{"title":"能量收集传感器- PZT0,5M0,5(M:PVC, PP, PVDF)复合厚膜配备SiO2","authors":"I. Sabikoglu","doi":"10.1063/1.5135403","DOIUrl":null,"url":null,"abstract":"PZT (Lead zircon titanate) material has been used for many years because of its unique piezoelectric properties especially in conversion of electrical energy to mechanical energy and vice versa, and it is the most used material in this piezoelectric area. These kinds of piezoelectric materials, which can be produced as thin or thick film, have a wide range of uses in electronics such as; ultrasonic applications, in aircraft air-flames, structural health monitoring, and in energy harvesting as actuators or transducers, due to its large surface area and flexibility. In this study, composite thick films were produced with PZT piezoelectric material by using different polymers. In addition, synthesized in nano size the SiO2 (silicon dioxide) spheres were added to the films. PZT-5H (Navy Type VI) piezoelectric materials were made into film by melting method with the different polymers (Polyvinyl chloride - PVC, Polypropylene - PP, and Polyvinylidene fluoride - PVDF). The SiO2 spheres, which have about 120nm particle size, were added to this polymer PZT films at a rate of 1%. In present study, invert microscope images and scanning electron microscope (SEM) images of the films were obtained, in addition to this, the capacitance, dielectric constant, resonance and anti-resonance frequencies and effective efficiencies were calculated with a homemade system. It can be decided that the produced films can be used as low frequency actuators or transducer in energy harvesting system.PZT (Lead zircon titanate) material has been used for many years because of its unique piezoelectric properties especially in conversion of electrical energy to mechanical energy and vice versa, and it is the most used material in this piezoelectric area. These kinds of piezoelectric materials, which can be produced as thin or thick film, have a wide range of uses in electronics such as; ultrasonic applications, in aircraft air-flames, structural health monitoring, and in energy harvesting as actuators or transducers, due to its large surface area and flexibility. In this study, composite thick films were produced with PZT piezoelectric material by using different polymers. In addition, synthesized in nano size the SiO2 (silicon dioxide) spheres were added to the films. PZT-5H (Navy Type VI) piezoelectric materials were made into film by melting method with the different polymers (Polyvinyl chloride - PVC, Polypropylene - PP, and Polyvinylidene fluoride - PVDF). The SiO2 spheres, which have about 120nm pa...","PeriodicalId":233679,"journal":{"name":"TURKISH PHYSICAL SOCIETY 35TH INTERNATIONAL PHYSICS CONGRESS (TPS35)","volume":"124 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2019-11-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Energy harvesting sensor – PZT0,5M0,5(M:PVC, PP, PVDF) composite thick film equipped with SiO2\",\"authors\":\"I. Sabikoglu\",\"doi\":\"10.1063/1.5135403\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"PZT (Lead zircon titanate) material has been used for many years because of its unique piezoelectric properties especially in conversion of electrical energy to mechanical energy and vice versa, and it is the most used material in this piezoelectric area. These kinds of piezoelectric materials, which can be produced as thin or thick film, have a wide range of uses in electronics such as; ultrasonic applications, in aircraft air-flames, structural health monitoring, and in energy harvesting as actuators or transducers, due to its large surface area and flexibility. In this study, composite thick films were produced with PZT piezoelectric material by using different polymers. In addition, synthesized in nano size the SiO2 (silicon dioxide) spheres were added to the films. PZT-5H (Navy Type VI) piezoelectric materials were made into film by melting method with the different polymers (Polyvinyl chloride - PVC, Polypropylene - PP, and Polyvinylidene fluoride - PVDF). The SiO2 spheres, which have about 120nm particle size, were added to this polymer PZT films at a rate of 1%. In present study, invert microscope images and scanning electron microscope (SEM) images of the films were obtained, in addition to this, the capacitance, dielectric constant, resonance and anti-resonance frequencies and effective efficiencies were calculated with a homemade system. It can be decided