study programme

Physical and Building Materials Engineering

Original title in Czech: Fyzikální a stavebně materiálové inženýrstvíFaculty: FCEAbbreviation: DPC-MAcad. year: 2021/2022

Type of study programme: Doctoral

Study programme code: P0732D260024

Degree awarded: Ph.D.

Language of instruction: Czech

Accreditation: 8.10.2019 - 8.10.2029

Mode of study

Full-time study

Standard study length

4 years

Programme supervisor

Doctoral Board

Fields of education

Area Topic Share [%]
Civil Engineering Building Materials, Mechanics and Properties of Particulate Matter 100

Study aims

The aim of the doctoral study program Physical and Building Materials Engineering is to provide outstanding graduates of the master's degree with specialized university education and scientific training in selected current areas of the field. The study is focused on complex scientific preparation, methodology of independent scientific work and on the development of knowledge in the field of the theory of building materials. and remediation of materials and structures, measuring and diagnostic methods, modeling of physical processes and tasks of building physics. The scientific preparation in this study program is based on mastering the initial theoretical disciplines of the natural science base and theoretical and scientific disciplines of the relevant focus.
The aim of the study is also the involvement of students in the preparation and solution of national and international scientific research projects, presentation of achieved results at national and international scientific and professional conferences and their publishing in professional and scientific foreign and domestic journals. During his / her studies, the student gains new theoretical knowledge, his / her own experience from the preparation, implementation and evaluation of experiments and necessary practical knowledge also thanks to close cooperation with construction practice and also through completion of at least one internship abroad at a cooperating foreign university or other research institute.

Graduate profile

Graduates of the doctoral study program Physical and Buillding Materials Engineering are, after successful completion of the highest form of university study, professionally prepared and equipped for solving theoretical and practical tasks within the wide area of ​​production and testing of building materials. Based on the acquired knowledge, experience, skills and knowledge, it is ready for scientific and creative activities, both independently and in teams at national and international level. Thanks to the current trends in the field of building materials development and close cooperation of the branch with foreign universities, the graduate of the doctoral study program fulfills the prerequisites for further professional career and professional academic growth, even abroad. During his / her studies, the graduate practically acquires and acquires pedagogical abilities, which he / she can use during pedagogical-scientific activities at educational institutions dealing with the issue of building materials in the Czech Republic and thanks to acquired language knowledge also abroad.

Profession characteristics

Graduate of the PhD study program Physical and Building Materials Engineering is ready to apply in development, research, creative engineering solution of problems concerning: design of building materials, their development, innovations, standard and new progressive technologies of production, testing and verification of their properties ; optimal application of building materials in building structures; durability monitoring methods; building technical survey and diagnostic methods; the design of remediation procedures up to the issues of recycling of end-of-life materials.
Graduate gains knowledge in the field of theoretical knowledge of construction (microstructure of building materials, physical chemistry of building materials, durability and remediation of building materials, etc.), economic and ecological aspects of production technology, statistics, scientific work and also new own experience from preparation, realization and evaluation necessary experiments and necessary practical knowledge. Emphasis is placed on research and cooperation with practice in the field of new progressive materials and technologies, the use of secondary raw materials as alternative raw materials resources contributing to the development of environmentally friendly technologies while contributing to the reduction of input and production costs. Within the framework of the acquired skills, the graduate is able to solve complex construction-technical and managerial problems in the building materials industry or their application on construction sites of various character, is able to apply in top management and marketing in the field of construction. At the same time, the graduate is capable of independent scientific research and independent creative work in the field of research and development of new building materials.
The graduate has competence for wide application in the field of production technology of all kinds of building materials (eg mortars, ceramics, concrete, components, composite materials, polymers and other building materials). In practice and in research teams, it has a profound and systematic knowledge and understanding of theories, concepts and methods. The graduate is able to manage demanding professional technical activities and bear responsibility for their quality and for professional management of individuals and groups. Its knowledge of foreign languages ​​in the area of ​​its expertise is a prerequisite for eventual work abroad. After fulfilling the length of practice and legal conditions, he can also be authorized by ČKAIT as a civil engineer in the field of Testing and Diagnostics of Buildings, Energy Auditing or in the field of Technological Equipment of Buildings. Ongoing active scientific activity is also a prerequisite not only to achieve the ability to communicate intelligently and convincingly own knowledge in the field to other members of the scientific community at international level and to the general public, but also to the possible employment of graduates as academic and scientific researchers of universities, research institutions and expert institutes with the possibility of career and professional growth.

