大自然的设计能被改进吗？具有牺牲性交联双网络的高强度透明类珍珠层纳米复合材料。

Can nature's design be improved upon? High strength, transparent nacre-like nanocomposites with double network of sacrificial cross links.

作者信息

Podsiadlo Paul, Kaushik Amit K, Shim Bong Sup, Agarwal Ashish, Tang Zhiyong, Waas Anthony M, Arruda Ellen M, Kotov Nicholas A

机构信息

Department of Chemical Engineering, University of Michigan, Ann Arbor, Michigan 48109, USA.

出版信息

J Phys Chem B. 2008 Nov 20;112(46):14359-63. doi: 10.1021/jp801492n. Epub 2008 Jul 1.

DOI:10.1021/jp801492n

PMID:18590319

Abstract

The preparation of a high-strength and highly transparent nacre-like nanocomposite via layer-by-layer assembly technique from poly(vinyl alcohol) (PVA) and Na+-montmorillonite clay nanosheets is reported in this article. We show that a high density of weak bonding interactions between the polymer and the clay particles: hydrogen, dipole-induced dipole, and van der Waals undergoing break-reform deformations, can lead to high strength nanocomposites: sigmaUTS approximately 150 MPa and E' approximately 13 GPa. Further introduction of ionic bonds into the polymeric matrix creates a double network of sacrificial bonds which dramatically increases the mechanical properties: sigmaUTS approximately 320 MPa and E' approximately 60 GPa.

摘要

本文报道了通过层层组装技术由聚乙烯醇（PVA）和钠蒙脱石粘土纳米片制备高强度、高透明珍珠母状纳米复合材料的方法。我们表明，聚合物与粘土颗粒之间高密度的弱键相互作用：氢、偶极 - 诱导偶极和经历断裂 - 重整变形的范德华力，可导致高强度纳米复合材料：拉伸强度极限（sigmaUTS）约为150兆帕，储能模量（E'）约为13吉帕。进一步将离子键引入聚合物基体中形成了牺牲键双网络，这显著提高了力学性能：拉伸强度极限约为320兆帕，储能模量约为60吉帕。

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大自然的设计能被改进吗？具有牺牲性交联双网络的高强度透明类珍珠层纳米复合材料。

Can nature's design be improved upon? High strength, transparent nacre-like nanocomposites with double network of sacrificial cross links.

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