pass project nickel felt pores improve thermal conductivity
thermal conductivity yes Various industry application middle of important characteristic , include heat exchanger , hot interface Material and electronic cool down . along with technology of Improving constantly , right high heat conduction Material of need constantly Increase . in recent years , Research personnel Always exist explore different of method Come Enhance thermal conductivity , in A sort of have prospect of method yes pass project nickel felt pores Spend .
nickel felt yes A sort of Porous metallic material , because That high surface area and interconnection of void space and have Excellent of thermal conductivity . pass design nickel felt of Porosity , Research personnel were able further Enhance That thermal conductivity , make That become Various Heat pipe should use of feasible choose .
UCLA Research team pass comprehensive experiment and calculate means , discuss in depth Got it Porosity right nickel felt Material guide hot coefficient Significantly Influence . of great importance , Influence too Pass far-reaching !
exist conduct Got it one item complex experiment Research after Come , researcher pass control electrochemistry deposition process preparation Got it Quite a few indivual have different Porosity nickel yarn sample . them then pick use laser moment irradiate technology right These sample hot Guidance conduct Got it detailed Measurement , The results show , when Porosity gradually promote hour , sample hot guide Rate also present rise trend . for go deep understand this one Phenomenon behind Come mechanism , In-depth research team return use calculate simulation tool Expand Got it further analyze , impressive revel night view ! by reveal cause observe result potential dynamics , step and process . right exist Should process specific detail and mechanism parse , this piece Son need pass Even major scientific paper or Report Come detailed Elaborate .
Their Research The results show , nickel felt Inside interconnected of void space act as heat transfer aisle , thereby accomplish Even efficient of Heat Conduction . also , Porosity of Increase lead to Material Inside of efficient Thermal resistance reduce , further helpful Enhance thermal conductivity .
this Research of result right advanced Heat pipe reason Material of develop have important significance . have Enhance Porosity of project nickel felt have possible improve heat exchanger , hot interface Material and electronic cooling system of performance , thereby exist Various industry and Consumption application middle improve energy efficiency and reliability .
Apart from UCLA of Research outside , other Research group also Always exist explore use project nickel felt Come Enhance thermal conductivity . Some people focus At pass different of manufacture technology optimization nickel felt of Porosity , and Other Some people but Research Got it incorporated carbon nanotubes wait other Material by further Enhance heat conduction of potential .
exist explore Enhance guide thermal project nickel felt Research field hour , That Showing potential exist exist were able response high performance Heat pipe reason Material growing day by day need , need of thing , and exist promote different industry middle energy efficiency and reliability aspect play The essential Role . Accompany manufacture and representation technology continued progress and jump , expected have high Porosity project nickel felt Will as future Heat pipe understand Decide plan middle indispensable components and widely used exist actual Scenes .