Fulfilment criteria

Fulfillment of the subjects of the individual study plan, successful completion of the state doctoral examination, foreign experience, relevant creative activity and successful defense of the dissertation.

Study plan creation

The rules and conditions for the creation of study plans of study programs carried out at the Faculty of Civil Engineering of the BUT define:
Rules of BUT study programs (www.vutbr.cz/uredni-deska/vnitrni-predpisy-a-dokumenty), which according to Article 1, paragraph 1, point:
c) defines the processes of creation, approval and changes of study program proposals before their submission for accreditation to the National Accreditation Office for Higher Education,
d) lays down the formal requirements for study programs and courses,
e) defines the obligations of study program and subject guarantors,
f) defines the standards of study programs at BUT,
g) defines the principles of quality assurance of study programs.
Study and Examination Regulations of the Brno University of Technology (www.vutbr.cz/uredni-deska/international-details-and-documents)
Details of the conditions for study at the Faculty of Civil Engineering of the BUT are governed by the Dean's Directive )
The PhD student studies according to an individual study plan, which is elaborated by the supervisor in cooperation with the PhD student. The individual study plan is binding for the doctoral student. It specifies all duties set in accordance with the BUT Study and Examination Regulations that a doctoral student must fulfill in order to successfully complete his / her studies.
During the first three semesters, the doctoral student consists of compulsory, compulsorily elective or at the same time, it is intensively engaged in its own study and analysis of knowledge in the field determined by the topic of the dissertation and continuous publication of the knowledge and results obtained in this way. In the following semesters, the doctoral student focuses more on research and development related to the topic of the dissertation, on the publication of the results of his / her creative work and on his / her own dissertation. By the end of the fifth semester, the doctoral student has passed the state doctoral examination. The doctoral student is also involved in pedagogical activities, which is a part of his scientific preparation.
The individual study plan includes scientific outputs in individual years:
- regular publishing activity (Juniorstav and similar),
- participation in scientific conferences at home and abroad,
- for defense of DZP it is necessary to publish - min. 2x Scopus or 1x WOS with impact factor.

Availability for the disabled

At the Faculty of Civil Engineering, BUT, barrier-free access to all teaching rooms is currently provided. However, students must be physically fit to be qualified as a civil engineer. In practically oriented laboratory teaching, they must be able to operate measuring instruments and similar laboratory equipment independently without endangering themselves or their surroundings.
BUT provides support to students with specific needs, for details see Guideline 11/2017 (www.vutbr.cz/uredni-deska/international-documents-and-documents/-d141841/uplne-zneni-smernice-c-11- 2017-p147550).
In order to promote equal access to higher education, BUT incorporates the Alfons Advisory Center, part of the BUT Institute of Lifelong Learning, to provide guidance and support services to applicants and students with specific educational needs. Specific educational needs include learning disabilities, physical and sensory disabilities, chronic somatic illness, autistic spectrum disorders, impaired communication skills and mental illness (alfons.vutbr.cz/o-nas).
Students are provided with information concerning the accessibility of study programs with respect to the specific needs of the applicant, information about the architectural accessibility of individual faculties and university parts, about accommodation at the BUT dormitory, about the possibilities of adapting the admission procedure and adapting the study itself. Other services of the Center for Students with Special Educational Needs also include interpreting and rewriting services, or assistance services - guiding, spatial orientation, in order to enable these students to demonstrate their skills and knowledge in the same way as other students. This is done through the so-called adaptation of study, ie by appropriate adjustment of the study regime, which cannot be understood as a simplification of the content of study or relief of study obligations.

What degree programme types may have preceded

The doctoral study program Physical and Building Materials Engineering is a follow-up to the follow-up master's study program Civil Engineering, especially the study field Civil Engineering Material Engineering, respectively. as well as other fields of study and nursing master's degree programs. After accreditation of the follow-up master's study program Civil Engineering - Building Materials and Technologies for this program.

