1) high porosity Al foam
高孔隙率泡沫铝
1.
The high porosity Al foam used as light energy absorber can reduce the overload over 30g at one time,and obtain longer delay time of plastic deformation to absorb impact energy of recovery mass smoothly.
采用精确控制的多种高孔隙率泡沫铝作为轻质能量吸收器,解决航空航天器返回地面及空降、空投着陆瞬间人员和装备的冲击过载问题。
2) high porosity foamed Al alloy
高孔隙率泡沫铝合金
3) porosity of molten aluminum foam
泡沫Al的液态孔隙率
4) open-cell aluminum foam
开孔泡沫铝
1.
Effects of porosity and pore size on the electrical conductivity of open-cell aluminum foams;
孔隙率及孔径对开孔泡沫铝导电性的影响
2.
The open-cell aluminum foams have been produced by pressure infiltrating process.
采用加压渗流法制备不同特征参数的开孔泡沫铝,在50~1050MHz电磁波频率内研究了开孔泡沫铝的屏蔽特性,并探讨了泡沫铝的孔径和厚度对其电磁屏蔽性能的影响。
3.
The open-cell aluminum foams have been produced by pressure infiltrating process,and the structural parameters such as cell size and porosity of the aluminum foams were controlled by adjusting process parameter.
采用“直流四端电极”法测量了不同参数泡沫铝的电阻,研究开孔泡沫铝的导电性随其相对密度和孔径的变化规律。
5) closed-cell aluminum foam
闭孔泡沫铝
1.
Dynamic compressive property of closed-cell aluminum foam with Al matrix and Al-6Si matrix;
Al基和Al-6Si基闭孔泡沫铝的动态压缩性能
2.
Electromagnetic shielding effectiveness of Al-Si closed-cell aluminum foam;
Al-Si闭孔泡沫铝电磁屏蔽效能
3.
Experimental study on cellular structure statistical analysis and uniaxial deformation behavior of closed-cell aluminum foam
闭孔泡沫铝特征统计及其变形行为实验研究
6) closed cell aluminum foam
闭孔泡沫铝
1.
Effect of foaming parameters on cell structure of a closed cell aluminum foam;
发泡工艺参数对闭孔泡沫铝胞结构的影响
2.
Aiming at structure and property control, a closed cell aluminum foam with the same composition but different cell structures was prepared by air-foaming process.
本论文采用压缩空气铝熔体发泡法,制备了具有相同成分、不同胞结构的闭孔泡沫铝,并通过改变工艺参数控制胞结构和组织特性。
补充资料:氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
J氟碳涂层铝合金装饰板制成的铝合金幕墙建筑物
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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