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Optimal production strategy of the chosen company in the area of mechanical engineering
Brachtlová, Veronika ; Průša, Přemysl (advisor) ; Všetečková, Dana (referee)
The topic of this diploma thesis is "Optimal production strategy of the chosen company in the area of mechanical engineering" - namely the EUTECH join stock company, or more precisely its toolshop division, which deals with the manufacture of injection moulds, parts and production of special devices for aircraft industry. The aim of the paper is to evaluate, according to the defined factors, what is for the EUTECH join stock company more favourable - invest in purchase of the 5-Axis CNC machining center technology and deal with this process inside of the company or ensure this technology in cooperation with another companies. The thesis is divided into two main parts - theoretical and practical. In the theoretical part, the subjects of operation management theory and production are dealt with. The practical part deals with the production strategy of the EUTECH join stock company, or more precisely of its toolshop division in detail. The company is briefly introduced, the situational analysis of division toolshop is conducted and the production process of the company is examined. The final chapter deals with the use of cooperation in the toolshop division. The main and other factors affecting the choice of "product or sell" strategy are evaluated and consequently is decided which strategy is in case of the 5-Axis CNC machining center technology more favourable.
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STRAIN ENGINEERING OF THE ELECTRONIC STRUCTURE OF 2D MATERIALS
del Corro, Elena ; Peňa-Alvarez, M. ; Morales-García, A. ; Bouša, Milan ; Řáhová, Jaroslava ; Kavan, Ladislav ; Kalbáč, Martin ; Frank, Otakar
The research on graphene has attracted much attention since its first successful preparation in 2004. It possesses many unique properties, such as an extreme stiffness and strength, high electron mobility, ballistic transport even at room temperature, superior thermal conductivity and many others. The affection for graphene was followed swiftly by a keen interest in other two dimensional materials like transition metal dichalcogenides. As has been predicted and in part proven experimentally, the electronic properties of these materials can be modified by various means. The most common ones include covalent or non-covalent chemistry, electrochemical, gate or atomic doping, or quantum confinement. None of these methods has proven universal enough in terms of the devices' characteristics or scalability. However, another approach is known mechanical strain/stress, but experiments in that direction are scarce, in spite of their high promises.\nThe primary challenge consists in the understanding of the mechanical properties of 2D materials and in the ability to quantify the lattice deformation. Several techniques can be then used to apply strain to the specimens and thus to induce changes in their electronic structure. We will review their basic concepts and some of the examples so far documented experimentally and/or theoretically.
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Arctic tundra dendrochronology
Lehejček, Jiří ; Svoboda, Miroslav (advisor) ; Monika, Monika (referee)
Historically unprecedented environmental change in the Arctic ecosystems is often given into the context of its past and possible future development. In the region where instrumental meteorological observations are scarce archives need to be investigated in order to address this issues. The comprehensive synthesis one of the archives: long-live circumpolar evergreen Juniperus communis L. shrub is presented here. 20 individuals from southwest Greenland were investigated at the cell anatomy level to understand the ecology of the species and unhide its potential for environmental and climate reconstructions. The findings are as follows:
i) Stop of exponential cross-sectional conduit-lumen widening with increasing age is in contrast with conduit-lumen nature of trees. This indicates that shrubs do not need to saturate their water and nutrient demands via traits of classical hydraulic conductivity law but rather developed different mechanisms. Extreme weather conditions result in prostrate growth form. However, different weather factors probably influence shrub growth differently: While snow and wind act mechanically (a), temperature influences the form of growth physiologically (b). a) So long as the young shrub stem has high resilience to bend back to an upright position after snow melt and so long as it can withstand the wind during the vegetation season it most likely grows upright and the conduit-lumens widen. b) Temperature, resp. freeze-thaw events are responsible for the shrubs preference of safety (finite size of conduit-lumens) over hydraulic efficiency, thus not allowing for more primary growth. All of these (and other) factors are apparently working together and the transition of vertical to more horizontal growth is gradual. As a consequence, the conduit-lumen sizes may not have to be further increased (due to ecophysiological restrictions possibly also must not) because water is no longer transported against gravity.
ii) Observed age/growth trend has to be taken into consideration for further employment of the wood anatomical parameter in paleoenvironmental studies. That is, shrub cell parameters can only be used for this purposes if correctly detrended. This allows for more accurate as well as longer reconstructions because youth trend was often neglected in reconstructions based on shrub annual-rings.
iii) The south-western Greenland Ice-Sheet (GrIS) melt rates reconstruction is presented for the whole 20th century. This part of GrIS is considered as the most active. According to the presented reconstruction current GrIS melt rates are not uncommon for the last century being comparable to first decades of 20th century. This finding is particularly important contribution to the debate on Atlantic meridional overturning circulation (AMOC). Too high fresh water inputs into the Northern Atlantic from GrIS melting may slow down or even stop the AMOC which would result in more continental climate in Europe. Presented results indicate that this threshold lies higher than observed current melt rates of GrIS.