Issued topics of Doctoral Study Program

  1. Development of environmentally friendly concrete - Green Concrete

    The topic of the doctoral study is focused on the development of concretes with reduced impacts on the environment while maintaining their durability and useful properties. The basic goal will be to reduce the carbon footprint in the production of concrete of different strength classes and for different degrees of environmental impact. This means significantly reducing Portland cement batches by using secondary raw materials with pozzolanic properties such as finely ground concrete or brick dust. Further reduce the consumption of natural aggregates by replacing them with recycled concrete or brick. An important factor in the experimental verification of concrete recipes will be, in addition to achieving the required physical - mechanical properties, also proving their longevity for operation in various aggressive environments.

    Tutor: Hela Rudolf, prof. Ing., CSc.

2. round (applications submitted from 05.10.2021 to 15.12.2021)

  1. Development of environmentally friendly concrete - Green Concrete

    The topic of the doctoral study is focused on the development of concretes with reduced impacts on the environment while maintaining their durability and useful properties. The basic goal will be to reduce the carbon footprint in the production of concrete of different strength classes and for different degrees of environmental impact. This means significantly reducing Portland cement batches by using secondary raw materials with pozzolanic properties such as finely ground concrete or brick dust. Further reduce the consumption of natural aggregates by replacing them with recycled concrete or brick. An important factor in the experimental verification of concrete recipes will be, in addition to achieving the required physical - mechanical properties, also proving their longevity for operation in various aggressive environments.

    Tutor: Hela Rudolf, prof. Ing., CSc.

  2. Development of environmentally friendly concrete - Green Concrete

    The topic of the doctoral study is focused on the development of concretes with reduced impacts on the environment while maintaining their durability and useful properties. The basic goal will be to reduce the carbon footprint in the production of concrete of different strength classes and for different degrees of environmental impact. This means significantly reducing Portland cement batches by using secondary raw materials with pozzolanic properties such as finely ground concrete or brick dust. Further reduce the consumption of natural aggregates by replacing them with recycled concrete or brick. An important factor in the experimental verification of concrete recipes will be, in addition to achieving the required physical - mechanical properties, also proving their longevity for operation in various aggressive environments.

    Tutor: Hela Rudolf, prof. Ing., CSc.

  3. Development of 3D concrete printing technology

    The dissertation will deal with the development of 3D printing technology with cement composites. The main goal will be the development of cement composite recipes with different maximum filler grains up to 11 mm. Furthermore, the possibility of controlling thixotropy in the fresh state at the exit of the print head and subsequently accelerating solidification and hardening using chemical accelerators. A range of recipes will be developed for printing simple elements of concrete garden architecture up to the printing of building walls. At the same time, methods for monitoring rheological properties during the mixing process and methods for testing the micro-strength of the printed layer will be proposed.

    Tutor: Hela Rudolf, prof. Ing., CSc.

  4. Effect of burning cycle on the microstructure of refractories of two-component system Al2O3-SiO2.

    The aim of this PhD thesis is to study the influence of temperature and heat on the resulting microstructure of material. The density of the material, pore structure, mineralogical composition and internal structure of the material will be analyzed on the available high-end devices, which requires mastering the work with these devices as well.

    Tutor: Nevřivová Lenka, Ing., Ph.D.

  5. Hydration of brick body

    Calcareous (carbonate) brick clays are the predominant basic raw material for brick production. By finding the optimal firing conditions of brick clays (depending on their chemical and mineralogical composition) it is possible to achieve the maximum positive effect of fired body hydration, which can be manifested mainly by increasing in strength, sound reduction index, frost resistance and reducing its water permeability. It is also necessary to define the hydration conditions (time, temperature).

    Tutor: Sokolář Radomír, doc. Ing., Ph.D.

  6. Nondestructive testing methods as a tool to evaluate the characteristics of masonry units

    The goal is to create conditions for the detection of single parameters of building materials using nondestructive testing methods. Preference will be test-rebound hardness testing method, ultrasonic impulse method and resonance method

    Tutor: Brožovský Jiří, doc. Ing., CSc.

