1) porous vesicular surface
多孔表层
2) porous layer surface
烧结多孔层表面
3) porous surface
多孔表面
1.
Pool boiling heat transfer experiment on an optimizing porous surfaces with vapor channels;
多孔表面新型复杂结构优化沸腾传热的实验研究
2.
The manufacturing methods of porous surface that is used in the field of enhanced boiling heat transfer was mainly introduced.
主要对用于强化沸腾传热的多孔表面的制造方法进行了介绍,对各种多孔表面强化沸腾传热的特性进行了比较和分析。
3.
Through analysing the geometrical structure of chemically eroded porous surface and itsboiling mechanism at low heat flux, the piston-evaporation physical model for gas stored cav-ity has been proposed.Furthermore,model about chemically eroded porous surface startingto activate has been derived from physical model and temperature profile in turbulent bound-ary layer.
通过分析化学腐蚀多孔表面的几何结构、低热负荷下的沸腾机理以及积存气体对凹穴活化的影响,提出了储气凹穴活塞式蒸发物理模型,建立了多孔表面的活化机理模型。
4) porous surfaces
多孔表面
1.
Evaporation heat transfer inside the micro-structure of porous surfaces;
多孔表面微细结构内的蒸发换热
2.
Researches on boiling heat transfer enhancement on porous surfaces are reviewed.
本文综述了多孔表面用于强化沸腾传热的研究工作。
5) porous layer
多孔层
1.
It is proved that alumina nano-fibers are formed from the porous layer, while totally different behaviors of the barrier layer a.
结果表明,纳米氧化铝纤维是在阳极氧化铝的多孔层形成的,且在浸溃过程中阻挡层和多孔层表现出完全不同的溶解趋势。
2.
the ionic migration control and the formation of porous layer.
经过理论计算并通过试验证明,恒压下铝的阳极氧化过程是由三个阶段组成,第一是隧道效应控制过程;第二是离子迁移控制过程;第三是多孔层的形成与生长过程。
3.
Experiments on boiling heat transfer from a mechanically fabricated porous layer atatmospheric and superatmospheric pressures are conducted, the effect of system pressureare revealed.
、Thermoexcel-E、Ge、-T、CIT等多种高性能强化沸腾换热结构[‘-’],其中ThermoexcelE型结构是机械加工多孔层中有代表性的一种,并进行了较多研究*‘]。
6) porous film
多孔层
1.
The visible and stable ultraviolet-blue photoluminescence properties of silicon after the fade of the porous film;
硅多孔层分离后稳定的可见蓝紫光发射特性
2.
The rich oxided Si nanocrystallites were formed on the surface of the traditional electrochemically-produced samples after being peeled off the surface porous film in the marinade.
用电化学腐蚀方法制备了多孔硅样品,在浸泡液中浸泡使其表层多孔层与样品分离,在样品表面形成了丰富的SiO_2包裹纳米硅颗粒结构,研究了样品的光致发光(PL)特性。
3.
The Si nanocrystallites embedded in SiO 2 matrix framework is formed in the surface of the traditional electrochemically produced samples after being peeled off the surface porous film in the marinade.
将采用传统电化学腐蚀法制备的多孔硅样品,用浸泡液浸泡剥离其表层多孔层,使样品表面形成 SiO2 包裹纳米硅颗粒的结构,在表面镀半透明Au膜后制备成电致发光器件。
补充资料:多孔层开管柱
分子式:
CAS号:
性质:在开管柱内壁上用适当的方法沉积上一层多孔性物质(如硅藻土、硅烷化硅胶、分子筛等),即为多孔层开管柱。多孔性物质可做吸附剂用,也可做为载体再涂固定液使用。多孔性物质作为载体用的又称涂载体开管柱(support-coated open tubular column)。多孔层厚度约为0.1mm。与涂壁开管柱相比,它的内表面大,柱容量大,固定液流失减少,柱寿命增加。
CAS号:
性质:在开管柱内壁上用适当的方法沉积上一层多孔性物质(如硅藻土、硅烷化硅胶、分子筛等),即为多孔层开管柱。多孔性物质可做吸附剂用,也可做为载体再涂固定液使用。多孔性物质作为载体用的又称涂载体开管柱(support-coated open tubular column)。多孔层厚度约为0.1mm。与涂壁开管柱相比,它的内表面大,柱容量大,固定液流失减少,柱寿命增加。
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