PIEZOELECTRIC BEHAVIOUR OF THE BLENDED SYSTEMS (NYLON 6/NYLON 11)

机译：混合系统的压电行为（尼龙6 /尼龙11）

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There is great importance for the study of combination of an engineering plastic polyamide and the best commodity product Nylon-6, which could lead to new blends with better piezoelectric properties. Keeping commercial approach in view Nylon 6 and Nylon 11 blends have been prepared. Compositions of two different proportions 90 :10 and 10:90 were developed.rnThe blended samples were poled using Corona discharge technique with poling field of 200 kV/cm and 350 kV/cm. The piezoelectric coefficients (d_(33)), as a function of temperature for blended samples were measured up to 100℃ with Piezometer. The study suggests that due to mixing of small quantity of Nylon 11 in the Nylon 6 (10:90) the piezoelectric response has improved considerably despite of the fact that Nylon 6 is not a piezoelectric material. The study indicates that even blending of small quantity (10%) of Nylon 11 in the (90%) Nylon 6 generates good piezoelectric response. The measured piezoelectric response of such compositions is almost equal to the pure Nylon 11.

机译：研究工程塑料聚酰胺和最好的商品尼龙6的结合非常重要，这可能会导致压电性能更好的新混合物。保持商业化前景已准备了尼龙6和尼龙11混合物。研制了两种不同比例的组成90:10和10:90。使用电晕放电技术将混合样品极化，极化场分别为200 kV / cm和350 kV / cm。压电系数（d_（33）），作为温度的函数，用于混合样品，使用Piezometer进行测量，直至100℃。研究表明，由于尼龙6（10:90）中混合了少量尼龙11，尽管尼龙6不是压电材料，但压电响应仍得到了显着改善。研究表明，即使将少量（10％）的尼龙11与（90％）尼龙6混合，也会产生良好的压电响应。测得的这种组合物的压电响应几乎等于纯尼龙11。

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来源
《Advances in electroceramic materials》|2008年|129-136|共8页
会议地点 Pittsburgh PA(US);Pittsburgh PA(US)
作者
S. A. Pande; D. S. Kelkar; D. R. Peshwe;
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作者单位

G.H. Raisoni College of Engineering, Nagpur-440 016, Maharashtra, India;

Dept. of Physics, Institute of Science, Nagpur-440 001, Maharashtra, India;

Material Engineering Centre, Visvesvaraya National Institute of Technology, Nagpur - 440 011, Maharashtra, India;

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正文语种 eng
中图分类绝缘材料、电介质及其制品;
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入库时间 2022-08-26 14:10:42

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1. Achieving efficient and large-scale preparation of mesophase-nylon 11 film by random copolymerization of nylon 11 and nylon 611 [J] . Lei Huang, Dandan Yuan, Yunyun Yang, RSC Advances . 2020,第65期

机译：通过尼龙11和尼龙611的随机共聚实现高效和大规模的中间蛋白-Nylon 11膜的制备
2. Diluent selection for Nylon 11 and Nylon 12 thermally induced phase separation systems [J] . Funk Caleb V., Koreltz Michael S., Billovits Gerald F. Journal of Applied Polymer Science . 2016,第13a14期

机译：尼龙11和尼龙12热诱导相分离系统的稀释剂选择
3. New polymers syntheses. 104. Synthesis of poly(ester-imide)s from nylon 6, nylon 11, or nylon 12 [J] . Li YS., Kricheldorf HR., Schwarz G. Journal of Polymer Science, Part A. Polymer Chemistry . 2000,第9期

机译：新的聚合物合成。 104.由尼龙6，尼龙11或尼龙12合成聚（酯酰亚胺）
4. PIEZOELECTRIC BEHAVIOUR OF THE BLENDED SYSTEMS (NYLON 6/NYLON 11) [C] . S. A. Pande, D. S. Kelkar, D. R. Peshwe Materials science and technology conference . 2009

机译：混纺系统的压电行为（尼龙6 /尼龙11）
5. Ferroelectricity and piezoelectricity in nylon 11 films with different draw ratios. [D] . Wu, Shiann-Long. 1997

机译：不同拉伸比的尼龙11薄膜的铁电性和压电性。
6. Novel Compatibilized Nylon-Based Ternary Blends withPolypropylene and Poly(lactic acid): Fractionated CrystallizationPhenomena and Mechanical Performance [O] . Andrew Anstey, Amandine Codou, Manjusri Misra, 2018

机译：新型相容的尼龙基三元共混物聚丙烯和聚乳酸：分步结晶现象与机械性能
7. Nylon-6/rubber blends: 7. Temperature-time effects in the impact behaviour of nylon/rubber blends [O] . Dijkstra, Krijn, Dijkstra, K., Wevers, H.H., 1994

机译：尼龙-6 /橡胶混合物：7.温度/时间对尼龙/橡胶混合物的冲击行为的影响
8. High Temperature Characteristics of Nylon-11 and Nylon-7 Piezoelectrics. [R] . Takase, Y., Lee, J. W., Scheinbeim, J. I., 1991

机译：尼龙-11和尼龙-7压电材料的高温特性。

PIEZOELECTRIC BEHAVIOUR OF THE BLENDED SYSTEMS (NYLON 6/NYLON 11)

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