...单击夯沉量;夯击数;夯击能;能量耗散 [gap=1316]Key words: dynamic compaction; settlement; ramming number; tamping energy; energy dissipation ...
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This paper begins with the mechanism of DC, and, according to mechanics-knowledge and mathematics-method, analyses the affection of tamping energy and tamping times on depth of DC.
本文从强夯法的加固机理出发,综合运用力学知识和数学方法,针对强夯法存在的不足,就夯击能及夯击击数对强夯法加固深度的影响进行了深入的研究。
参考来源 - 夯击能及夯击击数对强夯加固深度的影响·2,447,543篇论文数据,部分数据来源于NoteExpress
夯击能量不是越大越好,如果能选择最佳的夯击能量则会得到事半功倍的效果。
Tamping energy is not the bigger the better, if we can choose the best tamping energy will be effective and efficient.
它不仅适用于普通的平面夯实,还可以应用于斜面夯实,夯击能量可调,能满足不同地基的夯实需求。
It can be applied to not only common plane compaction but inclined plane compaction. Furthermore, its impact energy can be adjusted to adapt for different subgrade.
结合工程实例,对强夯主要参数加固深度、单位夯击能、孔隙水压力、夯点间距、夯点复夯等的确定原则进行了分析探讨。
The principle of the main parameter of dynamic compaction strengthening depth, tamping energy water pressure of the hole are studied in a project.
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