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Theoretical analysis of specimen cooling rate during impact freezing and liquid-jet freezing of freeze-etch specimens.

机译：冷冻蚀刻样品的冲击冻结和液体喷射冻结过程中的样品冷却速率的理论分析。

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摘要

We have carried out a theoretical analysis of specimen cooling rate under ideal conditions during impact freezing and liquid-jet freezing. The analysis shows that use of liquid helium instead of liquid nitrogen as cooling medium during impact freezing results in an increase in a specimen cooling rate of no more than 30-40%. We have further shown that when both impact freezing and liquid-jet freezing are conducted at liquid nitrogen temperature, the two methods give approximately the same specimen cooling rate under ideal conditions except for a thin outer layer of the specimen. In this region impact freezing yields the highest cooling rate.

机译：我们对冲击冷冻和液体喷射冷冻过程中理想条件下的样品冷却速率进行了理论分析。分析表明，在冲击冻结期间使用液氦代替液氮作为冷却介质会导致样品冷却速率增加不超过30-40％。我们进一步表明，当在液氮温度下进行冲击冷冻和液体喷射冷冻时，除了较薄的样品外层，两种方法在理想条件下的冷却速率均大致相同。在该区域，撞击产生的冷冻速度最高。

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期刊名称 Biophysical Journal
作者
G Kopstad; A Elgsaeter;
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作者单位

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年(卷),期 1982(40),2
年度 1982
页码 163–170
总页数 8
原文格式 PDF
正文语种
中图分类生物物理学;
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入库时间 2022-08-17 14:46:28

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6. Determination of Adhesive Strength and Freezing Rate of Ice on Aircraft Structures at Subcooled Temperatures. [D] . Kibler, Elijah Mendoza. 2013

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8. Theoretical analysis of specimen cooling rate during impact freezing and liquid-jet freezing of freeze-etch specimens [O] . Kopstad G., Elgsaeter A. 1982

机译：冻蚀试样冲击冷冻和喷液冷冻过程中试样冷却速率的理论分析

Theoretical analysis of specimen cooling rate during impact freezing and liquid-jet freezing of freeze-etch specimens.

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