循环荷载对小叶锦鸡儿根系力学特性的影响 |
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引用本文: | 杨东旭,刘静,王勇轶,袁亚楠. 循环荷载对小叶锦鸡儿根系力学特性的影响[J]. 华南师范大学学报(自然科学版), 2021, 53(4): 55-60. DOI: 10.6054/j.jscnun.2021058 |
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作者姓名: | 杨东旭 刘静 王勇轶 袁亚楠 |
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作者单位: | 内蒙古农业大学沙漠治理学院,呼和浩特010019 |
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基金项目: | 内蒙古自然科学基金项目2018MS05004 |
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摘 要: | 为了探究干旱、半干旱生态脆弱区植被根系承受循环荷载后的固土效能,以1.00≤d≤4.00 mm径级范围内的小叶锦鸡儿(Caragana microphylla)直根段为对象,采用TY8000伺服式强力机研究承受50次循环荷载后的根系抗拉力学特性.结果表明:1.00≤d≤2.00、2.00
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关 键 词: | 小叶锦鸡儿 抗拉力 抗拉强度 循环荷载 灰色关联分析 |
收稿时间: | 2020-11-19 |
The Effect of Cyclic Loading on Root Mechanical Properties of Caragana microphylla |
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Affiliation: | College of Desert Science and Engineering, Inner Mongolia Agricultural University, Hohhot 010019, China |
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Abstract: | In order to explore the efficiency of soil consolidation with vegetation roots under cyclic loading in arid and semi-arid ecologically vulnerable areas, the tensile properties of the 1.00≤d≤4.00 mm diameter straight roots of Caragana microphylla under 50 times cyclic loading were studied using the TY-8000 servo type machine. As the results show, the ultimate tension of the 1.00≤d≤2.00 mm, 2.00 < d≤3.00 mm and 3.00 < d≤4.00 mm straight root was respectively (134.42±14.17), (285.24±27.65) and (420.24±27.36) N under cyclic loading of 30% of the ultimate force of a single loading, which increased by 48.20%, 42.71% and 29.07% respectively compared with the single loading; the ultimate tension of the straight root was (70.53±10.3), (155.15±21.04) and (287.84±22.65) N, under cyclic loading of 70% of the ultimate force of a single loading, which decreased by 22.23%, 22.37% and 11.58%, respectively compared with the single loading. The ultimate tension and tensile strength of each diameter class under cyclic loading were significantly different from those of the single loading (P < 0.05). It is shown that moderate cyclic loading can promote the ability of the root system for soil consolidation and excessive cyclic loading will cause damage to the root system and reduce its tensile properties. The gray correlation analysis shows that the diameter, loading times and loading speed all affect the mechanical properties of the root system. |
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