工程热物理学报
工程熱物理學報
공정열물이학보
JOURNAL OF ENGINEERING THERMOPHYSICS
2009年
10期
1763-1766
,共4页
谢开旺%马坤全%刘静%刘明%周一欣
謝開旺%馬坤全%劉靜%劉明%週一訢
사개왕%마곤전%류정%류명%주일흔
热导率%电阻率%液态金属%镓铟合金%钠钾合金%芯片散热
熱導率%電阻率%液態金屬%鎵銦閤金%鈉鉀閤金%芯片散熱
열도솔%전조솔%액태금속%가인합금%납갑합금%심편산열
thermal conductivity%electrical resistivity%liquid metal%Ga--In alloys%Na--K alloys%chip cooling
室温金属流体在芯片散热领域中正日益显示重要价值,但相关材料的热物性比较缺乏.本文基于Faber-Ziman理论和Wiedemann-Franz-Lorenz定律,采用Ashcroft-Langrethp硬球模型偏结构因子以及空核心模型赝势计算了液态二元镓铟及钠钾合金的热导率.结果表明:相比于钠钾合金的热导率随原子组分浓度呈抛物线变化,镓铟合金的热导率与原子组分浓度呈单调变化关系,同时镓铟合金的热导率随着温度升高而升高.作为对比,本文同时也对镓铟合金的热导率进行了实验测定.结合所获数据及钠钾合金文献数据对比,表明计算结果与实验值符合得较好.本文工作为进一步研究二元合金热导率打下了基础.
室溫金屬流體在芯片散熱領域中正日益顯示重要價值,但相關材料的熱物性比較缺乏.本文基于Faber-Ziman理論和Wiedemann-Franz-Lorenz定律,採用Ashcroft-Langrethp硬毬模型偏結構因子以及空覈心模型贗勢計算瞭液態二元鎵銦及鈉鉀閤金的熱導率.結果錶明:相比于鈉鉀閤金的熱導率隨原子組分濃度呈拋物線變化,鎵銦閤金的熱導率與原子組分濃度呈單調變化關繫,同時鎵銦閤金的熱導率隨著溫度升高而升高.作為對比,本文同時也對鎵銦閤金的熱導率進行瞭實驗測定.結閤所穫數據及鈉鉀閤金文獻數據對比,錶明計算結果與實驗值符閤得較好.本文工作為進一步研究二元閤金熱導率打下瞭基礎.
실온금속류체재심편산열영역중정일익현시중요개치,단상관재료적열물성비교결핍.본문기우Faber-Ziman이론화Wiedemann-Franz-Lorenz정률,채용Ashcroft-Langrethp경구모형편결구인자이급공핵심모형안세계산료액태이원가인급납갑합금적열도솔.결과표명:상비우납갑합금적열도솔수원자조분농도정포물선변화,가인합금적열도솔여원자조분농도정단조변화관계,동시가인합금적열도솔수착온도승고이승고.작위대비,본문동시야대가인합금적열도솔진행료실험측정.결합소획수거급납갑합금문헌수거대비,표명계산결과여실험치부합득교호.본문공작위진일보연구이원합금열도솔타하료기출.
Low-melting-point metals are playing increasingly important roles in the field of chip cooling.However,there is still a strong lack of thermophysical properties of these metals or alloys.Based on Faber-Ziman theory and Wiedemann-Franz-Lorenz law,Ashcroft-Langrethp structure factor and empty-core pseudopotential are adopted to calculate the thermal conductivity of liquid Ga-In and Na-K alloys.The results demonstrate that compared with a parabolic curve in Na-K alloys.the thermal conductivity of Ga-In alloys takes a monotonic relation with concentration and increases with temperature.Furthermore,the experimental measurement of the thermal conductivity of Ca-In alloys is also conducted.It is demonstrated that the calculated results accord very well with the present experiments and the previous published data.This work laid a foundation for future research of the thermal conductivity of binary alloys.
