海洋学院
通讯地址:
个人邮箱:wangs@just.edu.cn
邮政编码:
办公地点:梦溪校区综D408
传真:
王莎,女,博士,硕士生导师。
主要从事新原理超声压电换能器的探索研究以及大功率压电变压器的研究。在相关领域,以第一作者或通讯作者在IEEE TPE, IEEE TUFFC, Ultrasonics, JASA等刊物发表十余篇SCI论文;授权国家发明专利1项;主持国家自然科学基金1项、中央高校基金1项和横向项目1项,参与国家自然科学基金2项;2025年、2022-2023年以及2020-2021年全国声学大会专题论坛邀请报告;获中国声学学会博士学位激励计划,宝钢优秀学生奖,国家奖学金等;获第九届全国高等学校电子信息类专业青年教师全国三等奖、第一届江苏省高校电子信息类课程教学竞赛一等奖、江苏省第三届江苏省高校海洋类专业青年教师讲课竞赛一等奖、江苏科技大学第二十届与第二十一届课堂教学赛道一等奖;担任IEEE TIE,JDP等期刊审稿人;江苏省科技副总。
招收对功率超声、水声换能器以及物理声学等领域感兴趣的研究生和本科生,欢迎邮件联系(wangs@just.edu.cn)。
研究方向:
研究方向关键词:压电换能器;水声换能器;功能梯度材料;声子晶体;等效电路法;压电变压器
近年来已开展的主要课题:
功能梯度压电材料在超声压电换能器中的应用研究
声子晶体结构在超声压电换能器中的应用研究
大功率压电变压器的研究
球形以及圆柱形压电换能器的振动特性研究
夹心式压电换能器的振动特性研究
代表性论文、专著及专利:
[1] Xue Gu, Fengming Li, Yazhou Zhu*, Sha Wang*, Yanmin Guan, Kaihang Xue.Study on longitudinal-bending coupling in slotted cylindrical piezoelectric ultrasonic transducer, The Journal of the Acoustical Society of America, 158(5), 4187-4196.
[2] Kaihang Xue, Yazhou Zhu*, Sha Wang*, Chengcheng Zhang, Zhenming Bao, Ningyu Li, Finite element optimization and performance analysis of a multi-driven Tonpilz transducer, ACTA ACUSTICA, 2025, 9, 76.
[3] 王莎,单俊杰. 基于COMSOL Multiphysics App的高中物理实验教学实践[J]. 中学物理,2025,43(19):50-54.
[4] Xu Dan, Yazhou Zhu*, Sha Wang, Zhenming Bao, Ningyu Li. Metasurfaces with Embedded Rough Necks for Underwater Low-Frequency Sound Absorption, Appl. Sci. 2025, 15(17), 9306.
[5] Sha Wang, Junjie Shan. Study on Vibration Characteristics of Functionally Graded Material Composite Spherical Piezoelectric Transducer[J]. SENSORS, 2025,25(5), 1514.
[6] Sha Wang, Yazhou Zhu, Shuyu Lin*. Analysis of electromechanical equivalent circuit model for the functionally graded tubular piezoelectric transducer. J. Phys.: Conf. Ser. 2024, 2822, 012075.
[7] Sha Wang, Junjie Shan, Shuyu Lin*. Ultrasonic scalpel based on fusiform phononic crystal structure[J]. CHINESE PHYSICS B,2024, 33(10), 104302.
[8] Sha Wang, Junjie Shan, Hua Tian*, Shuyu Lin*. The high-power piezoelectric transformer with multiple outputs based on sandwiched piezoelectric transducers[J]. IEEE Transactions on Power Electronics, 2022, 37(8):8886-8894.
[9] Sha Wang, Junjie Shan, Shuyu Lin*. Radial vibration analysis for functionally graded ring piezoelectric transducers based on electromechanical equivalent circuit method[J]. Ultrasonics, 2022, 120:106640.
[10] Sha Wang, Cheng Chen, Liqing Hu, Shuyu Lin*. Spherical piezoelectric transducers of functionally graded materials[J]. The Journal of the Acoustical Society of America, 2022, 152(1): 193-200.
