

[12]    张登博, 唐有绮, 高佳明. 两种粘性阻尼模型面内运动板的振动特性分析和数值验证, 第十五届全国非线性力学大会, 长沙, 2015.

[13]    唐有绮, 张登博. 3:1内共振条件下轴向变速弱耗散梁的非常规型的失稳边界, 第十六届全国非线性振动暨第十三届全国非线性动力学和运动稳定性学术会议,   杭州, 2017.

[14]    唐有绮. 轴向运动梁的参数振动：摄动张力和摄动轴速的关联性, 动力学与振动深圳论坛2019, 深圳, 2019.

[15]    陈玲, 唐有绮. 时变张力作用下轴向运动梁的分岔与混沌, 第十七届全国非线性振动暨第十四届全国非线性动力学和运动稳定性学术会议,   南京, 2019.

[16]    唐有绮. 基础力学课程群思政教育的实践与探索, 第五届力学通识教育教学研讨会, 上海, 2023.

[17]    唐有绮, 毛永恒, 柳爽. 偏心支承作用下轴向运动黏弹性梁的建模及其动力学研究, 全国非线性振动、非线性动力学与运动稳定性会议, 天津, 2023.

社会学术团体兼职

担任《应用技术学报》青年编委；国家自然科学基金委员会同行评阅专家；教育部学位中心评审专家；上海学位与研究生教育信息平台评审专家。九三学社应用技术大学支社副主委；上海市力学学会会员；上海市振动工程学会会员。

主要研究方向

高维柔性体的振动机理及其控制研究：来源于军工、新能源装备、航空航天等高新技术领域，研究复杂作用下高维柔性体振动机理、控制方法、减振技术等。

纤微机器人的设计、制造及其力学特性分析：聚焦肿瘤、心血管等重大疾病的亚毫米级微尺度手术机器人系统，开发完整的柔性针运动模型及控制算法，通过控制切深及水流参数完成对柔性针末端结构的精确控制。搭配计算机视觉进行闭环控制，使得柔性针具备自我调整行进轨迹的能力，进一步提高柔性针在组织间的避障能力与穿行可靠性。

近3年指导研究生的就业情况

近3年共指导研究生10人，两人参加工作。