院报 ›› 2024, Vol. 41 ›› Issue (5): 124-132.DOI: 10.11988/ckyyb.20221535

• 岩土工程 • 上一篇    下一篇

无机材料改良季节冻土区碳酸盐渍土试验及其方案评价

陈克政1, 黄帅2, 胡争3, 丁黔3, 柳艳杰4, 丁琳1,4   

  1. 1.东北林业大学 工程技术学院,哈尔滨 150040;
    2.东北林业大学 林学院,哈尔滨 150040;
    3.黑龙江大学 水利电力学院,哈尔滨 150080;
    4.黑龙江大学 建筑工程学院,哈尔滨 150080
  • 收稿日期:2022-11-15 修回日期:2023-01-18 出版日期:2024-05-01 发布日期:2024-05-07
  • 通讯作者: 丁 琳(1962-),男,黑龙江密山人,教授,博士,博士生导师,主要从事寒区土木工程研究。E-mail:18646387888@163.com
  • 作者简介:陈克政(1993-),男,安徽霍山人,博士研究生,主要从事寒区岩土工程及寒区环境研究。E-mail:kezheng_chen@126.com
  • 基金资助:
    国家自然科学基金项目(41071049);东北林业大学林业工程一流学科博士创新基金项目(LYGC202207);冻土工程国家重点实验室开放基金项目(SKLFSE201802,SKLFSE201919)

Solidification and Evaluation of Saline-carbonated Soil Treated with Inorganic Materials in Seasonally Frozen Ground Regions

CHEN Ke-zheng1, HUANG Shuai2, HU Zheng3, DING Qian3, LIU Yan-jie4, DING Lin1,4   

  1. 1. College of Engineering and Technology, Northeast Forestry University, Harbin 150040, China;
    2. School of Forestry, Northeast Forestry University, Harbin 150040, China;
    3. School of Hydraulic and Electric-power, Heilongjiang University, Harbin 150080, China;
    4. School of Civil Engineering, Heilongjiang University, Harbin 150080, China
  • Received:2022-11-15 Revised:2023-01-18 Online:2024-05-01 Published:2024-05-07

摘要: 为解决松嫩平原碳酸盐渍土对工程的不利影响,且削弱季节冻土区冻融循环对碳酸盐渍土带来的损伤,采用无机材料石灰和粉煤灰对碳酸盐渍土进行改良。研究了不同改良方案下碳酸盐渍土抗剪强度的变化及其抵抗冻融循环的能力;通过熵权-TOPSIS模型对各改良方案进行评价。结果表明:石灰和粉煤灰均会提升碳酸盐渍土的抗剪强度,但是石灰的改良效果远胜于粉煤灰,石灰会使得碳酸盐渍土的应力-应变曲线变成应变软化型;粉煤灰在提升碳酸盐渍土抵抗冻融损伤能力上表现得比较突出;而双掺石灰和粉煤灰明显兼顾了强度和抵抗冻融损伤能力这2个指标;在考虑力学性能、抗冻融能力以及经济等因素时,石灰和粉煤灰的掺量均为12%的方案最优。

关键词: 季节冻土区, 改良碳酸盐渍土, 无机材料, 熵权-TOPSIS模型

Abstract: The aim of this study is to mitigate the adverse impacts of saline-carbonated soils in the Songhua River and Nenjiang River Plain on engineering and to weaken the damage caused by freeze-thaw cycles on saline-alkali soils in regions of seasonally frozen ground by using lime and fly ash to solidify saline-carbonated soils.The study investigates the effect of different improvement schemes on the shear strength of saline-carbonated soils and their ability to withstand freeze-thaw cycles.The solidification schemes are evaluated using the entropy-weighted TOPSIS model.Results indicate that both lime and fly ash have enhanced the shear strength of saline-carbonated soils.However, the solidification effect of lime is significantly superior to that of fly ash and has transformed the stress-strain curve of saline-carbonated soils into one with strain-softening behavior.Fly ash has distinguished performance in enhancing the resistance of saline-carbonated soils to freeze-thaw damage.The admixture of both lime and fly ash comprehensively accounts for shear strength and resistance to freeze-thaw damage.From the perspective of mechanical properties, freeze-thaw resistance, and economic factors, the optimal solution is the use of 12% lime and 12% fly ash.

Key words: seasonally frozen ground region, solidified saline-carbonated soil, inorganic material, entropy weight - TOPSIS model

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