Engineering and Architecture
UNIVERSITY MASTER'S DEGREE IN MATERIALS, WATER AND LANDSCAPE ENGINEERING
Face-to-face
Spanish
ESCUELA POLITECNICA SUPERIOR
Only taught at this university
Enter the list of examination dates for this graduate programme.
Legend: | Not offered | No teaching |
The objective of this Master’s Degree course is to train professionals and academics in the fields of construction and soil engineering, with the aim of meeting the growing demand for experts which has arisen as a result both of an increase in the construction of infrastructures and of the interest shown in environmentally aware management of hydraulic resources in terms of soil and structures. The course offers a wide range of options in the fields of Materials and Soil Engineering, and represents a cross-disciplinary training which integrates Hydraulics as a dynamic agent affecting the materials involved in engineering and the natural processes which influence structures and the soil on which they are built.
The Master’s course consists of practical and specialised courses which also address the specific needs of the various branches of Materials Engineering (“Special Concretes” and “Durability of Concrete Structures”, among others), of Soil Engineering (“Rock Mechanics” and “Foundation Pathologies”, among others) and Hydraulic Engineering (“Hydraulic Structures”).
It also includes subjects which serve as a point of connection between Hydraulic and Soil Engineering, through the flow of dense fluids (“Advanced River Engineering”), and between these and Materials Engineering, through an examination of coastal dynamics, how the coast is affected and the tools available and necessary for its protection (“Innovation in Maritime and Coastal Works”). These subjects have been designed in order to provide the experience and basic tools necessary for undertaking research.
In addition to providing a training in theoretical research and practice specific to different fields of application, the individual subjects offered within the subject areas provide a training which covers generic, cross-disciplinary needs, focusing on topics common to the different branches of Engineering such as the use of cartographic tools for land management (“Introduction to GIS”) or numerical methods (“Finite Elements Method as an Approach Applied to Engineering Problems”, “Numerical Methods and Symbol Manipulators Applied to Engineering Problems”, “Statistical Methods Applied to Engineering”). A series of courses has thus been established enabling students to choose their area of study, and which contributes to a specialised, cross-disciplinary and multi-disciplinary training.
The principle objective of the programme is to train specialised professionals and researchers in the application of methodologies and techniques for detection , diagnosis, analysis and representation, decision-making, assessment and the preparation of studies and projects in sustainable engineering in relation to the natural environment and the natural processes that occur therein.
Complementary to the students’ curriculum, the Master’s Degree course offers a number of activities aimed at providing students with multidisciplinary opportunities and experiences, similar to those offered on the Master’s courses in “Soil and Seismic Engineering” (Polytechnic University of Catalonia) or “Architecture, Structures and Technology” (Polytechnic of Milan), among other national and international benchmark centres.
Besides attaining abilities, skills and knowledge in areas of engineering pertaining to the interaction of construction materials with soil and water (which is of great importance when undertaking research in related areas in order to obtain a doctorate), students will also acquire the professional skills described by national and international networks and organisations, enabling a deeper understanding of civil engineering.
Having successfully completed their Master’s Degree, students will have attained a sufficient scientific, technical and methodological level to undertake design, planning, management, maintenance, conservation and exploitation, and will be able to apply their technical capacity to R&D&i projects or to advanced technical professional practice.
The fundamental objective of this Master’s Degree course is to offer students an advanced, multidisciplinary training aimed at professional research, which will equip them to successfully enter the following rapidly developing fields of engineering:
Research in Hydraulic Engineering.
Research in Materials Engineering.
Research in Soil Engineering.
Research in Hydraulic Engineering (projects, construction and maintenance of hydraulic structures, management, planning and exploitation of hydraulic infrastructures, planning hydraulic resources, town planning based on sustainable development).
Research in Materials Engineering (standards, bases and mechanisms of corrosion, new construction materials and their applications, materials testing, environmental sustainability criteria, techniques for characterising, modelling, reporting and diagnosing structural damage, durability of materials).
Research in Soil Engineering (observation and diagnosis of foundation and wall pathologies, writing reports, constructive solutions, improvement techniques. calculating slope and hillside stability, instrumentation systems, numerical models, testing techniques, geographic information systems, database design).
Application of the appropriate research methodologies to the above lines of research.