[11] Sha Wang, Shuyu Lin*. A novelly universal theory: toward accurately evaluating radial vibration characteristics for radially sandwiched spherical piezoelectric transducer[J]. Ultrasonics, 2021, 111:106299.
[12] Sha Wang, Shuyu Lin*. An exact and practical analyzing model for radial vibration of piezoelectric spherical transducers with arbitrary wall thickness[J]. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 2021, 68(3): 760-766.
[13] Sha Wang, Shuyu Lin*. Optimization on ultrasonic plastic welding systems based on two-dimensional phononic crystal[J]. Ultrasonics, 2019, 99:105954.
[14] 王莎,林书玉*. 基于二维声子晶体的大尺寸夹心式换能器的优化设计[J]. 物理学报, 2019, 68(2):024303.
[15] 王莎,林书玉*. 基于二维声子晶体结构的大尺寸超声塑料焊接系统[J]. 应用声发布学, 37(5): 811-816.
[16] 王莎,林书玉*. 晶格结构对基于声子晶体夹心式换能器的影响. 2018年全国声学大会论文集 D功率超声[C]. 北京,2018:309-310.
[17] Junjie Shan, Sha Wang, Fan Zhou, Jingyi Hu, Qingqing Liu, Shuyu Lin, Yanfeng Zhang*, Zhongfan Liu*. Designing new-generation piezoelectric transducers by embedding superior graphene-based thermal regulators[J]. Advanced Materials, 2021, 33(41): 2103141.
[18] Junjie Shan, Sha Wang, Fan Zhou, Lingzhi Cui, Yanfeng Zhang*, Zhongfan Liu*. Enhancing the heat-dissipation efficiency in ultrasonic transducers via embedding vertically-oriented graphene based porcelain radiators[J]. 2020, Nano Letters, 20(7): 5097-5105.
[19] Cheng Chen, Sha Wang, Hua Tian, Shuyu Lin*. Study on the bending vibration of bimorph rectangular transducer based on type 2-2 piezoelectric composites[J]. Ultrasonics, 2021, 117: 106546.
[20] LiQing Hu, Sha Wang, Shuyu Lin*. Analysis on vibration characteristics of large-size rectangular piezoelectric composite plate based on quasi-periodic phononic crystal structure [J]. Chinese Physics B, 2022, 31(5): 054302.
[21] Cheng Chen, Yilei Dong, Sha Wang, LiQing Hu, Shuyu Lin*. Multi-mode coupled vibration performance analysis of a radial-longitudinal (R-L) ultrasonic transducer [J]. The Journal of the Acoustical Society of America, 2022, 151(4): 2712-2722.
主持及参与项目:
国家自然科学基金青年基金项目“基于声子晶体结构超声手术刀的设计理论及负载特性研究”,30万元,主持;
中央高校基金“径向复合超声换能器的径向振动特性研究”,1.5万元,主持;
国家自然科学基金面上基金项目“具有声子晶体周期结构的大尺寸功率超声压电陶瓷 复合振动系统的研究”,61万元,参与;
国家自然科学基金面上基金项目“复合型功率超声CYMBAL换能器的研究”,64万元,参与。
研究方向关键词:压电换能器;水声换能器;功能梯度材料;声子晶体;等效电路法;压电变压器
近年来已开展的主要课题:
功能梯度压电材料在超声压电换能器中的应用研究
声子晶体结构在超声压电换能器中的应用研究
大功率压电变压器的研究
球形以及圆柱形压电换能器的振动特性研究
夹心式压电换能器的振动特性研究
国家自然科学基金青年基金项目“基于声子晶体结构超声手术刀的设计理论及负载特性研究”,30万元,主持;
中央高校基金“径向复合超声换能器的径向振动特性研究”,1.5万元,主持;
国家自然科学基金面上基金项目“具有声子晶体周期结构的大尺寸功率超声压电陶瓷 复合振动系统的研究”,61万元,参与;
国家自然科学基金面上基金项目“复合型功率超声CYMBAL换能器的研究”,64万元,参与。
[1] Xue Gu, Fengming Li, Yazhou Zhu*, Sha Wang*, Yanmin Guan, Kaihang Xue.Study on longitudinal-bending coupling in slotted cylindrical piezoelectric ultrasonic transducer, The Journal of the Acoustical Society of America, 158(5), 4187-4196.
