Towards a Unified Unsaturated Soil Mechanics Framework for Interpretation of Frozen and Unfrozen Soils

建立一个统一的非饱和土力学框架来解释冻结和未冻结的土壤

• 批准号: RGPIN-2020-05808
• 负责人: Vanapalli, Sai
• 金额: $ 3.79万
• 依托单位: University of Ottawa
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=740843
• 关键词: Towards; Unified; Unsaturated; Soil; Mechanics

The thermo-hydro-mechanical behavior of a frozen soil during winter in many regions of Canada is significantly different in comparison to unfrozen soil during the remainder of the year. However, saturated soil mechanics principles are widely used in Canadian geotechnical practice ignoring influence of suction in both frozen and unfrozen soils. Recently, the UN Intergovernmental Panel on Climate Change (IPCC) suggested that global warming effects would contribute to an increase in annual temperatures of 1.5oC above pre-industrial level temperatures by 2030. This temperature rise would likely contribute to extreme floods, extended drought periods and significant variations in soil temperatures. In other words, global warming effects offer challenges to the design of geotechnical infrastructure. Through this research proposal, a unified framework will be developed for the rational interpretation of thermo-hydro-mechanical behavior of unsaturated soils taking into account frozen and unfrozen conditions including climate change effects. The short-term objectives will be directed towards undertaking comprehensive experimental studies at the University of Ottawa geotechnical laboratory on a variety of typical Canadian soils; namely, sand, glacial till, expansive soil, silty clay and sensitive clay. The results of these studies will be used in the development of a framework for the design of pile foundations in expansive soils, mechanistic models for pavements in frozen and unfrozen soils and slope stability analyses of expansive clays. The long-term objectives of this research program will be directed towards understanding the complex mechanics of the coupled thermo-hydro-mechanical behavior of various Canadian soils. Additional funding from Ministry of Transportation of Ontario (MTO), University of Ottawa and other anticipated agencies will provide partial support for some of the objectives over the next decade. Expected impact This research program is expected to be step forward towards the development of a novel framework that extends the mechanics of unsaturated soils for frozen and unfrozen soils taking account of the climate changes for the rational design of various geotechnical infrastructure. The applicant's research work from the previous Discovery grants is incorporated into the design of pavements by the MTO. Also, the applicant's earlier research on the unsaturated soils behavior is being implemented in the South Africa Geotechnical Practice manual and is widely used by the Geo-slope, commercial software developed in Canada. It is expected that some of the present studies may find place into the Canadian Foundation Engineering Manual which is proposing to include state-of-the-art developments related to unsaturated soil behavior. Finally, this research will train 3 PhD, 2 MASc and 3 BASc students, who will acquire advanced knowledge and skills in the design of geotechnical infrastructure based on the mechanics of unsaturated soils.

在加拿大的许多地区，冬季冻土的热-水-力学行为与一年中其余时间的未冻土相比有很大不同。然而，饱和土力学原理被广泛应用于加拿大的岩土工程实践中，忽略了吸力的影响，在冻结和未冻结的土壤。最近，联合国政府间气候变化专门委员会（IPCC）提出，到2030年，全球变暖的影响将导致年气温比工业化前水平高出1.5摄氏度。这种温度上升可能会导致极端洪水、干旱期延长和土壤温度的显著变化。换句话说，全球变暖的影响对岩土基础设施的设计提出了挑战。通过这项研究提案，将制定一个统一的框架，合理解释非饱和土壤的热-水-力学行为，同时考虑到冻结和解冻条件，包括气候变化的影响。 短期目标是在渥太华大学地质技术实验室对加拿大各种典型土壤进行全面的实验研究，这些土壤包括：沙子、冰碛土、膨胀土、粉质粘土和敏感粘土。这些研究的结果将被用于开发一个框架的设计桩基础在膨胀土，力学模型的路面在冻结和未冻结的土壤和膨胀粘土的边坡稳定性分析。这项研究计划的长期目标将是了解各种加拿大土壤的热-水-力学耦合行为的复杂力学。来自安大略交通部、渥太华大学和其他预期机构的额外资金将在未来十年为一些目标提供部分支持。 预期影响本研究计划预计将进一步发展一种新的框架，该框架将非饱和土力学扩展到冻结和未冻结的土壤，同时考虑到气候变化，以合理设计各种岩土基础设施。申请人的研究工作，从以前的发现赠款是纳入设计的路面由MTO。此外，申请人关于非饱和土壤特性的早期研究正在南非岩土工程实践手册中实施，并被加拿大开发的商业软件Geo-slope广泛使用。预计目前的一些研究可能会被纳入加拿大基础工程手册，该手册建议包括与非饱和土行为相关的最新发展。最后，本研究将培养3名博士生，2名硕士生和3名本科生，他们将获得基于非饱和土力学的岩土基础设施设计方面的先进知识和技能。