JP7097564B2 - 圧電素子 - Google Patents
圧電素子 Download PDFInfo
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- JP7097564B2 JP7097564B2 JP2017198502A JP2017198502A JP7097564B2 JP 7097564 B2 JP7097564 B2 JP 7097564B2 JP 2017198502 A JP2017198502 A JP 2017198502A JP 2017198502 A JP2017198502 A JP 2017198502A JP 7097564 B2 JP7097564 B2 JP 7097564B2
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- polymer
- woven fabric
- laminated
- ceramic particles
- piezoelectric ceramic
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Description
圧電方式は発電素子として圧電素子を用いるものであり、材料の圧電特性を利用することから電磁誘導、静電誘導に比べて構造が単純であることに利点がある。圧電素子に求められる特性は高い発電性能、耐衝撃性等である。
無機圧電材料と有機圧電材料を複合化させることで、高い発電性能と、柔軟性、耐衝撃性を併せ持つ圧電素子を作製する試みもなされている。例えば特許文献1では、樹脂と圧電粒子とを有する圧電体層を積層した複合圧電素子が提案されており、2つの第1圧電体層の間に、この第1圧電体層よりも圧電粒子濃度が低い第2圧電体層が配置された構造である。第2圧電体層の圧電粒子濃度を低くすることにより、複合圧電素子の曲げ耐性を向上させている。また、特許文献2では、有機ポリマーを含むファイバーを用いて形成された不織布または織布を含み、かつ、無機フィラーを含む圧電性シートが開示されている。
非特許文献1では、ニオブ酸ナトリウムカリウム固溶体(以下、NKNという)粒子が配合されたポリビニルアルコール(以下、PVAという)樹脂組成物からなるシート層と、繊維化したPVDFからなる不織布にNKN粒子が保持されている不織布層と、を交互に積層し一体化した圧電素子が提案されている。この構造は多孔質の不織布層を有するため、特許文献1の構造よりさらに柔軟性が高いと考えられる。
上記高分子樹脂シートは、50~80体積%の圧電セラミックス粒子が配合されている1層の厚さが10~100μmのシートであり、上記高分子不織布は、この高分子不織布を構成する繊維の平均直径が0.05~5μmであり、30~60体積%の圧電セラミックス粒子が保持または配合されている1層の厚さが10~300μmの不織布であることを特徴とする。
本発明の圧電素子を構成する積層体は、上記高分子不織布が複数枚積層されているか、または、上記高分子不織布と上記高分子樹脂シートとが交互に積層されていることを特徴とする。特に、上記積層体の2つの主平面側がいずれも上記高分子樹脂シートであることを特徴とする。
本発明の圧電素子は、高分子不織布1層の2つの主平面側に高分子樹脂シートがそれぞれ1層ずつ積層された積層体より発生する発電量以上の発電量を実現できる積層体であるので、発電性能をより向上させ維持することができる。
図1(a)は、圧電セラミックス粒子が配合された高分子樹脂シート2と、圧電セラミックス粒子4が不織布5内に保持または配合された高分子不織布3とが交互に積層され、高分子樹脂シート2aおよび2bが積層体1aの表裏を形成している。高分子樹脂シート2の積層枚数をn、高分子不織布3の積層枚数をmとした場合、積層体1aにおける枚数の関係式としては、n=m+1となる。また、最小構造の積層体はnが2枚で、mが1枚であり、これが最小構造の積層体となる。
高分子樹脂シート2は、PVA樹脂中に平均粒子径1μmのNKN粒子が50体積%配合され、1枚の厚さが40μmのシートを準備した。
高分子不織布3は、平均粒子径1μmのNKN粒子が50体積%配合されたPVDFスラリーを用いて電界紡糸法により作製した、1枚の厚さが40μmの不織布である。高分子不織布3の繊維の平均直径は0.05、0.5、5μmの3水準を準備した。
