溫疊加原理 的英文怎麼說
中文拼音 [wēndiějiāyuánlǐ]
溫疊加原理
英文
time-temperature superposition principle-
The geoisotherms around a gallery can be explained as a superposition of the original temperature field.
一個坑道周圍的等溫線可以理解為原始溫度場的疊加。Time - temperature superposition principle could bee applied to g " dependence on cd, and the dependence of shifted factor at on temperature demonstrated a linear relationship by a plot of in at vs. t - 1. the steady rheological measurements for nanocomposites melts were conducted. the results revealed that the melts of exfoliated nanocomposites with lower loading of org - mmt exhibited shear - thinning even at lower shear rate as compared with polymers filled with common particles, while the melts flow depended weakl
研究結果表明仁復合體系g 『和動態損耗模量寧的對數關系性呀g 『一109夕, _印維乖溫動態模量滿足時溫疊加原理,頻率移動因子( at )的對數與塌度的倒攀即種馬與了一『有良好的線性關系?一_面,復合體系熔體的穩態剪切流變行為具有不同於普通粒子填充聚合性。According to the laplace transformation method and superimposition principle, theoretical solutions of the effect of three typical bin ' s surface protecting methods of thermal insulation were given. based on the solutions, the characteristics and rules of three insulation procedures were analyzed in numerical calculation. the research results of this paper are valuable for engineers to design economical and viable bin ' s surface insulation way
利用拉氏變換方法及疊加原理,求解出保溫板保溫、倉面噴霧、流水養護這三種常用倉面保護方式降溫效果理論解答;並基於此理論解答,對三種倉面保護方式的特點及規律進行了研究,從數值上分析了幾個影響溫度變化的主要因素:保溫板厚度、內外溫差梯度,距表面不同深度等對每種保護方式降溫效果的影響。Time - temperature superposition principle
溫疊加原理( 4 ) after the rationality of numerical simulation has been testified, going along a series of numerical simulation and performance research. firstly, the thermal superposition principle, based on adiabatic heat transfer coefficient and superposition kernel function, is put forward for the research of discrete heat sources ’ temperature field and thermal conjunction effects secondly, decreasing thermal spreading resistance is good for improving the heat transfer performance, and several methods are discussed
第一、在熱疊加原則理論基礎上,利用數值模擬方法研究了固態組件的溫度場和多個分散熱源在熱擴展體上的熱耦合效應,而且證明了強迫對流情況下熱疊加原理形成的溫度場和系統模擬時的溫度場計算結果非常吻合;第二、針對固態組件里集中熱源的特點,對擴展熱阻進行了研究,從理論上探討了減小擴展熱阻改善散熱性能的方法。分享友人