功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
24期
3540-3545
,共6页
力敏薄膜%阻抗%弹性后效%丁基橡胶
力敏薄膜%阻抗%彈性後效%丁基橡膠
력민박막%조항%탄성후효%정기상효
force-sensitive film%impedance%elastic aftereffect%IIR
以 Fe73.5 Cu1 Nb3 Si13.5 B9粉体为复合相,丁基橡胶为基体,制得粉体质量含量为80%、厚度为200μm的复合薄膜;采用 TH2816LCR 数字电桥测试频率1 kHz下薄膜的阻抗Z 随压应力σ的变化情况,用LYYL-500N高档型微机控制压力试验机对薄膜体系进行程序控制加载;薄膜体系采用电容方式连接。研究了复合薄膜在3种不同的压应力条件下连续加载/卸载的力敏特性。研究表明,复合薄膜在连续加载/卸载速度≤0.5 mm/min和保压加载/卸载条件下、测试频率1 kHz、压应力0.1~1.0 MPa 时,复合薄膜具有良好的力敏稳定性和灵敏性。随着应力σ增大,阻抗Z 呈非线性下降,SI%值为6%~23%,灵敏精度k=Z’(σ)值范围1.9~0.02,测试标准偏差稳定在0.02~0.01,薄膜对于<0.3 MPa 应力更加灵敏。增加测试频率可以提高薄膜体系的力敏灵敏度。在压应力0.2~1.0 MPa范围内,薄膜弹性后效现象显著,导致薄膜加载Z-σ曲线与卸载曲线不重合。
以 Fe73.5 Cu1 Nb3 Si13.5 B9粉體為複閤相,丁基橡膠為基體,製得粉體質量含量為80%、厚度為200μm的複閤薄膜;採用 TH2816LCR 數字電橋測試頻率1 kHz下薄膜的阻抗Z 隨壓應力σ的變化情況,用LYYL-500N高檔型微機控製壓力試驗機對薄膜體繫進行程序控製加載;薄膜體繫採用電容方式連接。研究瞭複閤薄膜在3種不同的壓應力條件下連續加載/卸載的力敏特性。研究錶明,複閤薄膜在連續加載/卸載速度≤0.5 mm/min和保壓加載/卸載條件下、測試頻率1 kHz、壓應力0.1~1.0 MPa 時,複閤薄膜具有良好的力敏穩定性和靈敏性。隨著應力σ增大,阻抗Z 呈非線性下降,SI%值為6%~23%,靈敏精度k=Z’(σ)值範圍1.9~0.02,測試標準偏差穩定在0.02~0.01,薄膜對于<0.3 MPa 應力更加靈敏。增加測試頻率可以提高薄膜體繫的力敏靈敏度。在壓應力0.2~1.0 MPa範圍內,薄膜彈性後效現象顯著,導緻薄膜加載Z-σ麯線與卸載麯線不重閤。
이 Fe73.5 Cu1 Nb3 Si13.5 B9분체위복합상,정기상효위기체,제득분체질량함량위80%、후도위200μm적복합박막;채용 TH2816LCR 수자전교측시빈솔1 kHz하박막적조항Z 수압응력σ적변화정황,용LYYL-500N고당형미궤공제압력시험궤대박막체계진행정서공제가재;박막체계채용전용방식련접。연구료복합박막재3충불동적압응력조건하련속가재/사재적력민특성。연구표명,복합박막재련속가재/사재속도≤0.5 mm/min화보압가재/사재조건하、측시빈솔1 kHz、압응력0.1~1.0 MPa 시,복합박막구유량호적력민은정성화령민성。수착응력σ증대,조항Z 정비선성하강,SI%치위6%~23%,령민정도k=Z’(σ)치범위1.9~0.02,측시표준편차은정재0.02~0.01,박막대우<0.3 MPa 응력경가령민。증가측시빈솔가이제고박막체계적력민령민도。재압응력0.2~1.0 MPa범위내,박막탄성후효현상현저,도치박막가재Z-σ곡선여사재곡선불중합。
The composite film was prepared by FeCuNbSiB powder as a compound phase and silicone rubber as a matrix phase.The content of powder was 80% and the thickness of film was 200μm.Impedance-Z and stress-σof film were tested by TH2816LCR digital bridge with frequency at 1 kHz.LYYL-500 N high-grade type mi-crocomputer control pressure testing machine was used to control loading.The film system was connected by capacitance way,the force-sensitive properties were studied when stress loading and unloading was continuous or retentive.The results show that when frequency at 1 kHz and stress between 0.2 and 1.0 MPa,the compos-ite film has an excellent force-sensitive stability and sensitivity in condition that the speed of continuous loading and offloading speed was lower than 0.5 mm/mim with loading and unloading retentively.The impedance was declining nonlinear with the stress increasing.The value of SI% was 6%-23%,and the value of sensitivity k ranges from 1.9-0.02,the standard deviation was stability between 0.02 and 0.01.The film was more sensitive increasing test frequency can improve the sensitivity of film.When stress was between 0.2 and 1.0 MPa,the e-lastic aftereffect phenomenon was obviously,which leads to the loading Z-σcurve and unloading was not coinci-dent.