  7. Novel admixtures designed for alkali-activated materials

    The aim of the topic of the dissertation is the development of noval organic additives for alkali-activated materials. Existing admixtures used in concrete have either no or little effect on the technological properties of alkali-activated materials. Following the application of new technologies, such as 3D printing, and for a wider use of these materials in practice, it is necessary to develop new modifying admixtures. The main part of the work will be devoted to the influence of admixtures on the rheological properties of fresh pastes and the study of the principle of their action. Furthermore, the influence on the microstructure of the binder and the mechanical properties will be determined.

    Tutor: Rovnaník Pavel, doc. RNDr., Ph.D.

  8. Problems reusing waste thermal insulation in building constructions

    The work is a contribution in the field of sustainable development in construction and is specifically focused on research into the use of recycled waste plastics, for use in building elements, such as ceramic fittings. The scope of work is the study of properties and processing of recycled waste and optimization of their useful properties for use in building elements.

    Tutor: Šťastník Stanislav, prof. RNDr. Ing., CSc. Ph.D.

  9. Properties and utilization of materials for solar heat storage tank

    The efficiency and utility features solar heat storage tank are bound to used heat-storage materials and method of use of the internal energy. Temperature determines the rate of working fluid losses. The object of study are suitable materials for the construction of a solar heat storage tank (sensible heat, phase change materials), their physical properties. The objective is to model, as well as experimental evidence functionality.

    Tutor: Šťastník Stanislav, prof. RNDr. Ing., CSc. Ph.D.

  10. Radiative heat transfer in interiors of buildings

    The recent building thermal technology determines heat losses on the basis of thermal conduction through the envelopes of buildings. There is a possibility to generalize the procedure and to include the transfer of radiative and convective heat transfers. This represents a complex ab initio computation. The radiative and convective heat transfers may be coupled and a system of transcendent equations may be formed. Such a system may be solved e.g. by the Newton iterative method. The Ph.D. thesis should be aimed at creating a general procedure for such computations and applying it to a chosen room of a family house.

    Tutor: Ficker Tomáš, prof. RNDr., DrSc.

  11. Research of the polymer systems for repair and bonding of cast basalt elements with higher durability

    Highly durable polymer reprofiling and adhesive materials for repairing and bonding of the existing structures of cast basalt elements, which require a unique polymer system, will be investigated within this work. Materials that will show high adhesion to the repaired elements, and their properties will be as close as possible to the properties of the original elements, will be results of the research. The advantage will be the possibility of using the most modern laboratory methods and equipments for the utilization of progressive, either primary or secondary raw materials to increase the overall useful properties of the developed materials. It is necessary to verify the compatibility of the used binders and fillers by means of planned experiments, which may lead to a decrease or increase of some resulting utility parameters, by compiling a wide range of considered input primary and secondary raw materials.

    Tutor: Drochytka Rostislav, prof. Ing., CSc., MBA, dr. h. c.

  12. Study modules of elasticity of building materials using nondestructive testing methods

    The objectives of the work is the study and creation of conditions for identifying modules of elasticity of various building materials, new types of concrete, repair materials, brick body, etc. Determine the relationship between the dynamic modules of NDT and static modules of elasticity

    Tutor: Brožovský Jiří, doc. Ing., CSc.

  13. Study of pozzolanic properties of phyllosilicates useful for the production of blended cements

    The aim of the work will be research in the field of technologies for the use, processing and evaluation of alternative sources of mineral raw materials for the preparation of blended cements. The intention is to find ways of reducing the clinker factor in the production of inorganic binders with a low carbon footprint.

    Tutor: Dvořák Karel, doc. Ing., Ph.D.

  14. Study of processes for hygrothermal modification of wood

    The dissertation will deal with the optimization process of wood modification processes, which can reduce the volume changes of wood, increase the biological resistance and hardness or increase UV stability of wood. These will be processes involving thermal treatment of wood associated with its chemical modification (especially saturation with resins). The resulting properties of the modified wood will be verified using a complex of physical-mechanical and microscopic tests confirming the effectiveness of the selected type of modification.

    Tutor: Vaněrek Jan, doc. Ing., Ph.D.