For each area of research, a more detailed explanation is given below of these objectives as they relate to students’ training:
or Research problems which have been resolved, together with the techniques used,
or Research problems which remain unresolved,
or Currently open areas of research.
- Implementation of one of these techniques in the laboratory,
- Proposal for a new solution to one of the presently unresolved research problems.
Subject type |
Credits |
Compulsory (OB) |
33 |
Optional (OP) |
21 |
Master’s Final Project (OB) |
6 |
TOTAL CREDITS |
60 |
FIRST SEMESTER 30 ECTS |
SECOND SEMESTER 30 ECTS |
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SUBJECT |
TYPE |
ECTS |
SUBJECT |
TYPE |
ECTS |
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THE BASICS OF PHYSICS AND MATHEMATICS APPLIED TO ENGINEERING |
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STATISTICAL METHODS APPLIED TO ENGINEERING |
OB |
3 |
NUMERICAL METHODS AND SYMBOL MANIPULATORS APPLIED TO ENGINEERING PROBLEMS |
OP |
3 |
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FINITE ELEMENTS METHOD AS AN APPROACH APPLIED TO ENGINEERING PROBLEMS |
OP |
3 |
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THE BASIC PHYSICS OF VIBRATIONS AND WAVE PHENOMENA |
OB |
3 |
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NUMERICAL METHODS AND SYMBOL MANIPULATORS APPLIED TO ENGINEERING PROBLEMS |
OP |
3 |
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DYNAMIC ANALYSIS OF STRUCTURES APPLIED TO ANTI-SEISMIC CONSTRUCTIONS |
OB |
3 |
NON-INVASIVE ANALYSIS TECHNIQUES APPLIED TO CIVIL ENGINEERING |
OP |
3 |
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BASIC ASPECTS OF FINITE ELEMENT MODELLING |
OP |
3 |
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HYDRAULIC ENGINEERING |
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HYDRAULIC STRUCTURES |
OB |
3 |
ADVANCED RIVER ENGINEERING |
OP |
3 |
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INNOVATION IN MARITIME AND COASTAL STRUCTURES |
OP |
3 |
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MATERIALS ENGINEERING |
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SCIENCE AND TECHNOLOGY OF INORGANIC CONGLOMERATES AND PHYSICAL-CHEMICAL PROCESSES OF DETERIORATION IN CONCRETE |
OB |
3 |
PHYSICAL AND MECHANICAL CHARACTERISATION OF CONCRETES CONTAINING RECYCLED AGGREGATES |
OP |
3 |
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SUPPLEMENTARY CEMENTING MATERIALS AND SUSTAINABILITY IN CIVIL ENGINEERING |
OB |
3 |
METHODOLOGY OF PREVENTION AND DETECTION OF DAMAGE IN CIVIL WORKS STRUCTURES AND CONSTRUCTIONS |
OP |
3 |
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EXPERIMENTAL PROCEDURES FOR CORROSION STUDIES |
OP |
3 |
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DURABILITY OF CONCRETE STRUCTURES |
OB |
3 |
MULITFUNCTIONAL CONDUCTIVE CONCRETE |
OP |
3 |
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METALLIC CORROSION IN CONSTRUCTION |
OB |
3 |
MICROSTRUCTURAL CHARACTERISATION TECHNIQUES IN CONSTRUCTION MATERIALS |
OP |
3 |
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SPECIAL CONCRETES |
OB |
3 |
DESIGN OF STRUCTURES USING COMPOSITE MATERIALS |
OP |
3 |
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SOIL ENGINEERING |
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INTRODUCTION TO GIS |
OB |
3 |
ROCK MECHANICS |
OB |
3 |
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SLOPE AND HILLSIDE STABILITY |
OP |
3 |
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FOUNDATION PATHOLOGIES |
OP |
3 |
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MASTER’S FINAL PROJECT |
OB |
6 |
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The course programme consists of four subject areas containing the 11 compulsory subjects and 14 optional subjects offered. Subjects have been grouped according to subject matter, providing coherent training related to the current areas of research offered in the doctorate programmes of those departments involved in the teaching of this course.
A brief description is given below of the subject areas:
1. Basics of physics and mathematics applied to Engineering (FFMAI)
2. Hydraulic Engineering (IA)
3. Materials Engineering (IM)
4. Soil Engineering (IT)
1.- The basics of physics and mathematics applied to Engineering (FFMAI): The aim of this subject is to extend and update knowledge in basic physics and mathematics, and in scientific research, thus enabling students to develop their ability to rigorously apply such knowledge to their own research .
