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Enroll in Geotechnics and Foundations to enhance your preparation in the field of architecture and design, and earn a qualification awarded by the Catholic University of Murcia in collaboration with Structuralia.

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Nuestros alumnos opinan sobre: Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

4,6
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100%
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Valoración del claustro

Ylenia Avino

NAPOLI

Opinión sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

Ylenia Avino, ¿qué te hizo decidirte por nuestro Master Online?

Temario

Ylenia Avino, ¿qué has aprendido en el Master Online?

Herramientos para la intervencion en educacion special

Ylenia Avino, ¿qué es lo que más te ha gustado de este Master Online?

Todas las herraminetos y conocimientos necesarios para las actividades de apayo

Ylenia Avino, ¿qué has echado en falta del Master Online?

Optimo

Liam G.

STATE OF FLORIDA

Opinión sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

Everything is great, I highlight the communication with the center. Excellent.

Thomas L.

DUDLEY

Opinión sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

I have liked everything, and the organization of the syllabus as well. It is a gradual learning process that becomes enjoyable thanks to the platform.

Emily R.

STATE OF CONNECTICUT

Opinión sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

Everything has seemed good to me, each of the contents is well-organized and explained quite well. Whenever I needed help from my tutor, they assisted me.

Megan H.

STATE OF COLORADO

Opinión sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

What encouraged me the most was the price, as it was one of the most affordable ones I had seen. I truly recommend it to anyone who wants to specialize in the sector.

Olivia G.

COVENTRY

Opinión sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits

I found it to be an online master with a great specialization. It has helped me enhance my preparation in the field of construction.
* Todas las opiniones sobre Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits, aquí recopiladas, han sido rellenadas de forma voluntaria por nuestros alumnos, a través de un formulario que se adjunta a todos ellos, junto a los materiales, o al finalizar su curso en nuestro campus Online, en el que se les invita a dejarnos sus impresiones acerca de la formación cursada.
Alumnos

Plan de estudios de Master in geotechnical engineering

MASTER IN GEOTECHNICAL ENGINEERING. Take a leap in your professional career and obtain a specialization in the field of geotechnics from home, thanks to the 100% online methodology offered in this training. Give a boost to your professional career with Euroinnova International Online Education.

Resumen salidas profesionales
de Master in geotechnical engineering
The Master’s degree in Geotechnical Engineering and Foundations at Structuralia aims at strengthening, increasing and consolidating the knowledge and skills of construction, geology and civil engineering professionals in the field of Geotechnical Engineering through a total of 9 modules.
Objetivos
de Master in geotechnical engineering
The students who successfully complete the Master’s degree in Geotechnical Engineering and Foundations will have knowledge and skills to perform specialized tasks and develop their professional career in the field of geotechnical engineering in civil engineering and construction companies, as well as in architecture firms. - Strengthen and increase the student’s knowledge of geotechnical engineering. - Provide solid theoretical and practical foundations for geotechnical engineering tasks. - Provide indispensable tools for further professional and/or academic development in geotechnical engineering. - Initiate students into numerical modeling and advanced constitutive models for soils and rocks in geotechnical engineering
Salidas profesionales
de Master in geotechnical engineering
- Project Consultant Engineer - Project Manager in engineering consulting - Project and Research Engineer in construction companies. - Project and Research Manager in construction companies. - Numerical Modelling Experts
Para qué te prepara
el Master in geotechnical engineering
In addition to the main general concepts, the program focuses special attention on numerical modeling applications by means of a solid theoretical framework and practical exercises.
A quién va dirigido
el Master in geotechnical engineering
- Civil engineering and construction professionals - Civil engineers (Roads, ports and canals) - Geologists - Geological engineers - Mining engineers - Industrial engineers (specialized in construction) - Architects
Metodología
de Master in geotechnical engineering
Metodología Curso Euroinnova
Carácter oficial
de la formación
La presente formación no está incluida dentro del ámbito de la formación oficial reglada (Educación Infantil, Educación Primaria, Educación Secundaria, Formación Profesional Oficial FP, Bachillerato, Grado Universitario, Master Oficial Universitario y Doctorado). Se trata por tanto de una formación complementaria y/o de especialización, dirigida a la adquisición de determinadas competencias, habilidades o aptitudes de índole profesional, pudiendo ser baremable como mérito en bolsas de trabajo y/o concursos oposición, siempre dentro del apartado de Formación Complementaria y/o Formación Continua siendo siempre imprescindible la revisión de los requisitos específicos de baremación de las bolsa de trabajo público en concreto a la que deseemos presentarnos.