  15. Study of the possibilities of using recycled fillers as a substitute for natural aggregates

    The topic of the dissertation will focus on the study of the possibilities of using recycled coarse aggregates arising from the demolition of old buildings as a possible replacement for conventional natural aggregates for the production of concrete. The potential to replace natural resources of aggregates from the demolition of buildings could largely replace deficit natural resources. These are mainly brick and concrete recycled fractions of 4 to 22 mm. The work will address the issue of sorting, crushing of construction demolition waste for the production of commonly used fractions. The breadth of possible replacement of natural resources with an impact on both mechanical and durability parameters of concrete will be tested experimentally on concrete recipes up to strength classes C30 / 37.

    Tutor: Hela Rudolf, prof. Ing., CSc.

  16. Study of the properties of silicate composites with increased electrical conductivity

    The subject of the dissertation is to develop an electrically conductive cement composite with such properties that will enable its heating by the effect of an electric current through logically assembled steps. This will be achieved by choosing suitable feedstocks, especially electrically conductive carbon-based fillers. Furthermore, the possibilities of material temperature regulation and its use in the system for melting snow and ice even at temperatures far below freezing will be studied. The influence of the passing electric current on the microstructure of the composite will also be monitored from a long-term point of view of use, as well as ambient conditions, especially temperatures in the range of -25 ° C to 60 ° C, mechanical stress and humidity.

    Tutor: Drochytka Rostislav, prof. Ing., CSc., MBA, dr. h. c.

  17. The development of materials based on alternative silicate matrices with high utility properties

    The topic of the work is the development of composite materials with specific types of inorganic binders, such as matrices based on alkali-activated materials. Apart from natural materials, a number of industrial wastes can be effectively used as a precursor in the formation of alkali-activated matrix, such as power plant fly ash, slag, etc. The aim is to use specific properties of alkali-activated matrices, such as to make the developed materials applicable under conditions of extreme stress.

    Tutor: Dufka Amos, Ing., Ph.D.

  18. The grogs for brickmaking production

    Development of new grogs for brickmaking technology based on brick abrasive powders and fly ash. Technology of grog packaging on a granulation plate. Influence of developed grogs on the properties of brick body.

    Tutor: Sokolář Radomír, doc. Ing., Ph.D.

  19. The monitoring behavior of building materials under mechanical loading by acoustic emission method

    Acoustic Emission Method is an unusual technique which describes only active defects or changes into structure arising as a consequence dangerous tension into structure. The method is appropriate to be used in homogenous structures as metal structures when cracks are highly active (generates sound). Its application in civil engineering is not so much used because building structures are inhomogeneous. Application the Matlab program to evaluate the results.

    Tutor: Pazdera Luboš, prof. Ing., CSc.

  20. The study of the thermal insulation properties the thin air layers with reflective surfaces

    Study the properties of thermal insulation on basis termal-reflective foils and their use in construction, passive and energy-saving houses, production halls, sports facilities etc. The subject is the study of transport phenomena of heat insulators, physical properties and comparing with conventional insulators. Theme includes validation of design methods installation thermal insulation in buildings.

    Tutor: Šťastník Stanislav, prof. RNDr. Ing., CSc. Ph.D.

  21. The use of acoustic methods for non-destructive testing of bridge structures with prestressing wires

    The aim of this work is to develop a methodology for non-destructive testing of bridge structures with prestressing wires. The Impact-echo method and the acoustic emission method when loading the structure will be used to assess the condition.

    Tutor: Chobola Zdeněk, prof. RNDr., CSc.

  22. The Use of acoustic methods for non-destructive testing of polymer-fiber-reinforced concrete degraded by high-temperature

    The aim of the project is to develop a methodology for non-destructive testing of concrete with polymeric fibers degraded by high temperature. The benefits of polymer fibers are that they burn out in the event of a fire, allowing water vapor to exit, which usually causes damage to or destruction of concrete structures. To assess the state of the concrete degraded by high temperatures we use acoustic methods such as acoustic emission , frequency inspection and nonlinear ultrasonic detection.

    Tutor: Chobola Zdeněk, prof. RNDr., CSc.

  23. The use of non-destructive methods for building materials to optimize the dosage of conductivity admixtures to enhance the sensoric properties.

    In the cement and non-cement based samples the change of impedance characteristics will be monitored and interpreted using the Debye dielectric theory. The main goal is to optimize the dosage of conductivity admixtures (graphite, soot, CNT) in the base matrix to reach the optimum parameters measurable using methods based on electromagnetism. It is also critical not to decrease the strength of the material (in pressure and tension) and to find the percolation threshold.

