Thermal energy harvesting by piezoelectric PVDF polymer coupled with shape memory alloy

Gusarov B.; Gusarova E.; Viala B.; Gimeno L.; Boisseau S.; Cugat O.; Vandelle E.; Louison B.

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Thermal energy harvesting by piezoelectric PVDF polymer coupled with shape memory alloy

机译：压电PVDF聚合物与形状记忆合金结合进行热能收集

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A novel flexible composite thermal energy harvester is presented, which couples pyroelectric and piezoelectric effects of polyvinylidene fluoride (PVDF) with shape memory effect of TiNiCu alloy. The harvester combines superior flexibility of PVDF with large temperature-induced strain of the shape memory alloy to harvest small and quasi-static temperature variations. The post-stamp size harvester (27.5 mm(3)) achieved an energy density of 0.41 mJ/cm(3) per event of temperature variation of 20 degrees C. When reaching 70 degrees C the harvester, consisting of a stack of four PVDF, powered a wireless node instantaneously without any storage unit. The use of PVDF quadruples the energy output, compared to previously reported PZT-based composites. (C) 2016 Elsevier B.V. All rights reserved.

机译：提出了一种新型的柔性复合热能收集器，它将聚偏二氟乙烯（PVDF）的热电和压电效应与TiNiCu合金的形状记忆效应相结合。该收割机将PVDF的出色柔韧性与形状记忆合金的大温度感应应变相结合，可收获较小且准静态的温度变化。印后尺寸收割机（27.5 mm（3））每次温度变化20摄氏度时，能量密度为0.41 mJ / cm（3）。当达到70摄氏度时，收割机由四个PVDF堆叠组成，无需任何存储单元即可立即为无线节点供电。与先前报道的基于PZT的复合材料相比，PVDF的使用使能量输出增加了三倍。（C）2016 Elsevier B.V.保留所有权利。

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《Sensors and Actuators, A. Physical》 |2016年第null期|共7页
作者
Gusarov B.; Gusarova E.; Viala B.; Gimeno L.; Boisseau S.; Cugat O.; Vandelle E.; Louison B.;
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正文语种 eng
中图分类 TP212.1;
关键词
Thermal energy harvesting; PVDF; Polyvinylidene fluoride; Shape memory alloy; TiNiCu;

机译：热能收集PVDF聚偏氟乙烯形状记忆合金TiNiCu;

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专利

1. Thermal energy harvesting by piezoelectric PVDF polymer coupled with shape memory alloy [J] . Gusarov B., Gusarova E., Viala B., Sensors and Actuators, A. Physical . 2016,第Null期

机译：压电PVDF聚合物与形状记忆合金结合进行热能收集
2. Analytical investigation of an energy harvesting shape memory alloy-piezoelectric beam [J] . Viet N. V., Zaki W., Umer R. Archive of Applied Mechanics . 2020,第12期

机译：能量收集形状记忆合金压电梁的分析研究
3. Airfoil-based piezoelectric energy harvesting by exploiting the pseudoelastic hysteresis of shape memory alloy springs [J] . de Sousa Vagner Candido, De Marqui Junior Carlos Smart Materials & Structures . 2015,第12期

机译：通过利用形状记忆合金弹簧的拟弹性滞后来收集基于翼型的压电能量
4. Flexible composite thermal energy harvester using piezoelectric PVDF polymer and shape memory alloy [C] . Gusarov B., Gimeno L., Gusarova E., International Conference on Solid-State Sensors, Actuators and Microsystems . 2015

机译：使用压电PVDF聚合物和形状记忆合金的柔性复合热能收集器
5. Polymeric PVDF Fibers for Piezoelectric Applications in Energy Harvesting [D] . Martinez, Misael E. 2019

机译：用于能量收集中压电应用的聚合物PVDF纤维
6. A Novel Arch-Shape Nanogenerator Based on Piezoelectric and Triboelectric Mechanism for Mechanical Energy Harvesting [O] . Chenyang Xue, Junyang Li, Qiang Zhang, 2015

机译：基于压电和摩擦机理的新型弧形纳米发电机用于机械能收集
7. Magnetic field-induced strain and magnetoelectric effects in sandwich composite of ferromagnetic shape memory Ni-Mn-Ga crystal and piezoelectric PVDF polymer [O] . Zeng, M, Or, DSW, Chan, HLW 2010

机译：铁磁形状记忆Ni-Mn-Ga晶体和压电PVDF聚合物夹层复合材料中的磁场感应应变和磁电效应
8. Design and Processing of Shape Memory Polymer (SMP)/Shape Memory Alloy (SMA) Composites [R] . Tamagawa, H. 2010

机译：形状记忆聚合物（smp）/形状记忆合金（sma）复合材料的设计与加工

Thermal energy harvesting by piezoelectric PVDF polymer coupled with shape memory alloy

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