図2は積層体1aおよび積層体1bの分極方法の一例を示した模式図である。アースされた試料台6上に積層体1を置き、積層体1の上面から垂直方向に3mmの距離に設置した針状電極7によって直流電界を印加して生じるコロナ放電によって分極処理をして圧電素子を作製した。処理条件は室温にて、電圧20kV、処理時間10分間とした。
また、圧電素子Aは圧電素子Bよりも引張試験における引張応力および歪が大きくなった。この結果、圧電素子Aが好ましい構造である。
本発明は、この最適値の両側一定範囲を特定するもので、上記最小単位の積層体1より発生する発電量以上の発電量を実現できる積層体とする。具体的には、圧電素子Aの場合は、2-1構造、3-2構造、4-3構造、5-4構造、6-5構造、および7-6構造であり、好ましくは2-1構造、3-2構造、4-3構造、5-4構造、および6-5構造であり、より好ましくは3-2構造、4-3構造、および5-4構造である。また、圧電素子Bの場合は、2-1構造、2-3構造、2-5構造、2-7構造、および2-9構造であり、好ましくは2-1構造、2-3構造、2-5構造、および2-7構造である。
また、本発明の圧電素子の分極方法は、上記一体化された圧電素子に直流電界を印加する工程を含むことが好ましい。具体的な分極方法として、大気中にてコロナ放電を用いる方法、100~200℃に加熱したシリコーンオイル中にて直流電界を印加する方法等が挙げられる。
圧電セラミックスとして用いたNKN粒子は、Na2CO3(純度99.9%)、K2CO3(純度99.9%)、Nb2O5(純度99.9%)を原料粉末とし、この原料粉末を十分に混合し、混合物を1098℃で2時間焼結した後、解砕することで平均粒子径1μmの粉末を作製した。この粉末を高分子バインダーであるポリウレタン溶液に分散させて、スプレードライヤー法により造粒粉を作製した。
2 高分子樹脂シート
3 高分子不織布
4 圧電セラミックス粒子
5 不織布
6 試料台
7 針状電極
8 銀ペースト
9 銅箔テープ
10 負荷抵抗
11 オシロスコープ
Claims (2)
- 圧電セラミックス粒子が保持または配合された高分子不織布と、圧電セラミックス粒子が配合された高分子樹脂シートとが交互に積層された積層体からなる圧電素子であって、
前記積層体の2つの主平面側がいずれも前記高分子樹脂シートであり、
前記積層体は、前記高分子樹脂シートの積層枚数をn、前記高分子不織布の積層枚数をmとして、n-m構造で表した場合、3-2構造、4-3構造、5-4構造、または6-5構造の積層体であり、
前記積層体は、前記高分子不織布1層の2つの主平面側に前記高分子樹脂シートがそれぞれ1層ずつ積層された積層体より発生する発電量以上の発電量を実現できる積層体であり、
前記高分子不織布は、この高分子不織布を構成する繊維の平均直径が0.05~5μmであり、30~60体積%の圧電セラミックス粒子が保持または配合されている1層の厚さが10~300μmの不織布であり、
前記高分子樹脂シートは、50~80体積%の圧電セラミックス粒子が配合されている1層の厚さが10~100μmのシートであることを特徴とする圧電素子。 - 圧電セラミックス粒子が保持または配合された高分子不織布と、圧電セラミックス粒子が配合された高分子樹脂シートとが積層された積層体からなる圧電素子であって、
前記高分子不織布が複数枚積層され、前記積層体の2つの主平面側がいずれも前記高分子樹脂シートであり、
前記積層体は、該積層体の表裏を形成している前記高分子樹脂シートの積層枚数を2、前記高分子不織布の積層枚数をmとして、2-m構造で表した場合、2-3構造、2-5構造、または2-7構造の積層体であり、
前記積層体は、前記高分子不織布1層の2つの主平面側に前記高分子樹脂シートがそれぞれ1層ずつ積層された積層体より発生する発電量以上の発電量を実現できる積層体であり、
前記高分子不織布は、この高分子不織布を構成する繊維の平均直径が0.05~5μmであり、30~60体積%の圧電セラミックス粒子が保持または配合されている1層の厚さが10~300μmの不織布であり、
前記高分子樹脂シートは、50~80体積%の圧電セラミックス粒子が配合されている1層の厚さが10~100μmのシートであることを特徴とする圧電素子。
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