Temario de Master in geotechnical engineering

Descargar GRATIS
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MODULE 1. INTRODUCTION TO GEOTECHNICS. SOIL AND ROCKS

UNIT 1. DESCRIPTION OF SOILS
  1. Soil - Concept and Formation
  2. Soil - Types of soil and sedimentary deposits
  3. Granular Soils - Gravels and Sands
  4. Cohesive Soils - Silts and Clays
  5. Cohesive Soils - Structure, Types and Properties of clays
UNIT 2. PROPERTIES AND CLASSIFICATION OF SOILS
  1. Basic Properties - Volume and Weight
  2. Basic Properties - Granular Soils
  3. Basic Properties - Cohesive Soils
  4. Unified Soil Classification System (USCs)
  5. AASHTO Soil Classification System
UNIT 3. DESCRIPTION OF ROCKS
  1. The Rock Cycle. Plate Tectonics and Deformations of the Earth’s Crust.
  2. Igneous Rocks
  3. Sedimentary Rocks
  4. Metamorphic Rocks
  5. Rock, Rock Matrix and Rock Mass
UNIT 4. PROPERTIES AND CLASSIFICATION OF ROCKS
  1. Properties of the Rock Matrix
  2. Properties of The Rock Mass. Discontinuities
  3. Geomechanical Classifications - RMR (ROCK MASS RATING)
  4. Geomechanical Classifications - The Q Index
  5. The GSI Index - Geological Strength Index

MODULE 2. GROUNDWATER. EFFECTS ON SOILS AND ROCKS.

UNIT 1. FLUID FLOW IN POROUS MEDIA.
  1. Groundwater. Aquifer Types.
  2. Darcy's Law. Hydraulic Head and Hydraulic Gradient. Permeability.
  3. Mechanics and Theory of Fluid Flow in Porous Media.
  4. Flow Nets.
  5. The Method of Fragments.
UNIT 2. EFFECTIVE STRESS AND PORE PRESSURES. WATER EFFECTS ON SOIL AND ROCKS.
  1. The Effective Stress Principle. Application in Soil and Rocks.
  2. Stress Distribution in the Ground.
  3. Hydraulic heave, uplift, internal erosion and piping.
  4. Filters. Concept, Use and Preliminary Design.
  5. Water Effects on the Rock Matrix and the Rock Mass.
UNIT 3. SOIL CONSOLIDATION.
  1. Introduction.
  2. The Magnitude of the Consolidation Settlement.
  3. The Evolution of the Consolidation Settlement.
  4. The Parabolic Isochrones Theory.
  5. Preloading and Mixed and Radial Consolidation
UNIT 4. WELLS AND PUMPING SYSTEMS.
  1. Construction of Wells.
  2. Design of Wells. Analytical Solutions for Individual Wells.
  3. Design of Groups of Wells. Analytical Solutions for groupd of wells.
  4. Construction of Wellpoints.
  5. Design of Wellpoints.

MODULE 3. GROUND CHARACTERIZATION AND INSTRUMENTATION AND MONITORING.

UNIT 1. GEOTECHNICAL AND GROUND INVESTIGATION CAMPAIGNS
  1. Preliminary Works
  2. Design and Planning of Ground Investigation
  3. Ground Investigation and Preliminary Research
  4. Drilling Techniques [2] and Sampling methods
  5. In Situ Testing for Soils and Rock Masses
UNIT 2. LABORATORY TESTS IN GEOTECHNICAL ENGINEERING (I)
  1. Identification and State Tests (I)
  2. Identification and State Tests (II)
  3. Resistance Tests (I)
  4. Resistance Tests (II)
  5. Interpretation of Triaxial Shear Tests
UNIT 3. LABORATORY TESTS IN GEOTECHNICAL ENGINEERING (II)
  1. Deformability Tests
  2. Interpretation of Oedometer Tests
  3. Compaction and Reuse Tests
  4. Rocks Tests (I)
  5. Rocks Tests (II)
UNIT 4. INSTRUMENTATION AND MONITORING (I&M)
  1. Introduction to Instrumentation and Monitoring
  2. Instrumentation Equipment I
  3. Instrumentation Equipment II
  4. Instrumentation Equipment III
  5. Real case studies

MODULE 4. CONTINUUM MECHANICS AND CONSTITUTIVE MODELS. APPLICATION TO SOILS AND ROCKS.