[2] Kaihang Xue, Yazhou Zhu*, Sha Wang*, Chengcheng Zhang, Zhenming Bao, Ningyu Li, Finite element optimization and performance analysis of a multi-driven Tonpilz transducer, ACTA ACUSTICA, 2025, 9, 76.
[3] 王莎,单俊杰. 基于COMSOL Multiphysics App的高中物理实验教学实践[J]. 中学物理,2025,43(19):50-54.
[4] Xu Dan, Yazhou Zhu*, Sha Wang, Zhenming Bao, Ningyu Li. Metasurfaces with Embedded Rough Necks for Underwater Low-Frequency Sound Absorption,Appl. Sci. 2025, 15(17), 9306.
[5] Sha Wang, Junjie Shan. Study on Vibration Characteristics of Functionally Graded Material Composite Spherical Piezoelectric Transducer[J]. SENSORS, 2025,25(5), 1514.
[6] Sha Wang, Yazhou Zhu, Shuyu Lin*. Analysis of electromechanical equivalent circuit model for the functionally graded tubular piezoelectric transducer. J. Phys.: Conf. Ser. 2024, 2822, 012075.
[7] Sha Wang, Junjie Shan, Shuyu Lin*. Ultrasonic scalpel based on fusiform phononic crystal structure[J]. CHINESE PHYSICS B,2024, 33(10), 104302.
[8] Sha Wang, Junjie Shan, Hua Tian*, Shuyu Lin*. The high-power piezoelectric transformer with multiple outputs based on sandwiched piezoelectric transducers[J]. IEEE Transactions on Power Electronics, 2022, 37(8):8886-8894.
[9] Sha Wang, Junjie Shan, Shuyu Lin*. Radial vibration analysis for functionally graded ring piezoelectric transducers based on electromechanical equivalent circuit method[J]. Ultrasonics, 2022, 120:106640.
[10] Sha Wang, Cheng Chen, Liqing Hu, Shuyu Lin*. Spherical piezoelectric transducers of functionally graded materials[J]. The Journal of the Acoustical Society of America, 2022, 152(1): 193-200.
[11] Sha Wang, Shuyu Lin*. A novelly universal theory: toward accurately evaluating radial vibration characteristics for radially sandwiched spherical piezoelectric transducer[J]. Ultrasonics, 2021, 111:106299.
[12] Sha Wang, Shuyu Lin*. An exact and practical analyzing model for radial vibration of piezoelectric spherical transducers with arbitrary wall thickness[J]. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 2021, 68(3): 760-766.
[13] Sha Wang, Shuyu Lin*. Optimization on ultrasonic plastic welding systems based on two-dimensional phononic crystal[J]. Ultrasonics, 2019, 99:105954.
[14] 王莎,林书玉*. 基于二维声子晶体的大尺寸夹心式换能器的优化设计[J]. 物理学报, 2019, 68(2):024303.
[15] 王莎,林书玉*. 基于二维声子晶体结构的大尺寸超声塑料焊接系统[J]. 应用声发布学, 37(5): 811-816.
[16] 王莎,林书玉*. 晶格结构对基于声子晶体夹心式换能器的影响. 2018年全国声学大会论文集 D功率超声[C]. 北京,2018:309-310.
[17] Junjie Shan, Sha Wang, Fan Zhou, Jingyi Hu, Qingqing Liu, Shuyu Lin, Yanfeng Zhang*, Zhongfan Liu*. Designing new-generation piezoelectric transducers by embedding superior graphene-based thermal regulators[J]. Advanced Materials, 2021, 33(41): 2103141.
[18] Junjie Shan, Sha Wang, Fan Zhou, Lingzhi Cui, Yanfeng Zhang*, Zhongfan Liu*. Enhancing the heat-dissipation efficiency in ultrasonic transducers via embedding vertically-oriented graphene based porcelain radiators[J]. 2020, Nano Letters, 20(7): 5097-5105.
