小弟弟急需英文翻译,请各位高手帮帮在下.3.4. Impact strengthFig. 7 shows the total impact energy of AM100 alloy and its composites as a function of fibre volume frac- tion. The impact energy required for fracture reduces rapidly with
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小弟弟急需英文翻译,请各位高手帮帮在下.3.4. Impact strengthFig. 7 shows the total impact energy of AM100 alloy and its composites as a function of fibre volume frac- tion. The impact energy required for fracture reduces rapidly with
小弟弟急需英文翻译,请各位高手帮帮在下.
3.4. Impact strength
Fig. 7 shows the total impact energy of AM100 alloy and its composites as a function of fibre volume frac- tion. The impact energy required for fracture reduces rapidly with addition of ceramic reinforcements, whichis due to their inherently brittle nature. For both the al- loy and its composites, the presence of notch increases the stress concentration at the tip of the notch leading to a further reduction in the impact energy [7, 12, 21]. Fractographic evidence of the unreinforced alloy shows dominant intergranular failure (Fig. 8a). This is due to the reason that the base alloy is inherently brittle due to the presence of brittle Mg17 Al12 precipitates along the grain boundaries [12, 13]. Hence, addition of fibres would lead to the formation of these brittle precipitates at the fibre/matrix interface resulting in easy propaga- tion of cracks under impact loading. This can be ob- served from Fig. 8b, which shows a crack propagating through fibres. Such low resistance to crack propaga- tion results in very low absorption energy [12, 22] and eventually causes intense fibre breakage and fibre chop- ping (Fig. 8b).
小弟弟急需英文翻译,请各位高手帮帮在下.3.4. Impact strengthFig. 7 shows the total impact energy of AM100 alloy and its composites as a function of fibre volume frac- tion. The impact energy required for fracture reduces rapidly with
3.4.冲击强度
图7显示总冲击能量的AM100合金及复合材料的纤维体积功能数量-信息.冲击能量所需的基础上再增加骨折减少迅速与陶瓷增援时,由于其固有的全局脆性性质.见ad -对两个,何来及复合材料的缺口的存在增加了应力集中在顶端切口导致再减少冲击能量[7、12、第21条].电镜断口的证据显示晶合金失败(占主导地位的(图8a).这是由于基合金的原因是由于固有的存在脆脆Mg17沿晶界沉淀Al12[12,13].因此,添加纤维会导致形成沉淀于这些易碎的纤维/基体界面导致简单——实践propaga冲击荷载作用下裂缝.这可以从图-服务指挥.8b,表现出一裂纹光束通过纤维.这样的低阻裂效果propaga -变形吸收能量很低,22][12,最终导致强烈的纤维破碎和纤维斩萍(图8b).
冲击强度图 7 显示了 AM100 合金的总的冲击能量和及其复合材料作为卷压裂收缩纤维的功能。所需的骨折的冲击能量迅速降低加的陶瓷增援,积聚于其本身的脆性的性质。铝-安泰来和及其复合材料,存在缺口增加了尖端的应力集中的冲击能量 [7、 12、 21] 进一步减少导致的槽口。无筋的合金断口证据显示优势晶间故障 (图 8a)。这是由于基合金是由于对粮食边界 [12、 13] 脆性 Mg17 Al12 ...
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冲击强度图 7 显示了 AM100 合金的总的冲击能量和及其复合材料作为卷压裂收缩纤维的功能。所需的骨折的冲击能量迅速降低加的陶瓷增援,积聚于其本身的脆性的性质。铝-安泰来和及其复合材料,存在缺口增加了尖端的应力集中的冲击能量 [7、 12、 21] 进一步减少导致的槽口。无筋的合金断口证据显示优势晶间故障 (图 8a)。这是由于基合金是由于对粮食边界 [12、 13] 脆性 Mg17 Al12 沉淀的存在本身就脆的原因。因此,纤维的增加将导致光纤/矩阵界面产生冲击作用下的裂缝易 propaga 解释这些脆性的沉淀物的形成。这可以是转播-从图 8b,其中显示了通过纤维裂纹扩展服务。破解 propaga 解释这种低电阻在非常低的吸收能量 [12、 22] 结果和最终会导致激烈的光纤断裂及光纤斩萍 (图 8b)。
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