2.- Hydraulic Engineering (IA): The aim of this subject is to offer students specific knowledge relevant to design, projects and studies related to the rehabilitation of hydraulic works, the mangement of hydraulic resources, the study of floods and the application of mathematical models for use in advanced river engineering.
3.- Materials Engineering (IM): This subject includes the study of the basic concepts of special concretes, including their characterisation, production and technology. In addition, the durability of concrete constructions will be studied in-depth, examining the science and technology of conglomerates, metal corrosion and the methodology of prevention and detection of damage. Likewise, students will study techniques for the microstructural characterisation of materials.
4.- Soil Engineering (IT): This subject addresses the concepts of rock mechanics and modelling using numerical methods. In addition, advanced concepts in the study of slope and hillside stabilty are examined, together with foundation pathology. Lastly, students are provided with an introduction to geographical information systems and their applications in land management.
According to the Regulations of the University of Alicante, the following requirements must be complied to have access to official taught Master’s degrees:
- Non- recognised degree certificates shall require a technical report showing an equivalence statement issued by the University of Alicante (ContinUA – Continuing Education Centre), for which the corresponding fee should be paid.
- Access through this way does under no circumstances imply prior official approval of the holder’s degree certificate, nor its recognition for purposes other than studying a master's degree.
1. Admission Profile
For admission to the University Master’s Degree course in Materials, Hydraulic and Soil Engineering at the University of Alicante, applicants should hold one of the following:
2. Assessment criteria
The selection criteria employed by the Master’s Academic Committee are:
a) A three, four or five year Degree in Road, Canal and Port Engineering, Chemical Engineering, Physics, Geology, Architecture, Industrial Engineering , Public Works, Mining, or qualifications in related disciplines which are eligible for conversion to 240 European credits.
b) Level of achievement reflected in the academic record.
c) Grades obtained in subjects related to the Master’s Degree.
The Master’s Academic Committee will specify the selection criteria for adjudicating admissions to the Master’s Degree. These criteria will be published on the Master’s official web page during the pre-enrolment period. Where admission is denied, the Master’s Academic Committee will provide the applicant with a written explanation of their decision.
PRE-ENROLMENT +info
Students who intend to study for an officially recognised Master’s Degree at the UA should complete pre-enrolment in accordance with the guidelines and deadlines specified annually.
ENROLMENT +info
Following publication of the final list of those admitted to the course, an email containing a user password will be sent to successful applicants, enabling them to enrol via the Campus Virtual in accordance with the guidelines and deadlines specified annually.
In the registration process, the documents issued abroad must be official, duly notorised and translated. Further information:
COURSE | NUMBER OF PLACES |
2012-13 | 40 |
2013-14 | 40 |
2014-15 | 40 |
2015-16 | 40 |
2016-17 | 40 |
Professional.
The main objective of the Master’s Degree is to enable students to acquire the professional skills necessary for the teaching profession, in line with the commonly accepted criteria and in compliance with current legislation.
Within the framework of the design of this Master’s degree, it was considered that initial training should provide future teachers with the theoretical knowledge, practical skills, attitudes, interaction with colleagues and teaching practice necessary to provide the basis for further professional development. Indeed, life-long professional development is greatly influenced by the initial training received.
In this respect, the course programme is primarily aimed at producing teaching professionals, although the importance of undertaking educational research has not been overlooked. Thus, the role of research in the professional development of teachers is emphasised through the teaching practice.
It is necessary for teacher training to stress the teacher’s role as mediator between personal and social development and learning, encouraging the personal, scientific and cultural education of students as citizens able to participate, exercise their rights and fulfill their obligations in a democratic society.
The aims of of the Master’s Degree programme are as follows:
Achieving these objectives will enable future teachers to gain the required professionalskills for their vocation. Completion of this training programme also results in the progressive acquisition of educational skills, together with skills associated with the overall teaching and learning processes.
Professions for which the degree qualifies its holder
Compulsory and Post-Compulsory Secondary Education Teacher, Vocational Training Teacher, Foreign Language Teacher, Arts or Sports Teacher.
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