Application Experience of Bored Micropiles in the Conditions of Permafrost Soil

机译：钻孔微疏水在多年冻土土条件下的应用体验

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Results of pilot studies executed when strengthening foundation and tape bases of architecture monument - the building of National library of the Republic of Sakha (Yakutia) in Yakutsk are given. The article presents data on the kinetics of hardening of cement mortar with a complex additive NN+S-3 at low temperatures of permafrost soils. It is shown that the rate of hardening and strength of the solution greatly depend on the dosage of antifreeze component. A feature of the technology was also to determine the strength of cement mortar, with which possible pressure testing of the well. The strength of the mortar for re-injection should be not less than 10 MPa and not more than 20 MPa. The device technology of bored micropiles in permafrost soil is approved by the contractor - the Yakut branch "Svratka", Czech Republic. The received results indicate an opportunity and efficiency of micropiles application in conditions of permafrost soil.

机译：加强建筑纪念碑基础和磁带基地时执行的试点研究结果 - 给出了雅库茨克共和国国家图书馆的建设。本文介绍了在多年冻土土壤低温下的复杂添加剂NN + S-3的水泥砂浆硬化动力学的数据。结果表明，溶液的硬化率和强度大大取决于防冻组分的剂量。该技术的一个特征也是确定水泥砂浆的强度，对井的可能压力测试。重新注入的砂浆的强度应不小于10MPa，不超过20MPa。无多黑冻土土壤钻孔微饮料的装置技术得到了承包商的批准 - 捷克共和国雅库特分支机构“SVRATKA”。所接收的结果表明微米冻土条件下微米饮用的机会和效率。

著录项

来源
《International Conference on Civil, Architectural, Structural and Constructional Engineering》|2018年|1(CD-ROM)|共6页
会议地点
作者
G. D. Fedorova; O. I. Matveeva; R. B. Prokopiev;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TU5-53;
关键词
Bored micropile; Permafrost; Cement; Mortar; Maturing; Strength;

机译：无聊的微米;多年冻土;水泥;砂浆;成熟;力量;

相似文献

外文文献
中文文献
专利

1. Application Experience of Bored Micropiles in the Conditions of Permafrost Soil [J] . G.D. Fedorova, O.I. Matveeva, R.B. Prokopiev Applied Mechanics and Materials . 2018,第期

机译：钻孔微桩在多年冻土条件下的应用经验
2. The influence of vegetation and soil characteristics on active-layer thickness of permafrost soils in boreal forest [J] . Fisher James P., Estop-Aragones Cristian, Thierry Aaron, Global change biology . 2016,第9期

机译：植被和土壤特性对北方森林多年冻土活性层厚度的影响
3. Thermal impacts of boreal forest vegetation on active layer and permafrost soils in northern Da Xing'anling (Hinggan) Mountains, Northeast China [J] . Chang Xiaoli, Jin Huijun, Zhang Yanlin, Arctic, antarctic, and alpine research . 2015,第2期

机译：东北大兴安岭（北部）山区北方森林植被对活动层和多年冻土的热影响
4. Application Experience of Bored Micropiles in the Conditions of Permafrost Soil [C] . G. D. Fedorova, O. I. Matveeva, R. B. Prokopiev International Conference on Civil, Architectural, Structural and Constructional Engineering . 2018

机译：无毛耕土壤条件下钻孔微型钻孔的应用体验
5. The effects of permafrost degradation on soil carbon dynamics in Alaska's boreal region. [D] . O'Donnell, Jonathan A. 2010

机译：多年冻土退化对阿拉斯加北部地区土壤碳动态的影响。
6. The influence of vegetation and soil characteristics on active‐layer thickness of permafrost soils in boreal forest [O] . James P. Fisher, Cristian Estop‐Aragonés, Aaron Thierry, -1

机译：植被和土壤特性对北方森林多年冻土活性层厚度的影响
7. The influence of vegetation and soil characteristics on active-layer thickness of permafrost soils in boreal forest. [O] . Fisher, JP, Estop-Aragonés, C, Thierry, A, 2016

机译：植被和土壤特性对北方森林多年冻土活性层厚度的影响。

Application Experience of Bored Micropiles in the Conditions of Permafrost Soil

摘要

著录项

相似文献

相关主题

期刊订阅