UNIT 1. ELASTICITY AND CONTINUUM MECHANICS.
  1. The Stress Tensor. Total, Effective and Pore Stresses. Mohr’s Circle for Stresses.
  2. Strain Tensor. Mohr’s Circle for strains.
  3. Continuum mechanics. Definition of the mathematical problem..
  4. Elasticity Equations and Parameters.
  5. Main Elastic Solutions in Soil and Rock Mechanics.
UNIT 2. PLASTICITY THEORY.
  1. Introduction to Plasticity.
  2. Yield Criterion. Types of Plastic Behavior.
  3. Plastic Flow and Plastic Potential.
  4. Main Theorems and Postulates of the Theory of Plasticity.
  5. The Mohr-Coulomb Elastoplastic Model.
UNIT 3. CONSTITUTIVE MODELS FOR SOILS.
  1. Rheological Models.
  2. The Hardening Soil Model.
  3. The Hardening Soil Small Model.
  4. The Cam-Clay Model.
UNIT 4. CONSTITUTIVE MODELS FOR ROCKS.
  1. The Hoek and Brown Constitutive Model.
  2. The Barton-Choubey Constitutive Model for Joints and Discontinuities.
  3. Viscosity, Viscoelasticity and Viscoplasticity.
  4. Extension of Rheological Models.
  5. Viscoelastic Constitutive Models.

MODULE 5. EARTH PRESSURES AND RETAINING STRUCTURES.

UNIT 1. THEORY
  1. Classical earth pressures theory. Coulomb
  2. Classical earth pressures theory. Rankine, Terzaghi
  3. Classical earth pressure theory. Lateral earth pressures coefficient
  4. Classical earth pressures theory. Winkler spring model
  5. Other calculation methods. Numerical models and equivalent fluid theory
  6. Theory. Seismic considerations
UNIT 2. RIGID WALLS
  1. Rigid walls. Gravity walls
  2. Rigid walls. Reinforced concrete walls
  3. Rigid walls. Rock walls
  4. Rigid walls. Masonry walls and segmental retaining walls
UNIT 3. FLEXIBLE CANTILEVERED WALLS
  1. Flexible walls. Gabion walls and crib walls
  2. Flexible walls. mechanically stabilized earth wall
  3. Flexible walls. Diaphragm walls
  4. Flexible walls. Pile walls
  5. Anchors
  6. Flexible walls. sheet pile walls, king post walls, trenches
UNIT 4. DESING CONSIDERATIONS
  1. Other design considerations. construction procedures
  2. Other design considerations. ground movement and monitoring
  3. Other design considerations. problematic grounds
  4. Other design considerations. Design sections and groundwater flow diagram

MODULE 6. SLOPE STABILITY ANALYSES

UNIT 1. SLOPE STABILITY ANALYSIS
  1. Landslides classification
  2. Geotechnical concepts to address a slope stability problem
  3. Slope stability in soils
  4. Slope stability in rock masses
  5. Rock slope stability based on geomechanical indices
UNIT 2. SOIL SLOPE STABILITY
  1. Soil slope stability analysis by classic methods
  2. Soil slope stability analysis using charts
  3. The method of slices
  4. Corrective measures for soil slope stability
  5. Finite element analysis of soil slopes
UNIT 3. ROCK SLOPE KINMATIC ANALYSES
  1. The stereographic projection
  2. Planar failure kinematic analysis
  3. Wedge failure kinematic analysis
  4. Toppling kinematic analysis
  5. Slope kinematic analyses in a rock mass
UNIT 4. SOIL SLOPE STABILITY
  1. Planar failure safety factor calculation
  2. Wedge failure safety factor calculation
  3. Toppling safety factor calculation
  4. Corrective measures for rock slope stability
  5. Finite element analysis of rock slopes

