Educational guide

IDENTIFYING DATA

2023_24

Subject

GEOTECHNICS

Code

00708040

Study programme

0708 - GRADO EN INGENIERÍA MECÁNICA

Descriptors

Credit.

Type

Year

Period

Optional

Fourth

First

Language

Castellano

Prerequisites

Department

TECN.MINERA,TOPOGRAF. Y ESTRUC

Coordinador

GARCIA DIAZ , LUIS CARLOS

E-mail

lgard@unileon.es
aortm@unileon.es

Lecturers

ORTIZ MARQUÉS , ALMUDENA

GARCIA DIAZ , LUIS CARLOS

Web

http://https://www.unileon.es/estudiantes/oferta-academica/grados/grado-en-ingenieria-mecanica/plan-estudios?id=0708040&cursoa=2022

General description

Tribunales de Revisión

Tribunal titular
Cargo	Departamento	Profesor
Presidente	TECN.MINERA,TOPOGRAF. Y ESTRUC	CIFUENTES RODRIGUEZ , JAIME
Secretario	TECN.MINERA,TOPOGRAF. Y ESTRUC	VALLEPUGA ESPINOSA , JOSE
Vocal	ING.MECANICA,INFORMAT.AEROESP.	UBERO MARTINEZ , IVAN

Tribunal suplente
Cargo	Departamento	Profesor
Presidente	INGENIERIA Y CIENCIAS AGRARIAS	AGUADO RODRIGUEZ , PEDRO JOSE
Secretario	INGENIERIA Y CIENCIAS AGRARIAS	GUERRA ROMERO , MANUEL IGNACIO
Vocal	TECN.MINERA,TOPOGRAF. Y ESTRUC	SIERRA FERNANDEZ , CARLOS

Competencias

Code
A18179
B5634
B5643
B5644
B5646
C1	CMECES1 That students have demonstrated possession and understanding of knowledge in an area of study that is based on general secondary education, and is usually found at a level that, although supported by advanced textbooks, also includes some aspects that involve knowledge from the cutting edge of their field of study
C4	CMECES4 That students can transmit information, ideas, problems and solutions to both a specialised and non-specialised audience
C5	CMECES5 That students have developed those learning skills necessary to undertake further studies with a high degree of autonomy

Learning aims

	Competences
Students have demonstrated knowledge and understanding in an area of study that builds on the foundation of general secondary education, and is usually at a level that, while relying on advanced textbooks, also includes some aspects that involve knowledge from the cutting edge of their field of study. Students are able to convey information, ideas, problems and solutions to both specialist and non-specialist audiences. That students have developed those learning skills necessary to undertake further studies with a high degree of autonomy. Geotechnical studies applied to mining, construction and civil engineering. Knows the relationships between engineering and soil Knows the conditions of particle equilibrium in the study of soils Knows the theories on soil formation Knows the characterisation of soils Applies the calculation of stresses in soils Applies the concepts to the study of foundations. Analyses, synthesises, solves and takes decisions in the proposed problems of solving structures. Interprets results with initiative, creativity, critical and self-critical reasoning. Knows and uses the principles of Mechanics of Materials. Translated with www.DeepL.com/Translator (free version)	A18179	B5634 B5643 B5644 B5646	C1 C4 C5

Contents

Topic	Sub-topic
I. INTRODUCTION	1.1 Course organization 1.2 The object of the Geotechnics 1.3 Syllabus 1.4 Annotated bibliography 1.5 Relation with other subjects
II. SOILS: TYPES AND CHARACTERISTICS	2.1 Soil formation and nature. Scales of observation 2.2 Soil phases. The relationships between weights and volumes, and experimental calculation of these. 2.3 Basic soil types. Basic soil types. Study of solid particles: mineralogy and characteristics.
III. STRESS AND STRAIN. EFFECTIVE STRESS	3.1 Stress and strain definition 3.2 Principles of effective stress 3.3 Stress and strain states 3.4 Stress and strain variables. Trajectories 3.5 The stress state under one-dimensional conditions
IV. FLOW OF WATER IN RIGID, SATURATED SOILS	4.1. Groundwater: water flow, piezometric level, groundwater table and capillary rise 4.2. Equation of water motion 4.3. Darcy's Law. Permeability 4.4. Aquifers confined and unconfined. Pumping from wells and ditches 4.5. Equivalent permeability and flow in stratified soil 4.6. Water flow equation 4.7. Siphoning 4.8. Solution of the flow equation. Graphical method 4.9. Drains and filters. Earthen dams 4.10. Drainage in excavations
V. CONSOLIDATION IN SATURATED SOILS	5.1. Components of soil deformation. Consolidation 5.2. Primary consolidation process 5.3. Primary Consolidation Equation. Soil deformation under oedometric conditions 5.4. Differential equation for one-dimensional consolidation. Dimensionless approach. Consolidation level 5.5. Solving the one-dimensional consolidation equation with the vertical flow 5.6. Simplified approach for cases with non-vertical flows 5.7. Secondary consolidation
VI. STRENGTH AND DEFORMATION OF SATURATED SOILS	6.1 Introduction 6.2 Shear strength 6.3 Constitutive equations
VII. STUDY OF SOIL PERFORMANCE IN SERVICE AND FAILURE	7.1. Study in service. Elasticity 7.2. Study in failure. Limit equilibrium, Rankine states and plastic collapse theorems
VIII. INTRODUCTION TO UNSATURATED SOILS. COMPACTED SOILS	8.1 Unsaturated soils. Suction and effective stress concept 8.2 Relationships between suction and degree of saturation

Planning

Methodologies :: Tests
	Class hours	Hours outside the classroom	Total hours
Problem solving, classroom exercises	24	36	60

Tutorship of group	2	3	5

Lecture	26	39	65

Mixed tests	8	12	20

(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies

Methodologies ::

	Description
Problem solving, classroom exercises	In problem classes, exercises of varying complexity are posed and solved "step by step", with the participation of the student.
Tutorship of group	Exercises will be proposed to be solved jointly by the teacher and the students.
Lecture	Theoretical presentation of the concepts included in the contents, justification, discussion and application to the resolution of specific problems.

Personalized attention

Tutorship of group

Description

Exercises will be proposed to be solved jointly by the teacher and the students. The solutions obtained will be interpreted and discussed.

Assessment

	Description	Qualification
Others	T1. Problem solving, classroom exercises. Individual and/or group work to be carried out by students. T2. Mixed tests, Periodic written tests	T1. 40% T2. 60%

Other comments and second call
The proposals and competences worked on individually and in groups, both with and without the teacher, will also be assessed. In the second call, the results of the tests obtained throughout the semester are valid, although it is not compulsory to have taken them. In the case of not taking the partial tests or the individual and/or group work, the mark of the final exam will be 100% of the evaluation.

Sources of information

Access to Recommended Bibliography in the Catalog ULE

Basic
	Geotecnia y Cimientos de Jimenez Salas. C.T.E.-DB-SE-CIMIENTOS.
Complementary

Recommendations

Subjects that it is recommended to have taken before

STRENGTH OF MATERIALS I / 00708011

STRENGTH OF MATERIALS II / 00708019

THEORY OF STRUCTURES I / 00708021

THEORY OF STRUCTURES / 00708026