Teaching modern soil mechanics

Emanuel Maranha das Neves
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Abstract

The important role of the critical state theory in the modern soil mechanics is undeniable. It is true that the number of soil mechanics courses that not cover this subject is progressively decreasing. However, when the critical state theory is introduced, this topic cannot be seen as a simple extension of the classic soil mechanics. On the contrary, it is essential that some significant differences between modern and classic soil mechanics are adequately clarified and understood. This subject is a relevant objective of this paper, besides the large benefits brought by the modern soil mechanics. This discipline, like the mechanics applied to other materials, is fundamentally a preliminary learning to prepare for the professional practice of geotechnical engineering. When the main objective is to teach methods to solve the engineering problems (foundations, excavations, embankments, tunnels, etc.), the matters transmitted to the students are sometimes focused on the geotechnical engineering methods, where, nevertheless, soil mechanics, naturally, has an irreplaceable role. It is true that a design is unique in itself. However, all designs must have in common the same theoretical principles of soil mechanics, regardless of the particularities of the geotechnical design. This cannot be neglected in the modern soil mechanics teaching. Brief ideas concerning where and how soil mechanics has been taught, is also introduced. The fundamentals about plastic design of geotechnical structures are highlighted. The article ends calling attention to the outstanding contribution of the critical state theory for a unified understanding of the soil behavior. Its pedagogic benefits are invaluable.
现代土壤力学教学
临界状态理论在现代土力学中的重要作用毋庸置疑。不涉及这一主题的土壤力学课程确实在逐渐减少。然而,在引入临界状态理论时,不能将该课题视为经典土壤力学的简单扩展。相反,必须充分阐明和理解现代土壤力学与经典土壤力学之间的一些重大差异。除了现代土壤力学带来的巨大益处之外,这一主题也是本文的相关目标。这门学科与应用于其他材料的力学一样,从根本上说是为岩土工程专业实践做准备的初步学习。当主要目标是传授解决工程问题(地基、开挖、堤坝、隧道等)的方法时,传授给学生的内容有时集中在岩土工程方法上,而土力学自然在其中发挥着不可替代的作用。诚然,设计本身是独一无二的。然而,无论岩土工程设计的特殊性如何,所有设计都必须具有相同的土力学理论原则。这一点在现代土力学教学中不容忽视。此外,还简要介绍了土力学教学的地点和方式。文章强调了岩土结构塑性设计的基本原理。文章最后提请注意临界状态理论在统一理解土体行为方面的突出贡献。临界状态理论在教学方面的益处是不可估量的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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