MODULE 7. SHALLOW FOUNDATIONS

UNIT 1. DETERMINANTS AND STUDY FAILURE MODES
  1. Introduction and determinants
  2. Distribution of stresses below rigid foundations
  3. Verification of failure modes for ULS
  4. Verification of bearing capacity
  5. Correction factors
UNIT 2. ADDITIONAL NOTES ABOUT CARRYING CAPACITY
  1. Bearing capacity in non-homogenous soils
  2. Bearing capacity from in situ test
  3. Bearing capacity in particular soils
  4. Bearing capacity in rock (I)
  5. Bearing capacity in rock (II)
UNIT 3. LIMIT STATES OF SERVICE
  1. Definitions and concepts
  2. Stress distribution in the ground
  3. Settlements in granular soils
  4. Settlements in cohesive soils
  5. Other methods and other deformations
UNIT 4. RAFTS, WELLS, DYNAMIC ASPECTS AND OFFSHORE SCOPE
  1. Rafts
  2. Short rigid piers
  3. Machine foundations
  4. Foundation in earthquake-prone area and dynamic parameters
  5. Shallow foundations in maritime and offshore sectors

MODULE 8. DEEP FOUNDATIONS

UNIT 1. BASIC CONCEPTS AND COLUMN PILES IN SOILS
  1. Types of deep foundations. Terms. General rules of a deep foundation design
  2. Bearing capacity of a pile in soils. Basic formulation
  3. End bearing capacity in granular soils through analytical solutions
  4. End bearing capacity in cohesive soils through analytical solutions
  5. End bearing capacity in soils. In situ tests
UNIT 2. FLOATING PILES IN SOILS, PILES IN ROCK AND PILE GROUPS
  1. Skin friction capacity in granular soils through analytical solutions
  2. Skin friction capacity in cohesive soils through analytical solutions
  3. Skin friction capacity in granular and cohesive soils through in situ test
  4. Bearing capacity of a pile rocks
  5. Bearing capacity of a group of pile
UNIT 3. WORKLOADS AND PILES SETTLEMENT
  1. Safety coefficient. single pile and group of piles effect
  2. Structural strength
  3. Settlements in deep foundations
  4. Uplift load
  5. Dynamic formule for pile driving
UNIT 4. PILE SELECTION AND UNUSUAL SITUATIONS
  1. Verifying safety against ground failure owing to horizontal pull or pressure
  2. Negative Friction in Piles
  3. Load test in piles
  4. Choosing the type of pile
  5. Micro-piles

MODULE 9. NUMERICAL MODELLING IN GEOTECHNICS. APPLICATIONS WITH PLAXIS 2D.

UNIT 1. NUMERIC MODELLING AND ITS APPLICATION IN GEOTECHNICS. INTRODUCTION TO PLAXIS 2D.
  1. Introduction to Numerical Modeling.
  2. The Finite Element Method.
  3. Numerical Modelling in Geotechnics.
  4. Introduction to Plaxis 2D. Basic Concepts.
  5. Plaxis 2D. Organization and Structure. User Interface.
UNIT 2. BUILDING THE GEOMETRY AND THE FINITE ELEMENT MESH
  1. Definition of Ground Geometry and Structure.
  2. Geometrical Elements, Loads and Movements Imposed on Plaxis 2D.
  3. Soil behavior and constitutive models
  4. Structural and hydraulic elements in Plaxis 2D
  5. Definition of the mesh of finite elements
UNIT 3. CALCULATION, WATER AND RESULT ANALYSIS.
  1. Definition of Calculation Phases.
  2. Plaxis 2D calculation types
  3. Water in Plaxis 2D.
  4. Calculation Scheme and Control Parameters.
  5. Result visualization and Analysis.
UNIT 4. APPLICATIONS WITH PLAXIS 2D - PRACTICAL CASES.
  1. Study of a superficial Foundation.
  2. Analysis of a slope´s stability
  3. A modelling case. an excavation between retainign walls
  4. Embankment construction and consolidation
  5. Modelling of a tunnel. Builder/wizard tunnel

