1) unfrozen water
未冻水
1.
This paper analyzes the effects on the quality of frozen food by the unfrozen water.
分析了未冻水对冻结食品质量的影响 ,并利用WLF方程定量预测了在高于玻璃化转变温度的贮藏环境下未冻水主要性质的变化 ,同时指出目前在研究中存在的一些问题和今后进一步研究的方向。
2.
Two simulation cases were conducted by considering the unfrozen water and neglecting the unfrozen water.
以Alaska北极美国Barrow气象观测站的地温观测资料和土壤热物理参数为基础,以伴有相变问题的一维热传导方程的有限差分法为工具,在考虑和忽略未冻水2种情形下模拟了Barrow地区0。
3.
The impact of unfrozen water mass fraction on heat transfer characteristics of frozen soil is taken into account,and the mathematical model of soil freezing temperature field surrounding ground heat exchanger is established by control volume method.
考虑了未冻水质量分数对冻结土壤传热特性的影响,采用控制容积法建立了地埋管换热器周围土壤冻结温度场的数学模型,分析了土壤冻结对土壤物性参数和土壤温度分布的影响,探讨了不同液态水质量分数下土壤冻结温度场的变化。
2) unfrozen water fraction
未冻水份额
1.
Stepwise scanning-DSC (SW-DSC) was employed to study the unfrozen water fraction of rabbit aorta during freezing, and the effects of cryoprotective agent (CPA) concentration were also discussed.
利用差示扫描量热仪(DSC)技术中的分步扫描(Stepwise scanning)法,研究了不同浓度的低温保护剂对主动脉血管冻结过程中未冻水份额的影响。
3) unfrozen water content
未冻水含量
1.
Test study on unfrozen water content and thermal parameters of qinghai-tibetrailway frozen silty clay;
青藏铁路冻土未冻水含量与热参数试验
2.
Soil freezing temperature and unfrozen water content are important properties of frozen soil and are necessary in the study of water migration in freezing or frozen soils.
土壤冻结温度与未冻水含量是冻土的重要物理参数 ,影响因素多 ,关系复杂 。
3.
In this paper a general overview about microscopic structure characteristics of the frozen fringe and characteristic parameters of the frozen fringe including unfrozen water content, hydraulic .
为加深对冻胀机理的了解,首先研究与未冻水迁移密切相关的冻结缘是十分必要的,文章综述了冻结缘的微结构特征和冻结缘的特征参数(包括未冻水含量、导湿系数和冰、水相压力),然后概述了各类冻胀预报模型的发展方向,并提出冻结缘和冻胀模型研究领域的工作重点是:继续加强冻胀机理的研究、深入测定冻结缘的特征参数和建立健全冻胀预报模型的综合评价。
4) dragging force of unfrozen water
未冻水迁移驱动势
5) unfrozen soil
未冻土
1.
Taking the bridge pile foundation of Qingshui River as a prototype,the stability of piles in unfrozen soil and high-temperature permafrost is investigated by the indoor simulation test.
研究了未冻土和高温冻土两种条件下桩基承载力的特性,试验得到了高温冻土中的桩基承载力是未冻土中11。
6) ice free
不冻水域;无冰;未被冰盖覆的海面
补充资料:冻水歌
【诗文】:
冻水洗我若之何。太上糜散我若之何。
【注释】:
【出处】:
冻水洗我若之何。太上糜散我若之何。
【注释】:
【出处】:
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条