A novel embeddable spherical smart aggregate for structural health monitoring: part I. Fabrication and electrical characterization
Recently developed piezoceramic-based transducers, known as smart aggregates (SAs), have shown their applicability and versatility in various applications of structural health monitoring (SHM). The lead zirconate titanate (PZT) patches embedded inside SAs have different modes that are more suitable...
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| Published in | Smart materials and structures Vol. 26; no. 9; pp. 95050 - 95057 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
IOP Publishing
01.09.2017
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Recently developed piezoceramic-based transducers, known as smart aggregates (SAs), have shown their applicability and versatility in various applications of structural health monitoring (SHM). The lead zirconate titanate (PZT) patches embedded inside SAs have different modes that are more suitable for generating or receiving different types of stress waves (e.g. P and S waves, each of which has a unique role in SHM). However, due to the geometry of the 2D PZT patch, the embedded SA can only generate or receive the stress wave in a single direction and thus greatly limits its applications. This paper is the first of a series of two companion papers that introduces the authors' latest work in developing a novel, embeddable spherical smart aggregate (SSA) for the health monitoring of concrete structures. In addition to the 1D guided wave produced by SA, the SSA embedded in concrete structures can generate or receive omni-directional stress waves that can significantly improve the detection aperture and provide additional functionalities in SHM. In the first paper (Part I), the detailed fabrication procedures with the help of 3D printing technology and electrical characterization of the proposed SSA is presented. The natural frequencies of the SSA were experimentally obtained and further compared with the numerical results. In addition, the influence of the components' thickness (spherical piezoceramic shell and epoxy) and outer radius (spherical piezoceramic shell and protection concrete) on the natural frequencies of the SSA were analytically studied. The results will help elucidate the key parameters that determine the natural frequencies of the SSA. The natural frequencies of the SSA can thus be designed for suitability in the damage detection of concrete structures. In the second paper (Part II), further numerical and experimental verifications on the performance of the proposed SSA in concrete structures will be discussed. |
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| AbstractList | Recently developed piezoceramic-based transducers, known as smart aggregates (SAs), have shown their applicability and versatility in various applications of structural health monitoring (SHM). The lead zirconate titanate (PZT) patches embedded inside SAs have different modes that are more suitable for generating or receiving different types of stress waves (e.g. P and S waves, each of which has a unique role in SHM). However, due to the geometry of the 2D PZT patch, the embedded SA can only generate or receive the stress wave in a single direction and thus greatly limits its applications. This paper is the first of a series of two companion papers that introduces the authors' latest work in developing a novel, embeddable spherical smart aggregate (SSA) for the health monitoring of concrete structures. In addition to the 1D guided wave produced by SA, the SSA embedded in concrete structures can generate or receive omni-directional stress waves that can significantly improve the detection aperture and provide additional functionalities in SHM. In the first paper (Part I), the detailed fabrication procedures with the help of 3D printing technology and electrical characterization of the proposed SSA is presented. The natural frequencies of the SSA were experimentally obtained and further compared with the numerical results. In addition, the influence of the components' thickness (spherical piezoceramic shell and epoxy) and outer radius (spherical piezoceramic shell and protection concrete) on the natural frequencies of the SSA were analytically studied. The results will help elucidate the key parameters that determine the natural frequencies of the SSA. The natural frequencies of the SSA can thus be designed for suitability in the damage detection of concrete structures. In the second paper (Part II), further numerical and experimental verifications on the performance of the proposed SSA in concrete structures will be discussed. |
| Author | Song, Gangbing Kong, Qingzhao Fan, Shuli Mo, Y.L. Bai, Xiaolong |
| Author_xml | – sequence: 1 givenname: Qingzhao orcidid: 0000-0001-9577-4540 surname: Kong fullname: Kong, Qingzhao organization: University of Houston Department of Mechanical Engineering, Houston, TX 77204, United States of America – sequence: 2 givenname: Shuli surname: Fan fullname: Fan, Shuli organization: Dalian University of Technology State Key Laboratory of Coastal and Offshore Engineering, Dalian, Liaoning 116024, People's Republic of China – sequence: 3 givenname: Xiaolong surname: Bai fullname: Bai, Xiaolong organization: Department of Aerospace Engineering , Texas A&M University, TX 77843, United States of America – sequence: 4 givenname: Y.L. surname: Mo fullname: Mo, Y.L. organization: University of Houston Department of Civil and Environmental Engineering, Houston, TX 77204, United States of America – sequence: 5 givenname: Gangbing orcidid: 0000-0001-5135-5555 surname: Song fullname: Song, Gangbing email: gsong@central.uh.edu organization: University of Houston Department of Mechanical Engineering, Houston, TX 77204, United States of America |
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| Title | A novel embeddable spherical smart aggregate for structural health monitoring: part I. Fabrication and electrical characterization |
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