[19] Cheng Chen, Sha Wang, Hua Tian, Shuyu Lin*. Study on the bending vibration of bimorph rectangular transducer based on type 2-2 piezoelectric composites[J]. Ultrasonics, 2021, 117: 106546.
[20] LiQing Hu, Sha Wang, Shuyu Lin*. Analysis on vibration characteristics of large-size rectangular piezoelectric composite plate based on quasi-periodic phononic crystal structure [J]. Chinese Physics B, 2022, 31(5): 054302.
[21] Cheng Chen, Yilei Dong, Sha Wang, LiQing Hu, Shuyu Lin*. Multi-mode coupled vibration performance analysis of a radial-longitudinal (R-L) ultrasonic transducer [J]. The Journal of the Acoustical Society of America, 2022, 151(4): 2712-2722.
国家自然科学基金青年基金项目“基于声子晶体结构超声手术刀的设计理论及负载特性研究”,30万元,主持;
中央高校基金“径向复合超声换能器的径向振动特性研究”,1.5万元,主持;
国家自然科学基金面上基金项目“具有声子晶体周期结构的大尺寸功率超声压电陶瓷 复合振动系统的研究”,61万元,参与;
国家自然科学基金面上基金项目“复合型功率超声CYMBAL换能器的研究”,64万元,参与。
[1] Xue Gu, Fengming Li, Yazhou Zhu*, Sha Wang*, Yanmin Guan, Kaihang Xue.Study on longitudinal-bending coupling in slotted cylindrical piezoelectric ultrasonic transducer, The Journal of the Acoustical Society of America, 158(5), 4187-4196.
[2] Kaihang Xue, Yazhou Zhu*, Sha Wang*, Chengcheng Zhang, Zhenming Bao, Ningyu Li, Finite element optimization and performance analysis of a multi-driven Tonpilz transducer, ACTA ACUSTICA, 2025, 9, 76.
[3] 王莎,单俊杰. 基于COMSOL Multiphysics App的高中物理实验教学实践[J]. 中学物理,2025,43(19):50-54.
[4] Xu Dan, Yazhou Zhu*, Sha Wang, Zhenming Bao, Ningyu Li. Metasurfaces with Embedded Rough Necks for Underwater Low-Frequency Sound Absorption,Appl. Sci. 2025, 15(17), 9306.
[5] Sha Wang, Junjie Shan. Study on Vibration Characteristics of Functionally Graded Material Composite Spherical Piezoelectric Transducer[J]. SENSORS, 2025,25(5), 1514.
[6] Sha Wang, Yazhou Zhu, Shuyu Lin*. Analysis of electromechanical equivalent circuit model for the functionally graded tubular piezoelectric transducer. J. Phys.: Conf. Ser. 2024, 2822, 012075.
[7] Sha Wang, Junjie Shan, Shuyu Lin*. Ultrasonic scalpel based on fusiform phononic crystal structure[J]. CHINESE PHYSICS B,2024, 33(10), 104302.
[8] Sha Wang, Junjie Shan, Hua Tian*, Shuyu Lin*. The high-power piezoelectric transformer with multiple outputs based on sandwiched piezoelectric transducers[J]. IEEE Transactions on Power Electronics, 2022, 37(8):8886-8894.
[9] Sha Wang, Junjie Shan, Shuyu Lin*. Radial vibration analysis for functionally graded ring piezoelectric transducers based on electromechanical equivalent circuit method[J]. Ultrasonics, 2022, 120:106640.
[10] Sha Wang, Cheng Chen, Liqing Hu, Shuyu Lin*. Spherical piezoelectric transducers of functionally graded materials[J]. The Journal of the Acoustical Society of America, 2022, 152(1): 193-200.
[11] Sha Wang, Shuyu Lin*. A novelly universal theory: toward accurately evaluating radial vibration characteristics for radially sandwiched spherical piezoelectric transducer[J]. Ultrasonics, 2021, 111:106299.
