干湿循环对宁夏压砂砾石劣化的田间试验研究

【目的】探明宁夏中部干旱带压砂田砾石在干湿循环下的劣化情况。【方法】以压砂地常用覆盖砾石—灰绿板岩为研究对象,通过淋水实现干湿循环试验,得到不同劣化程度砾石试样。利用SEM及PCAS计算得到劣化后砾石试样的各种参数并监测各阶段砾石质量损失。【结果】①初始阶段大粒级砾石劣化程度总体高于小粒级,干湿循环下孔隙连通性增强,出现大量碎屑与絮状矿物;②干湿循环后砾石粒级同孔隙数量成正比,同砾石平均孔隙面积成反比,孔隙的均匀系数较初始大幅升高,最大增幅达129.4%。粒级越大吸水率越小,粒级0.5~2 mm压砂砾石在250、125 mL淋水下较初始增幅最高,分别增加75.05%、56.60%;③干湿循环后...

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Published inGuanʻgai paishui xuebao Vol. 41; no. 6; p. 80
Main Authors AN Wenju, LI, Wangcheng, ZHAO Guangxin, JIA Zhenjiang, LIU, Qiaoling, WANG, Jie, MU, Min, LI, Yangyang
Format Journal Article
LanguageChinese
English
Published Xinxiang City Chinese Academy of Agricultural Sciences (CAAS) Farmland Irrigation Research Institute Editorial Office of Journal of Irrigation and Drainage 01.01.2022
Subjects
Adsorbed water
Adsorption
Arid regions
Arid zones
Crop production
Degradation
Drying
Gravel
Moisture content
Mulching
Pores
Sand
Sand & gravel
Soil degradation
Soil improvement
Soil lime
Soil management
Soil temperature
Spraying
Uniformity coefficient
Water content
Wetting
China
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Summary:【目的】探明宁夏中部干旱带压砂田砾石在干湿循环下的劣化情况。【方法】以压砂地常用覆盖砾石—灰绿板岩为研究对象,通过淋水实现干湿循环试验,得到不同劣化程度砾石试样。利用SEM及PCAS计算得到劣化后砾石试样的各种参数并监测各阶段砾石质量损失。【结果】①初始阶段大粒级砾石劣化程度总体高于小粒级,干湿循环下孔隙连通性增强,出现大量碎屑与絮状矿物;②干湿循环后砾石粒级同孔隙数量成正比,同砾石平均孔隙面积成反比,孔隙的均匀系数较初始大幅升高,最大增幅达129.4%。粒级越大吸水率越小,粒级0.5~2 mm压砂砾石在250、125 mL淋水下较初始增幅最高,分别增加75.05%、56.60%;③干湿循环后压砂砾石阶段质量损失率、累积质量损失量与粒级成反比,其中粒级0.5~2 mm压砂砾石在整个循环中受温度影响较敏感,其累积质量损失量在250 mL淋水量下比125 mL提高27.66%。【结论】在施加干湿循环影响下,小粒级压砂砾石劣化速度和程度总体大于大粒级,砾石首先要从大粒级劣化为小粒级,再劣化成壤。
ISSN:1672-3317
DOI:10.13522/j.cnki.ggps.2021532