这种多孔性材料可以使强重比最大化,有效转移承受力,使压力最小化,避免整个结构的垮掉。
It allows for maximum strength-to-weight ratio and the efficient transferring of forces in order to minimise stresses and avoid whole structure failure.
结果表明,在缺锰条件下,津强1号的株高、根冠比、穗重、干物质量等指标所受影响均比辽春10号大,而且光合产物糖和氨基酸的形成以及蛋白质合成过程的受阻程度也比辽春10号重。
The result shows that the effects of manganese deficiency on the height, the root-shoot ratio, the spike weight, the dry weight of Jinqiang-1are more significant than those of Liaochun-10.
结果表明,在缺锰条件下,津强1号的株高、根冠比、穗重、干物质量等指标所受影响均比辽春10号大,而且光合产物糖和氨基酸的形成以及蛋白质合成过程的受阻程度也比辽春10号重。
The result shows that the effects of manganese deficiency on the height, the root-shoot ratio, the spike weight, the dry weight of Jinqiang-1are more significant than those of Liaochun-10.
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