    Tutor: Kusák Ivo, doc. Mgr., Ph.D.

  24. Use of Sol-Gel Method for Thermal Insulation Refractory Materials Production

    One of the modern directions for obtaining high quality products is the application of the sol-gel method in the manufacture of refractory materials. It is a low temperature method for the preparation of glass and ceramic materials by chemical polymerization. The advantages of using these gels are, for example, chemical purity and homogeneity, void content, low production temperature, ability to produce new chemical composition, corrosion resistance and increased mechanical resistance.

    Tutor: Nevřivová Lenka, Ing., Ph.D.

  25. Using methods of nonlinear acoustic spectroscopy for nondestructive testing of concrete damaged by high temperatures

    Based on the study of nonlinear acoustic effects, new defectoscopic and diagnostic methods have been proposed, some of which are potentially also suitable for defectoscopy of building materials. There are a number of these methods. The aim of the work will be the selection of suitable methods of nonlinear acoustic spectroscopy, construction of measuring devices and experimental verification of their usability for non-destructive testing of concrete damaged by high temperatures.

    Tutor: Matysík Michal, Ing., Ph.D.

1. round (applications submitted from 09.06.2021 to 31.07.2021)

  1. Analysis of methods for measuring humidity in building structures

    Study of moisture propagation in building structures, description of liquid phase and water vapor propagation through the pore system of building materials under various boundary conditions, experimental verification of moisture status by measurement. As part of the study, the student will get acquainted with modern ways of describing both the environment for the spread of the environment and the boundary conditions valid for the Central European climate.

    Tutor: Šťastník Stanislav, prof. RNDr. Ing., CSc. Ph.D.

  2. Application of computer tomography in acoustic testing of building materials

    Acoustic tomography is a method that makes possible to localize inhomogeneities in medium under investigation. The objective of the study consists in calculating cavities in materials by means of acoustic tomography methods and determining the resolution power of these methods.

    Tutor: Martinek Jan, doc. Mgr., Ph.D.

  3. Cement based composites with a high content of secondary raw materials for demanding exposure conditions

    The work will be focused on the research of cement composite with a high amount of secondary raw materials for demanding conditions of exposure. It will have to meet high standards of resistance to chemical and mechanical stress. An important aspect will be the high proportion of secondary raw materials in the mixture. Main goal of the thesis is to replace up to 100% of filler and 50% of binder while maintaining high composite resistance.

    Tutor: Drochytka Rostislav, prof. Ing., CSc., MBA, dr. h. c.

  4. Effect of burning cycle on the microstructure of refractories of two-component system Al2O3-SiO2.

    The aim of this PhD thesis is to study the influence of temperature and heat on the resulting microstructure of material. The density of the material, pore structure, mineralogical composition and internal structure of the material will be analyzed on the available high-end devices, which requires mastering the work with these devices as well.

    Tutor: Nevřivová Lenka, Ing., Ph.D.

  5. Hydration of brick body

    Calcareous (carbonate) brick clays are the predominant basic raw material for brick production. By finding the optimal firing conditions of brick clays (depending on their chemical and mineralogical composition) it is possible to achieve the maximum positive effect of fired body hydration, which can be manifested mainly by increasing in strength, sound reduction index, frost resistance and reducing its water permeability. It is also necessary to define the hydration conditions (time, temperature).

    Tutor: Sokolář Radomír, doc. Ing., Ph.D.

  6. Properties and utilization of materials for solar heat storage tank

    The efficiency and utility features solar heat storage tank are bound to used heat-storage materials and method of use of the internal energy. Temperature determines the rate of working fluid losses. The object of study are suitable materials for the construction of a solar heat storage tank (sensible heat, phase change materials), their physical properties. The objective is to model, as well as experimental evidence functionality.

    Tutor: Šťastník Stanislav, prof. RNDr. Ing., CSc. Ph.D.

