Masters Program in Materials Science in Czech Republic

Find Masters Programs in Materials Science in Czech Republic 2017

Materials Science

The benefits of a Masters extend beyond improving your earning potential. They can provide you with personal and professional skills to accelerate your development. They are also an opportunity to differentiate yourself from your peers, many of whom will have similar A-level and undergraduate qualifications.

By focusing on research and development, materials science is able to provide new materials for use in industries. Materials science relies on several scientific and engineering departments to work together to problem-solve for the future.

Czech Republic is in the heart of Europe is a neighbor of Slovakia, Austria, Germany, and Poland. Czech universities offer long-standing reputation and interesting specializations.

Top Master Programs in Materials Science in Czech Republic 2017

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Master in Mechanical Engineering

Brno University of Technology
Campus Full time 2 years September 2017 Czech Republic Brno

Two-year follow-up master's study programme "Mechanical Engineering" is designed for graduates from general branches of bachelor's study programmes majoring in engineering. [+]

Best Masters in Materials Science in Czech Republic 2017. Mechanical Engineering Master's study programme: M2I-A Mechanical Engineering Guarantor of the programme: doc. Ing. Radek Knoflíček, Dr. Academic year: 2016/17 Type of study: full-time Language of instructions: English (change to Czech) Standard length of study: 2 years Qualification awarded: Ing. Educational and professional goals Two-year follow-up master's study programme "Mechanical Engineering" is designed for graduates from general branches of bachelor's study programmes majoring in engineering. It is a university study providing students with wide and deep theoretical as well as practical knowledge in the selected specialised branch. The list of all branches can be found on the faculty website ("Study plans"). Graduates may work e.g. in research and development fields, design and technology, manufacture and operation, as well as management, trade and services. They may occupy positions such as designers, members and leaders of development teams, project managers and the like. Career prospects depend on the selected branch of study. Admission requirements and access to further studies: Condition for admitting is obtaining a bachelor's degree.The graduates may continue in a doctoral study programme. Examination and assessment regulations, required practice: The respective rules and conditions are specified by the Dean's Regulation No. 7/2011. Required practice and its length may be specified by study plans. Conditions required in the course of study and the duly completion: Students have to complete all compulsory and compulsory-optional courses required by study plans (at least of 120 credits). Further conditions are given by the set of study... [-]

Master in Chemistry of Materials

University of Chemistry and Technology, Prague
Campus Full time 2 years September 2017 Czech Republic Prague

The programme has been designed to continue the education of graduates of Bachelor degree studies oriented towards materials sciences. The general knowledge gained at the Bachelor level is extended and deepened in courses focused mainly on physical chemistry of materials, materials engineering and materials technologies. [+]

Overview The programme has been designed to continue the education of graduates of Bachelor degree studies oriented towards materials sciences. The general knowledge gained at the Bachelor level is extended and deepened in courses focused mainly on physical chemistry of materials, materials engineering and materials technologies. Students may concentrate on individual groups of material by a proper choice of optional courses. Substantial part of studies is devoted to laboratory projects aimed at further development of students' capabilities of a self-reliant solution of research, design and technological problems. Careers The graduates can hold qualified positions in materials-oriented industries and in commercial companies. They are able to work both in production plants and in research, development and design institutions. The graduates easily adapt to changing conditions. The graduates are also prepared to continue their studies at the PhD level. [-]

Master in Mining Engineering

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

The Master’s studies in Mining Engineering enriches the knowledge gained in the specialized field and that increases the possibilities of advancement in the profession, especially to management grades. [+]

Best Masters in Materials Science in Czech Republic 2017. Study Branch Mining Branch Profile The Master’s studies in Mining Engineering enriches the knowledge gained in the specialized field and that increases the possibilities of advancement in the profession, especially to management grades. A graduate satisfies the conditions required by the Czech authorities for all official positions in mines and quarries in the Czech Republic. The course educates experts to work in the sphere of mining and in the processing of raw materials, including fossil fuels and metallic and non-metallic minerals. A graduate will be well-qualified to work in establishments engaged in civil engineering or to be employed as research workers working as state administration clerks in municipal offices and in regional authorities and ministries. After a successful graduation of the Master’s course, it is possible to continue in doctoral [Ph.D.] studies in the field of Mining or Mining Geomechanics. Key Learning Outcomes Knowledge On the basis of theoretical and practical experience, the graduate can apply their knowledge and expertise in mining, processing, and cleaning up the mining activities, as deep, and superficial way, then find application in energy, engineering companies and handlers of valuable minerals and companies that deal with landscaping work. Skills Graduate of the programme Mining can provide engineering, design and manage the exploratory phase of the preparation of deposits, mining engineering works, traffic management, rehabilitation and liquidation activity in higher levels of business management. General Competencies The Master's degree in Mining Engineering is conceived so that future... [-]

Master in European School for Brownfields Technical Redevelopment

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

The Master’s program of the European School for Technical Brownfields Redevelopment is an interdisciplinary 2 year study branch based on a combination of natural, economic and construction engineering sciences, including professional disciplines. The main aim of the branch is to prepare graduates to manage projects and work activities in the restoration and development of abandoned industrial areas, often called brownfields. [+]

