研究了不同孔隙率泡沫铝合金的压缩力学性能。
The compressive properties of the al alloy foam are studied.
结果表明,用微波固化制备环氧泡沫材料具有高效率的特点,所制备的环氧泡沫具有优良的压缩力学性能;
The results indicate that the epoxy foams have excellent compressive performance and the preparation of epoxy foam by microwave irradiation is high efficient and convenient.
实验结果表明:材料的编织角对其压缩力学性能的影响很大,随编织角的变化,编织复合材料的压缩破坏机制发生了变化。
Experimental results show that the mechanical properties and mechanism of compressive failure of the composites change with the increase of the braided angles.
实验结果表明:材料的编织角对其压缩力学性能的影响很大,随编织角的变化,编织复合材料的压缩破坏机制发生了变化。
The experimental results show that the mechanical properties and compressive failure mechanism of the composites change with the increase of the braided angles.
通过分析结果可知蜂窝纸板的应力集中出现在纸芯的上端,最大变形出现在离上端1/5处,且蜂窝纸芯的高度对蜂窝纸板压缩力学性能影响较小,与实验结果相符合。
The stress and strain of honeycomb paperboard is also analyzed. The result proves that the concentrative stress is the honeycomb paperboard off the top, and the furthest distortion is at the 1/5.
通过分析结果可知蜂窝纸板的应力集中出现在纸芯的上端,最大变形出现在离上端1/5处,且蜂窝纸芯的高度对蜂窝纸板压缩力学性能影响较小,与实验结果相符合。
The stress and strain of honeycomb paperboard is also analyzed. The result proves that the concentrative stress is the honeycomb paperboard off the top, and the furthest distortion is at the 1/5.
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