  7. Radiative heat transfer in interiors of buildings

    The recent building thermal technology determines heat losses on the basis of thermal conduction through the envelopes of buildings. There is a possibility to generalize the procedure and to include the transfer of radiative and convective heat transfers. This represents a complex ab initio computation. The radiative and convective heat transfers may be coupled and a system of transcendent equations may be formed. Such a system may be solved e.g. by the Newton iterative method. The Ph.D. thesis should be aimed at creating a general procedure for such computations and applying it to a chosen room of a family house.

    Tutor: Ficker Tomáš, prof. RNDr., DrSc.

  8. Study of pozzolanic and hydraulic properties of phyllosilicate rocks

    The aim of the work will be research in the field of technologies for the use, processing and recovery of tailings after the extraction of ore minerals in combination with available energy by-products. The intention is to find their utilization in the production of inorganic binders with a low carbon footprint.

    Tutor: Dvořák Karel, doc. Ing., Ph.D.

  9. Study of the possibilities of using recycled fillers as a substitute for natural aggregates

    The topic of the dissertation will focus on the study of the possibilities of using recycled coarse aggregates arising from the demolition of old buildings as a possible replacement for conventional natural aggregates for the production of concrete. The potential to replace natural resources of aggregates from the demolition of buildings could largely replace deficit natural resources. These are mainly brick and concrete recycled fractions of 4 to 22 mm. The work will address the issue of sorting, crushing of construction demolition waste for the production of commonly used fractions. The breadth of possible replacement of natural resources with an impact on both mechanical and durability parameters of concrete will be tested experimentally on concrete recipes up to strength classes C30 / 37.

    Tutor: Hela Rudolf, prof. Ing., CSc.

  10. Study of the possibility of using secondary raw materials for the production of building materials

    The utilization of industrial wastes especially from energetic sources, as secondary raw materials, represents a long-standing ecological problem. At present, there is a lack of natural materials used for building materials production. Possibilities of these wastes broader applications, are searched out and evaluated, especially in the frame of the building industry and building materials production. Simultaneously the theoretical and application sources are processed in the scope of the problem solution as special base for environmental and economical studies.

    Tutor: Kulísek Karel, doc. Ing., CSc.

  11. The monitoring behavior of building materials under mechanical loading by acoustic emission method

    Acoustic Emission Method is an unusual technique which describes only active defects or changes into structure arising as a consequence dangerous tension into structure. The method is appropriate to be used in homogenous structures as metal structures when cracks are highly active (generates sound). Its application in civil engineering is not so much used because building structures are inhomogeneous. Application the Matlab program to evaluate the results.

    Tutor: Pazdera Luboš, prof. Ing., CSc.

  12. The study of the thermal insulation properties the thin air layers with reflective surfaces

    Study the properties of thermal insulation on basis termal-reflective foils and their use in construction, passive and energy-saving houses, production halls, sports facilities etc. The subject is the study of transport phenomena of heat insulators, physical properties and comparing with conventional insulators. Theme includes validation of design methods installation thermal insulation in buildings.

    Tutor: Šťastník Stanislav, prof. RNDr. Ing., CSc. Ph.D.

  13. The use of acoustic methods for non-destructive testing of bridge structures with prestressing wires

    The aim of this work is to develop a methodology for non-destructive testing of bridge structures with prestressing wires. The Impact-echo method and the acoustic emission method when loading the structure will be used to assess the condition.

    Tutor: Chobola Zdeněk, prof. RNDr., CSc.

  14. The use of non-destructive methods for building materials to optimize the dosage of conductivity admixtures to enhance the sensoric properties.

    In the cement and non-cement based samples the change of impedance characteristics will be monitored and interpreted using the Debye dielectric theory. The main goal is to optimize the dosage of conductivity admixtures (graphite, soot, CNT) in the base matrix to reach the optimum parameters measurable using methods based on electromagnetism. It is also critical not to decrease the strength of the material (in pressure and tension) and to find the percolation threshold.

    Tutor: Kusák Ivo, doc. Mgr., Ph.D.

  15. Use of Sol-Gel Method for Thermal Insulation Refractory Materials Production

    One of the modern directions for obtaining high quality products is the application of the sol-gel method in the manufacture of refractory materials. It is a low temperature method for the preparation of glass and ceramic materials by chemical polymerization. The advantages of using these gels are, for example, chemical purity and homogeneity, void content, low production temperature, ability to produce new chemical composition, corrosion resistance and increased mechanical resistance.