Study Branch Mineral Raw Materials Branch Profile The Master’s program of the European School for Technical Brownfields Redevelopment is an interdisciplinary 2 year study branch based on a combination of natural, economic and construction engineering sciences, including professional disciplines. The main aim of the branch is to prepare graduates to manage projects and work activities in the restoration and development of abandoned industrial areas, often called brownfields. Teaching and education has a base in scientific disciplines such as mathematics, physics and chemistry. It is expected that a bachelor’s study graduate has such knowledge. The study plan is composed of the compulsory subjects and electives that enable tailoring studies according to interests and professional intentions. Individual courses are designed to give students theoretical and practical knowledge to the extent of master study. Theoretical knowledge from lectures is developed further in field work, seminars, colloquia and exercises. The case study solutions that are discussed and dealt with in the professional colloquium and practical field works have a significant role in the educational process. The case studies are created in order to help students develop professional, systematic and independent work. Key Learning Outcomes Knowledge Graduates are equipped with complex knowledge in the fields: Landscape and nature conservation, their components and functions, Technical restoration of functions of landscape segments, Environmental assessment of brownfields, Civil engineering and technical assessment, Economical and socio-economical assessment, Remediation and regeneration of areas, Consultancy and expert activities and Environmental protection and design. Graduates are able to use their knowledge and... [-]

Master in Thermal Engineering and Ceramic Materials

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

Master's degree course in Thermal Engineering and Ceramics follows the bachelor's program of the same name. Qualification subjects, compared to a bachelor's field, put more emphasis on the theoretical basis of the issues discussed, and a thorough elucidation of mutual connections of acquired knowledge. [+]

Best Masters in Materials Science in Czech Republic 2017. Study Branch Metallurgical Engineering Branch Profile Master's degree course in Thermal Engineering and Ceramics follows the bachelor's program of the same name. Qualification subjects, compared to a bachelor's field, put more emphasis on the theoretical basis of the issues discussed, and a thorough elucidation of mutual connections of acquired knowledge. A part of the field, besides components in the field of thermal technology and ceramic materials, are courses in metallurgy of steel and non-ferrous metals, steel materials, foundry, material engineering, economics and quality management. The aim of the study is education of experts, who are capable of dealing with the acquisition, use and management of energy, mostly thermal ones, even from non-traditional sources. In parallel, the aim of the study programme is the specialization of experts in the field of ceramic materials that are able to innovate the preparation technology, and decide about the application of materials in different conditions. Graduates are prepared to propose heat-technical equipment, especially in terms of energy savings and material composition with regard to environmental and economic aspects. Key Learning Outcomes Knowledge Graduates can characterize the technology of iron and steel foundry technology and forming technology of ferrous and non-ferrous metals. Control the principles of the technology of iron and the steel foundry technology, and the technology of forming materials. Graduates is acquainted with the nature of combustion processes, thermal processes modeling and equipment balances and optimization of thermal plants by using waste energy, determination of... [-]

Master in Modern Metallurgical Technologies

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

The Master's Study Branch Modern Metallurgical Technology is designed as a modern study branch aimed at training professionals for current and highly sophisticated metallurgical technologies, covering in detail the issues of theory and technology of production, casting and processing of iron and steel or their forming, including the forming of non-ferrous metals and/or foundry of alloys based on both iron and non-ferrous metals. [+]

Study Branch Metallurgical Engineering Branch Profile The Master's Study Branch Modern Metallurgical Technology is designed as a modern study branch aimed at training professionals for current and highly sophisticated metallurgical technologies, covering in detail the issues of theory and technology of production, casting and processing of iron and steel or their forming, including the forming of non-ferrous metals and/or foundry of alloys based on both iron and non-ferrous metals. In addition to these specialization areas, all graduates receive knowledge from the field of technical materials, industrial furnaces, preparation of non-ferrous metals and alloys, methods of planning and quality enhancement as well as managerial economics. Theoretical knowledge is complemented with a number of additional laboratory and computing practical exercises, in which the current laboratory technology is applied, and which address tasks related to metallurgical processes and their modelling. Theses are mainly focused on the selected study branches, or also partially extend to related study branches, such as Thermal Engineering and Ceramic Materials, or Materials Engineering. The study branch has a unique position in the structure of study fields at Czech universities. Key Learning Outcomes Knowledge Graduates can characterize advanced and contemporary technologies of iron and steel production, foundry technology and forming technology of ferrous and non-ferrous metals. They have a good command of the technological principles of the iron and steel production, foundry technology and technology of materials forming. Based on their professional specialization, consisting of an appropriate choice of study courses, graduates are able to demonstrate a more profound knowledge... [-]

Master in Advanced Engineering Materials

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

In the Master’s study programme students firm and fill knowledge and skills acquired during bachelor study. Furthermore, they gain further knowledge and skills to be able to understand the depth and breadth of engineering materials in interrelationships. [+]

Best Masters in Materials Science in Czech Republic 2017. Study Branch Materials Engineering Branch Profile The new Master’s study branch Advanced Engineering Materials in the study programme Materials Engineering is based on the integration of three former study branches: Engineering Materials, Materials Diagnostics and Design, Non-Ferrous Metals and Special Alloys. These study branches represented the principal study branches in the study programme Materials Engineering in the past. The Master’s study branch Advanced Engineering Materials picks up on the study branch having the same name in the bachelor study programme. In the Master’s study programme students firm and fill knowledge and skills acquired during bachelor study. Furthermore, they gain further knowledge and skills to be able to understand the depth and breadth of engineering materials in interrelationships. The conception of the new study branch is the following: There are fundamental subjects such as Physics of Solids, Phase Transformations, Degradation Processes of Materials, Surface Engineering, Computer Simulation and Modelling in Materials Engineering. These subjects are suitably combined with other subjects in order to fulfil the learning outcomes given hereinafter. It can be assumed that the new Master’s study branch Advanced Engineering Materials will become the most important study branch in the Master’s study programme Materials Engineering. Key Learning Outcomes Knowledge Graduates will have gained a deep knowledge of the subjects that represent an applied base of the study branch, e.g. physics of solids, phase transformations, degradation processes of materials, surface engineering etc. in such a level, which makes possible their application in... [-]