MODULE 10. MFP. MASTER´S DEGREE IN GEOTECHNICAL ENGINEERING AND FOUNDATIONS

Titulación de Master in geotechnical engineering

Master Geotechnical Engineering StructuraliaMaster Geotechnical Engineering Structuralia
Master Of Professional Development in Geotechnical Engineering and Foundations with 60 ECTS Credits awarded by the Catholic University of Murcia in collaboration with Structuralia

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Información complementaria

Master Geotechnical Engineering

Do you want to boost your career as a true professional? Do you wish to acquire knowledge about geotechnics? Are you aware of the importance of a solid foundation? Seize the opportunity offered by Euroinnova with the Master Geotechnical Engineering and propel your career with the leading training company. Thanks to Euroinnova's e-learning methodology, you can train in the easiest and most comfortable way.

This Master Geotechnical Engineering offers you the opportunity to specialize in the field of knowledge and skills, taking a professional leap with Euroinnova International Online Education. You can pursue this master from anywhere and at any time, thanks to the 100% online methodology.

With this Master Geotechnical Engineering, you can develop the necessary knowledge and skills to carry out geotechnical functions for new constructions. Learn about this professional activity and acquire the knowledge, skills, techniques, and competencies required to tackle activities in this field of expertise.

MASTER IN GEOTECHNICAL ENGINEERING

Learn the professional activity of geotechnics with this master

Now you can obtain a specialization in geotechnics and foundations through this master. These studies are part of the branch that analyzes and studies the impact of construction on terrains. All fields of study that directly affect the terrain are related to Geotechnics, making its importance significant.

With this master, you will develop the knowledge that allows you to implement the most suitable construction techniques for each project and terrain. Many disciplines also influence this activity. Each soil has different characteristics, depending on moisture, hardness, and material composition. Its study is essential for building constructions.

Different geotechnical problems arise when carrying out construction activities. With the appropriate knowledge, you can identify and address them in your projects. The following are some of the most common problems introduced in an introductory manner. If you want to specialize in this field, you can do so with the Master Geotechnical Engineering:

  1. Loads: To apply loads on a terrain, leveling is necessary. This involves studying the terrain and creating certain elements such as retaining walls. Proper preparation of the terrain leads to the creation of load structures that are essential in construction.

  2. Foundations: Any type of construction requires foundations for support on the terrain. The goal is to achieve support and distribute the load evenly along the terrain. The load distribution results in reduced deformities and better resistance over the years, facing climatic and natural conditions.

  3. Structure: The structure contains the building, and when the terrain is used as part of the structure, a more specific study is required. The aim is to compact the soil, generating a foundation for subsequent construction. If the stability of the terrain is incorrect, it can lead to structural cracks. Moisture and water filtration problems are often encountered.

  4. Material: Lastly, terrain can also have problems when used as construction material. To use it correctly, you must know its composition, compaction methods, and properties.

What are you waiting for to request information? Access our virtual campus and explore our wide catalog of courses and/or master's programs. Get in touch with us, and our specialized advisors in the subject you're interested in will assist you.

Why pursue an online master with Euroinnova International Online Education?

With this training, you will understand the soil and terrain perfectly, capable of identifying problematic issues in any of the mentioned fields and effectively addressing them. For example, conducting inspections after construction to detect cracks caused by soil movement due to moisture. If this occurs, the consequences can be highly detrimental.

Enroll in specialized training in Geotechnics and Foundations right now, and demonstrate your knowledge in the field of geotechnics with the Master Geotechnical Engineering from Euroinnova International Online Education. Achieve a University Degree with 60 ECTS credits issued by awarded by the Catholic University of Murcia in collaboration with Structuralia.

Take advantage of the opportunity offered by Euroinnova International Online Education to expand your education. With this Master Geotechnical Engineering: Master´s Degree in Geotechnical Engineering and Foundations + 60 ECTS Credits, you can easily balance your work and personal life. Additionally, obtain your qualification awarded by the Catholic University of Murcia in collaboration with Structuralia.

Inquire without obligation to develop these skills adequately.

We are waiting for you at Euroinnova!

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