    Tutor: Nevřivová Lenka, Ing., Ph.D.

  16. Using methods of nonlinear acoustic spectroscopy for nondestructive testing of concrete damaged by high temperatures

    Based on the study of nonlinear acoustic effects, new defectoscopic and diagnostic methods have been proposed, some of which are potentially also suitable for defectoscopy of building materials. There are a number of these methods. The aim of the work will be the selection of suitable methods of nonlinear acoustic spectroscopy, construction of measuring devices and experimental verification of their usability for non-destructive testing of concrete damaged by high temperatures.

    Tutor: Matysík Michal, Ing., Ph.D.

Course structure diagram with ECTS credits

1. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DJA044Doctoral Seminar 1 (FMI)cs4CompulsoryCrC1 - 39yes
DYA004English Language Tutorial for PhD Studentscs1CompulsoryCrC1 - 26yes
DJB045Microstructure of Building Materialscs8Compulsory-optionalExP - 395798yes
DJB047Theoretical grounds of fired building materialscs8Compulsory-optionalExP - 395798yes
DVB067Price theorycs8Compulsory-optionalExP - 395798yes
DAB029Discrete Methods in Civil Engineering 1cs4Compulsory-optionalCrP - 395799yes
DAB030Numerical methods 1cs4Compulsory-optionalCrP - 395799yes
DAB031Probability and mathematical statisticscs4Compulsory-optionalCrP - 395799yes
DBB014Physics of materialscs8Compulsory-optionalExP - 395800yes
DCB010Physical chemistry of silicatescs8Compulsory-optionalExP - 395800yes
DBB015Synergy of building materialscs8Compulsory-optionalExP - 395800yes
DJB046Teoretical elements of Composite Materialscs8Compulsory-optionalExP - 395800yes
DJB048Theoretical fundamentals of silicates technologycs8Compulsory-optionalExP - 395800yes
DJB049Theory of Optimization of Building Materials Usecs8Compulsory-optionalExP - 395800yes
DJB050Theory of Durability and Concrete Rahabilitaioncs8Compulsory-optionalExP - 395800yes
2. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DJA051Doctoral Seminar 2 (FMI)cs8CompulsoryCrC1 - 78yes
DAB032Time series analysiscs10Compulsory-optionalExP - 395802yes
DAB033Applications of mathematical methods in economicscs10Compulsory-optionalExP - 395802yes
DAB034Discrete Methods in Civil Engineering 2cs10Compulsory-optionalExP - 395802yes
DAB035Numerical methods 2cs10Compulsory-optionalExP - 395802yes
DAB036Numerical methods for the variational problemscs10Compulsory-optionalExP - 395802yes
DAB037Models of regressioncs10Compulsory-optionalExP - 395802yes
DJB052Environmental Systems of Building Materials Production and Utilizationcs8Compulsory-optionalExP - 395803yes
DIB022Nondestructive diagnostics methods of testing materials and structurescs8Compulsory-optionalExP - 395803yes
DJB053Concrete Rheologycs8Compulsory-optionalExP - 395803yes
DBB016Acoustic method for nondestructive testingcs8Compulsory-optionalExP - 395803yes
2. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DYA005English for PhD studentscs8CompulsoryExyes
DJA054Doctoral Seminar 3 (FMI)cs8CompulsoryCrC1 - 78yes
3. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DJA055Doctoral Seminar 4 (FMI)cs8CompulsoryCrC1 - 78yes
3. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DJA056Doctoral Seminar 5 (FMI)cs14CompulsoryCrC1 - 78yes
4. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DJA057Doctoral Seminar 6 (FMI)cs14CompulsoryCrC1 - 78yes
4. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DJA058Doctoral Seminar 7 (FMI)cs20CompulsoryCrC1 - 78yes
All the groups of optional courses
Gr. Number of courses Courses
5798 min. 1 DJB045, DJB047, DVB067
5799 min. 1 DAB029, DAB030, DAB031
5800 min. 1 DBB014, DCB010, DBB015, DJB046, DJB048, DJB049, DJB050
5802 min. 1 DAB032, DAB033, DAB034, DAB035, DAB036, DAB037
5803 min. 1 DJB052, DIB022, DJB053, DBB016