that the produced films can be used as low frequency actuators or transducer in energy harvesting system.PZT (Lead zircon titanate) material has been used for many years because of its unique piezoelectric properties especially in conversion of electrical energy to mechanical energy and vice versa, and it is the most used material in this piezoelectric area. These kinds of piezoelectric materials, which can be produced as thin or thick film, have a wide range of uses in electronics such as; ultrasonic applications, in aircraft air-flames, structural health monitoring, and in energy harvesting as actuators or transducers, due to its large surface area and flexibility. In this study, composite thick films were produced with PZT piezoelectric material by using different polymers. In addition, synthesized in nano size the SiO2 (silicon dioxide) spheres were added to the films. PZT-5H (Navy Type VI) piezoelectric materials were made into film by melting method with the different polymers (Polyvinyl chloride - PVC, Polypropylene - PP, and Polyvinylidene fluoride - PVDF). 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引用次数: 0
摘要
PZT(锆钛酸铅)材料由于其独特的压电性能,特别是在电能与机械能之间的转换方面,已被广泛应用,是该压电领域应用最多的材料。这些类型的压电材料,可以生产成薄或厚的薄膜,在电子产品中有广泛的用途,如;超声波的应用,在飞机的空气火焰,结构健康监测,并在能量收集作为致动器或换能器,由于其大的表面积和灵活性。在本研究中,采用不同的聚合物制备了PZT压电材料的复合厚膜。此外,还合成了纳米级的二氧化硅(SiO2)球。以聚氯乙烯- PVC、聚丙烯- PP和聚偏氟乙烯- PVDF为原料,采用熔融法制备PZT-5H (Navy Type VI)压电材料。将粒径约为120nm的SiO2球以1%的速率加入到PZT聚合物薄膜中。本研究获得了薄膜的反相显微镜图像和扫描电镜(SEM)图像,并利用自制的系统计算了薄膜的电容、介电常数、共振频率和反共振频率以及有效效率。可以确定所制备的薄膜可以用作能量收集系统中的低频致动器或换能器。PZT(锆钛酸铅)材料由于其独特的压电性能,特别是在电能与机械能之间的转换方面,已被广泛应用,是该压电领域应用最多的材料。这些类型的压电材料,可以生产成薄或厚的薄膜,在电子产品中有广泛的用途,如;超声波的应用,在飞机的空气火焰,结构健康监测,并在能量收集作为致动器或换能器,由于其大的表面积和灵活性。在本研究中,采用不同的聚合物制备了PZT压电材料的复合厚膜。此外,还合成了纳米级的二氧化硅(SiO2)球。以聚氯乙烯- PVC、聚丙烯- PP和聚偏氟乙烯- PVDF为原料,采用熔融法制备PZT-5H (Navy Type VI)压电材料。二氧化硅微球的孔径约为120nm。
Energy harvesting sensor – PZT0,5M0,5(M:PVC, PP, PVDF) composite thick film equipped with SiO2
PZT (Lead zircon titanate) material has been used for many years because of its unique piezoelectric properties especially in conversion of electrical energy to mechanical energy and vice versa, and it is the most used material in this piezoelectric area. These kinds of piezoelectric materials, which can be produced as thin or thick film, have a wide range of uses in electronics such as; ultrasonic applications, in aircraft air-flames, structural health monitoring, and in energy harvesting as actuators or transducers, due to its large surface area and flexibility. In this study, composite thick films were produced with PZT piezoelectric material by using different polymers. In addition, synthesized in nano size the SiO2 (silicon dioxide) spheres were added to the films. PZT-5H (Navy Type VI) piezoelectric materials were made into film by melting method with the different polymers (Polyvinyl chloride - PVC, Polypropylene - PP, and Polyvinylidene fluoride - PVDF). The SiO2 spheres, which have about 120nm particle size, were added to this polymer PZT films at a rate of 1%. In present study, invert microscope images and scanning electron microscope (SEM) images of the films were obtained, in addition to this, the capacitance, dielectric constant, resonance and anti-resonance frequencies and effective efficiencies were calculated with a homemade system. It can be decided that the produced films can be used as low frequency actuators or transducer in energy harvesting system.PZT (Lead zircon titanate) material has been used for many years because of its unique piezoelectric properties especially in conversion of electrical energy to mechanical energy and vice versa, and it is the most used material in this piezoelectric area. These kinds of piezoelectric materials, which can be produced as thin or thick film, have a wide range of uses in electronics such as; ultrasonic applications, in aircraft air-flames, structural health monitoring, and in energy harvesting as actuators or transducers, due to its large surface area and flexibility. In this study, composite thick films were produced with PZT piezoelectric material by using different polymers. In addition, synthesized in nano size the SiO2 (silicon dioxide) spheres were added to the films. PZT-5H (Navy Type VI) piezoelectric materials were made into film by melting method with the different polymers (Polyvinyl chloride - PVC, Polypropylene - PP, and Polyvinylidene fluoride - PVDF). The SiO2 spheres, which have about 120nm pa...
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