[12] Sha Wang, Shuyu Lin*. An exact and practical analyzing model for radial vibration of piezoelectric spherical transducers with arbitrary wall thickness[J]. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 2021, 68(3): 760-766.
[13] Sha Wang, Shuyu Lin*. Optimization on ultrasonic plastic welding systems based on two-dimensional phononic crystal[J]. Ultrasonics, 2019, 99:105954.
[14] 王莎,林书玉*. 基于二维声子晶体的大尺寸夹心式换能器的优化设计[J]. 物理学报, 2019, 68(2):024303.
[15] 王莎,林书玉*. 基于二维声子晶体结构的大尺寸超声塑料焊接系统[J]. 应用声发布学, 37(5): 811-816.
[16] 王莎,林书玉*. 晶格结构对基于声子晶体夹心式换能器的影响. 2018年全国声学大会论文集 D功率超声[C]. 北京,2018:309-310.
[17] Junjie Shan, Sha Wang, Fan Zhou, Jingyi Hu, Qingqing Liu, Shuyu Lin, Yanfeng Zhang*, Zhongfan Liu*. Designing new-generation piezoelectric transducers by embedding superior graphene-based thermal regulators[J]. Advanced Materials, 2021, 33(41): 2103141.
[18] Junjie Shan, Sha Wang, Fan Zhou, Lingzhi Cui, Yanfeng Zhang*, Zhongfan Liu*. Enhancing the heat-dissipation efficiency in ultrasonic transducers via embedding vertically-oriented graphene based porcelain radiators[J]. 2020, Nano Letters, 20(7): 5097-5105.
[19] Cheng Chen, Sha Wang, Hua Tian, Shuyu Lin*. Study on the bending vibration of bimorph rectangular transducer based on type 2-2 piezoelectric composites[J]. Ultrasonics, 2021, 117: 106546.
[20] LiQing Hu, Sha Wang, Shuyu Lin*. Analysis on vibration characteristics of large-size rectangular piezoelectric composite plate based on quasi-periodic phononic crystal structure [J]. Chinese Physics B, 2022, 31(5): 054302.
[21] Cheng Chen, Yilei Dong, Sha Wang, LiQing Hu, Shuyu Lin*. Multi-mode coupled vibration performance analysis of a radial-longitudinal (R-L) ultrasonic transducer [J]. The Journal of the Acoustical Society of America, 2022, 151(4): 2712-2722.
国家自然科学基金青年基金项目“基于声子晶体结构超声手术刀的设计理论及负载特性研究”,30万元,主持;
中央高校基金“径向复合超声换能器的径向振动特性研究”,1.5万元,主持;
国家自然科学基金面上基金项目“具有声子晶体周期结构的大尺寸功率超声压电陶瓷 复合振动系统的研究”,61万元,参与;
国家自然科学基金面上基金项目“复合型功率超声CYMBAL换能器的研究”,64万元,参与。
[1]林书玉,王莎.径向夹心式球形压电陶瓷复合超声换能器及换能方法,CN202010350982.2,2021-05-11.
[1] Xue Gu, Fengming Li, Yazhou Zhu*, Sha Wang*, Yanmin Guan, Kaihang Xue.Study on longitudinal-bending coupling in slotted cylindrical piezoelectric ultrasonic transducer, The Journal of the Acoustical Society of America, 158(5), 4187-4196.
[2] Kaihang Xue, Yazhou Zhu*, Sha Wang*, Chengcheng Zhang, Zhenming Bao, Ningyu Li, Finite element optimization and performance analysis of a multi-driven Tonpilz transducer, ACTA ACUSTICA, 2025, 9, 76.
[3] 王莎,单俊杰. 基于COMSOL Multiphysics App的高中物理实验教学实践[J]. 中学物理,2025,43(19):50-54.
[4] Xu Dan, Yazhou Zhu*, Sha Wang, Zhenming Bao, Ningyu Li. Metasurfaces with Embedded Rough Necks for Underwater Low-Frequency Sound Absorption,Appl. Sci. 2025, 15(17), 9306.
