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张水强
张水强,男,博士,副教授,硕士生导师。现任湖州师范学院校团委副书记。主要从事光测实验力学、生物材料与仿生力学等方向的研究,在《Applied Mathematics and Mechanics》(TOP)、《Optics and Lasers in Engineering》、《Measurement》、《固体力学学报》等国内外期刊发表论文20余篇。主持浙江省自然科学基金(LQ20A020001)、湖州市重点公益项目(2021GZ07)等科研项目10余项。指导学生获浙江省挑战杯创业计划竞赛银奖1项、浙江省新苗人才计划1项。
研究方向:光测实验力学、生物材料与仿生力学
科研项目:
1. 螺旋桨材料和结构的光测力学测试技术研究(LQ20A020001),省自然科学基金/探索项目Q,2020.01—2022.12,项目负责人;
2. 汽车薄壁结构变强度设计方法与理论研究(LY20E050003),省自然科学基金/探索项目Y,2020.01—2022.12,在研,参加;
横向课题
1 腰椎T11-L5节段有限元建模关键技术开发,上海市东方医院,技术开发委托合同,2019年04月;
2 脊柱侧弯矫形关键技术开发,上海长海医院,技术开发委托合同,2019年06月;
3. 脊柱近端交界性后凸关键技术开发,上海长海医院,技术开发委托合同, 2019年07月;
4. 皮质骨轨迹螺钉动态固定关键技术开发,上海长海医院,技术开发委托合同,2019年07月;
5. 脊柱侧弯置钉策略技术开发,海军军医大学长海医院,技术开发委托合同,2019年11月;
6. 模拟步态周期中人体踝关节有限元立体模型及计算分析,上海华山医院,技术开发委托合同,2020年12月;
7. 基于有限元方法的接骨板四点弯选型分析,上海华山医院,技术开发委托合同,2021年05月;
8. 燃气涡轮叶片低循环疲劳寿命研究,浙江海骆航空科技有限公司,技术开发委托合同,2021年05月;
9. 不同姿势与腰椎骨盆节律下腰椎负荷的有限元分析,上海长海医院,技术服务合同,2022年01月;
10. LENKY-1型青少年特发性脊柱侧凸有限元仿真,上海长海医院,技术服务合同,2022.02。
发表论文:
[1] Shuiqiang Zhang, Shuangshuang Mao, Dwayne Arola, et al. Characterization of the strain-life fatigue properties of thin sheet metal using an optical extensometer. Optics and Lasers in Engineering, 2014, 60: 44-48.
[2] 张水强, 吴荣, 张东升. 薄钢板低周疲劳测试技术研究. 固体力学学报, 2017(05):90-97.
[3] Shuiqiang Zhang, Yichi Zhang, Ming Chen, et al. Characterization of mechanical properties of aluminum cast alloy at elevated temperature. Applied Mathematics and Mechanics, 2018.
[4] Wang S, Zhang SQ, Li XD, et al. Development of monocular video deflectometer based on inclination sensors. Smart structures and systems, 2019, 24(5): 607-616.
[5] Zhang SQ, Wang Z, Han Y, et al. Experimental and theoretical studies on thermo-mechanical fatigue test for aluminium cast alloy. Fatigue & Fracture of Engineering Materials & Structures, 2019(2).
[6] Zhang SQ, Li A, Zheng Y, et al. Mechanical analysis of C/C composite grids in ion optical system. Applied Mathematics and Mechanics, 2019(4–10): 1-12.
[7] Zhang Shuiqiang*, Liu Yuying, Shang Jiangyinzi, Md Khaled Ujjaman Chudry, Zheng Yuqing, Cai Jiabin, An Bingbing, Zhang Dongsheng. Enamel-inspired materials design achieving balance of high stiffness and large energy dissipation, Journal of the Mechanical Behavior of Biomedical Materials, 2020, 103.
[8] 吴荣, 刘依, 周建民, 张水强. 数字图像相关在旋转物体全场应变测量中的应用. 光学学报, 2020, v.40; No. 466(13): 110-117.
[9] Feng W, Zhang SQ, Liu H, et al. Unmanned aerial vehicle-aided stereo camera calibration for outdoor applications. Optical Engineering, 2020, 59(1): 1.
[10] Js, Li C, Sq Z, et al. Influence of high-heeled shoe parameters on biomechanical performance of young female adults during stair ascent motion. Gait & Posture, 2020, 81: 159-165.
[11] Yang D, Su Z, Zhang S, Zhang D. Real-time Matching Strategy for Rotary Objects using Digital Image Correlation. Applied Optics 2020, 59(22).
[12] Su Q, Li C, Li Y, Zhang S, et al. Analysis and improvement of the three-column spinal theory. BMC Musculoskeletal Disorders, 2020, 21(1).
[13] Zheng RZ, Xie J, Zhang SQ, et al. Log Odds of Positive Lymph Node- (LODDS-) Based Competing-Risk Nomogram for Predicting Prognosis of Resected Rectal Cancer: A Development and Validation Study. Gastroenterology Research and Practice, 2020, 2020:1-9.
[14] 潘济宇, 张水强, 苏志龙等. 基于数字图像相关的水下螺旋桨三维变形测量. 光学学报.
[15] Wei Y, Zhang S, Luo Y, et al. Accurate Depth Determination of Defects in Composite Materials using Pulsed Thermography. Composite Structures, 2021: 113846.
[16] Wu R, Zhao S, Liu Y, Zhang S*. Strain accuracy enhancement of stereo digital image correlation for objects deformation with large rotations. Meas Sci Technol 2021, 12.
[17] Su Z, J Pan, Zhang S, et al. Characterizing dynamic deformation of marine propeller blades with stroboscopic stereo digital image correlation. Mechanical Systems and Signal Processing, 2022, 162(10): 108072.
[18] Yang D, Zhang S, Wang S, et al. Real‐time illumination adjustment for video deflectometers. Structural Control and Health Monitoring, 2022, 1.
[19] Zhang T, Ye Y, Zhang S, et al. Accurate and fast speckle interferometry in severe illumination conditions. Optics and Lasers in Engineering, 2022, 7.
[20] Xu Z, Zhang S*, et al. Full-field phase shifting and stress quantification using a polarization camera. Measurement, 2022, 9.