How to avoid compression: A model study of latex sphere grid sections

Journal of ultrastructure research Pub Date : 1985-02-01 DOI:10.1016/0889-1605(85)90104-1

Jean-Claude Je´sior

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引用次数: 22

Abstract

The parameters which might play a role in the compression of plastic-embedded objects are studied. The compression is measured on spherical polystyrene latex particles, used as markers in the grid sectioning technique. By changing independently the hardness of the latex particles through a controlled electron irradiation and the hardness of the embedding medium, it is shown that compression is a local event depending only on the mechanical properties of the sectioned object and not on the properties of its surrounding materials. It is demonstrated on one hand that the intrinsic resin compression diminishes as resin hardness increases, and on the other hand that the latex compression can be completely eliminated after a preliminary irradiation by electrons (the electron-induced vulcanization is equivalent to a hardening). It is thus concluded that compression could be greatly reduced or eliminated if objects were sufficiently hardened during their preparation. Several preparation procedures for biological specimens are suggested. For comparison latex has also been irradiated 3½ days near a 25 000-Ci⁶⁰Co gamma source and near the core of an 8-MW nuclear reactor: Neither of these irradiations was sufficient to produce a hardening equivalent to that of the electron irradiation.

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如何避免压缩:乳胶球网格截面的模型研究

研究了可能影响塑性嵌套物体压缩的参数。压缩是在球形聚苯乙烯乳胶颗粒上测量的，用作网格分割技术中的标记。通过受控的电子照射独立改变乳胶颗粒的硬度和嵌入介质的硬度，表明压缩是一个局部事件，仅取决于被切片物体的力学性能，而不取决于其周围材料的性能。结果表明，一方面树脂的固有压缩随树脂硬度的增加而减小，另一方面，胶乳的压缩可以在电子的初步照射后完全消除(电子诱导的硫化相当于硬化)。由此得出结论，如果在制备过程中使物体充分硬化，则压缩可以大大减少或消除。介绍了几种生物标本的制备方法。作为比较，乳胶也曾在25000 - ci60co伽马源附近和8兆瓦核反应堆堆芯附近辐照过3天半:这两种辐照都不足以产生与电子辐照相当的硬化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of ultrastructure research

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