Fascinating Juniperus comunnis species has shown to be able to address many ecological as well as environmental open questions and due to its longevity and abundant distribution has a great potential to become an important player in the Arctic research.
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Biochemical methods as tool for study of reproductive proteins
Postlerová, Pavla ; Zigo, Michal ; Pohlová, Alžběta ; Jonáková, Věra
Study of molecular mechanisms in reproduction is essential for the understanding of this outstanding process. Our lab studies proteins secreted by reproductive organs and sperm using various biochemical methods for a long time. We have expertise in protein extraction from spermatic cells using different approaches, and by kits for proteins from the sperm surface and distinct subcellular compartments. The proteins of reproductive organ fluids are separated by chromatographic methods, such as size exclusion chromatography, high-performance liquid chromatography with reverse phase (RP-HPLC) and affinity chromatography on matrices with various ligands. Proteins are subjected to SDS- or 2D-electrophoresis for their characterization and comparison of various extraction methods, different mammalian species, and sperm in different functional development. Electrophoretically separated proteins may be transferred onto nitrocellulose membrane (Western blot) for antibody detection or binding studies with lectin-labelled ligands (lectins, polysaccharides, zona pellucida glycoproteins). We use immunoprecipitation method with specific antibody for protein determination followed by the MALDI identification. Proteins are localized by immunofluorescent techniques on/in spermatic cells and tissue sections of reproductive organs. Isolation of proteins from reproductive tissues and fluids, and the antibody detection is crucial for the studying of reproductive protein origin.
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Iniciace pohybu byčíku, signalizace a regulace pohyblivosti spermií ryb: fyzikální a biochemické řízení
PROKOPCHUK, Galina
The current study attempted to shed light on the regulatory processes and response arrangements of fish spermatozoa during the course of maturation and motility initiation. The first intent of this study was to improve the understanding of the mechanism underlying the acquisition of potential for sperm motility in sturgeon. Up to present work, the physiological process underlying sperm maturation in this species has not been described at all. Our results showed that sperm maturation in sturgeon occurs outside the testes because of dilution of sperm by urine and involves the participation of high molecular weight substances as well as calcium ions present in seminal fluid and/or urine. The second aim of the present study was to investigate the coping mechanisms in fish spermatozoa with osmotic and ionic activating mode, as well as in spermatozoa of euryhaline fishes, to various environmental conditions. We showed that alteration of environmental osmolality might affect the fish sperm in different ways, depending on fish species and modes of spermatozoa motility activation either osmotic or ionic mode. In response to osmotic stress caused by hypotonicity, carp spermatozoa regulated the flow of water across their cell membrane and increased their cytoplasmic volume during their short motility period. In contrast, no indications of sperm volume changes were observed neither in sterlet nor in brook trout spermatozoa, both of which having an ionic mode of motility activation. We also examined the mechanism by which sperm motility triggering in euryhaline fishes can adapt to a broad range of environmental salinity. Our results demonstrated that spermatozoa of euryhaline tilapia, Sarotherodon melanotheron heudelotii, reared in fresh-, sea- or hypersaline water can be activated in hypotonic, isotonic or hypertonic conditions of swimming milieu, provided Ca2+ ions are present at various levels. It was established that the higher the fish rearing salinity or the more hypertonic ambient media at spermatozoa activation, the higher extracellular concentration of Ca2+ ions is required. The results obtained in the present study allow suggesting that osmolality is not the main factor inhibiting sperm motility inside the testis in the S. melanotheron heudelotii. A third aim of this study was investigation of the regulation of motility initiation process and description of flagellar beating initiation in chondrostean spermatozoa. We detected that K+ inhibition of sperm motility in sturgeon can be by-passed due to the pre-exposure of sperm cells to a high osmolality shock prior to its transfer to K+-rich swimming media. Thus, we hypothesized that sturgeon spermatozoa may be activated by use of an unexpected signaling pathway, independent from regular ionic stimulation. The successive activation steps in sturgeon spermatozoa were investigated by high-speed video microscopy, using specific experimental situation, where sperm motility initiation was delayed in time up to several seconds. At motility initiation, the first couple of bends formed at the basal region begins to propagate towards the flagellar tip, but gradually fades when reaching the mid-flagellum. This behavior repeats several times until a stage where the amplitudes of bends gradually reach similar value, what eventually leads to sperm progressive displacement. The total period needed for the flagellum to switch from immobility with rigid shape to full activity with regular propagating bends ranges from 0.4 to 1.2 seconds. In conclusion, the results of the current study bring valuable pieces of information into the general understanding of the processes of maturation of fish spermatozoa, their adaptability to different physical and biochemical circumstances, the extra- and intra-cellular signaling as well as the regulatory mechanisms of motility activation in fish spermatozoa.