[5] Sha Wang, Junjie Shan. Study on Vibration Characteristics of Functionally Graded Material Composite Spherical Piezoelectric Transducer[J]. SENSORS, 2025,25(5), 1514.
[6] Sha Wang, Yazhou Zhu, Shuyu Lin*. Analysis of electromechanical equivalent circuit model for the functionally graded tubular piezoelectric transducer. J. Phys.: Conf. Ser. 2024, 2822, 012075.
[7] Sha Wang, Junjie Shan, Shuyu Lin*. Ultrasonic scalpel based on fusiform phononic crystal structure[J]. CHINESE PHYSICS B,2024, 33(10), 104302.
[8] Sha Wang, Junjie Shan, Hua Tian*, Shuyu Lin*. The high-power piezoelectric transformer with multiple outputs based on sandwiched piezoelectric transducers[J]. IEEE Transactions on Power Electronics, 2022, 37(8):8886-8894.
[9] Sha Wang, Junjie Shan, Shuyu Lin*. Radial vibration analysis for functionally graded ring piezoelectric transducers based on electromechanical equivalent circuit method[J]. Ultrasonics, 2022, 120:106640.
[10] Sha Wang, Cheng Chen, Liqing Hu, Shuyu Lin*. Spherical piezoelectric transducers of functionally graded materials[J]. The Journal of the Acoustical Society of America, 2022, 152(1): 193-200.
[11] Sha Wang, Shuyu Lin*. A novelly universal theory: toward accurately evaluating radial vibration characteristics for radially sandwiched spherical piezoelectric transducer[J]. Ultrasonics, 2021, 111:106299.
[12] Sha Wang, Shuyu Lin*. An exact and practical analyzing model for radial vibration of piezoelectric spherical transducers with arbitrary wall thickness[J]. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 2021, 68(3): 760-766.
[13] Sha Wang, Shuyu Lin*. Optimization on ultrasonic plastic welding systems based on two-dimensional phononic crystal[J]. Ultrasonics, 2019, 99:105954.
[14] 王莎,林书玉*. 基于二维声子晶体的大尺寸夹心式换能器的优化设计[J]. 物理学报, 2019, 68(2):024303.
[15] 王莎,林书玉*. 基于二维声子晶体结构的大尺寸超声塑料焊接系统[J]. 应用声发布学, 37(5): 811-816.
[16] 王莎,林书玉*. 晶格结构对基于声子晶体夹心式换能器的影响. 2018年全国声学大会论文集 D功率超声[C]. 北京,2018:309-310.
[17] Junjie Shan, Sha Wang, Fan Zhou, Jingyi Hu, Qingqing Liu, Shuyu Lin, Yanfeng Zhang*, Zhongfan Liu*. Designing new-generation piezoelectric transducers by embedding superior graphene-based thermal regulators[J]. Advanced Materials, 2021, 33(41): 2103141.
[18] Junjie Shan, Sha Wang, Fan Zhou, Lingzhi Cui, Yanfeng Zhang*, Zhongfan Liu*. Enhancing the heat-dissipation efficiency in ultrasonic transducers via embedding vertically-oriented graphene based porcelain radiators[J]. 2020, Nano Letters, 20(7): 5097-5105.
[19] Cheng Chen, Sha Wang, Hua Tian, Shuyu Lin*. Study on the bending vibration of bimorph rectangular transducer based on type 2-2 piezoelectric composites[J]. Ultrasonics, 2021, 117: 106546.
[20] LiQing Hu, Sha Wang, Shuyu Lin*. Analysis on vibration characteristics of large-size rectangular piezoelectric composite plate based on quasi-periodic phononic crystal structure [J]. Chinese Physics B, 2022, 31(5): 054302.
[21] Cheng Chen, Yilei Dong, Sha Wang, LiQing Hu, Shuyu Lin*. Multi-mode coupled vibration performance analysis of a radial-longitudinal (R-L) ultrasonic transducer [J]. The Journal of the Acoustical Society of America, 2022, 151(4): 2712-2722.
海洋声学基础
海洋声学传感系统设计
海洋声学实验
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