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The Motivation as a Leadership
Mudruňka, Jan ; Horáková, Jana (advisor) ; Fiedler, Jiří (referee)
Abstract
This bachelor thesis deals with the topic of Motivation as a way of keeping people. In the theoretical part is through the help of key words a reader familiar with the concepts of manager, management the role, management functions, leadership, incentive mechanism, participation, motivation the program benefits.
After getting acquainted with these concepts, which are further developed and properly explained it is compiled by a questionnaire consisting of 13 questions dealing with motivation and benefits in the workplace. The questionnaire is submitted to the selected five managers. The three owners or co- owners private companies, the remaining two are employed in the public sector. With the questionnaire were brought to the attention of the three women and two men.
The individual answers have been commenting and at the end summarized into a single conclusion. From this conclusion it follows that the motivational processes and benefits in individual organisations are set up similarly and that the best motivator is financial reward, or the public praise. Furthermore, it was found: managers prefer individual approach to leadership, a good team and the pleasant environment of the employees want rather than some of the other motivators. Last but not least can from the responses of most managers sense that you may want a the personal development of the employees, but only in a given field. Part of the managers do not agree with the further education of employees due to concerns about competition.
The male part of the managers used a rather shorter sharper the answer to the question, the staff applies a rather authoritative way of leadership, while the female part of the managers was rather longer and more sentence. From the responses it is apparent that women apply to their employees rather democratic style of leadership.
Key words: Manager, managerial role, managerial functions, leadership, incentive mechanism, participation, incentive program, benefits
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Evaluation of selected properties of mineral fibers-based board, including the design of suitable purposes of its application
Sýkora, Radim ; Böhm, Martin (advisor) ; Múčka, Martin (referee)
This thesis evaluates properties of board based on mineral fibers. In first part of the thesis is conducted analysis of the literature, where are described materials based on basalt fibers. Here is also explained production of basalt fiber and its practical applications. Sandwich materials and materials with great fire resistance based on wood are also looked into. Following part describes options of aplication of materials with great fire resistance and mechanical a physical properties of materials based on wood.
Second part of the thesis lays out methodical approach to individual performed mechanical and physical tests. Characteristic of examined material is included. The last part deals with test results, comparing results with other selected materials, debating results and proposing possible applications of examined basalt board. With use of found data is evaluated suitability of the material for use for construction of sandwich panel.
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Comparison of trucks of selected power range
Effenberk, Jan ; Šařec, Petr (advisor) ; Balada, Ivo (referee)
The main purpose of this bachelor thesis is to compare semitrailer trucks made by major European manufacturers. Maximum engine power of compared vehicles is limited to 340 kW. Secondary aim of this thesis is provision of theoretical knowledge of key mechanisms and issues of modern trucks. The thesis is devided into two main parts. The first one includes history and development of road transport and trucks. Basic technical terms and legislation are described there as well. Following chapters are dedicated to brief characteristic of mechanisms and their types. The second part of this thesis focuses on truck comparison according to selected parameters using chosen method of multi-criteria analysis. The thesis is concluded with results evaluation, ranking of each truck and discussion about certain issues.
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Molecular mechanisms of apoptosis induced by photodynamic activation in cancer cells
Moserová, Irena ; Králová, Jarmila (advisor) ; Kuželová, Kateřina (referee) ; Kovář, Jan (referee)
Photodynamic therapy (PDT) is a treatment modality for cancer. It combines selective accumulation of chemical compounds, called photosensitizers (PS), with light to irreversibly damage cancer cells via oxidative stress. The main goal of this thesis was to study photosensitizers represented by a unique group of newly synthesized porphyrin derivatives with glycol chain substitution. Glycol-functionalized porphyrins containing one to four low molecular weight glycol chains that are linked via ether bonds to the meta-phenyl positions of meso-tetraphenylporphyrin (mTPP(EG)1-4) were compared with fluorinated (pTPPF(EG)4) and nonfluorinated (TPP(EG)4) derivatives having glycol chains in para-phenyl positions. The cellular uptake and photodynamic activity was significantly dependent on terminal groups of the glycol substituent. Hydroxy glycol porphyrins, in contrast with methoxy glycol porphyrins, exhibited efficient intracellular transport and high induction of apoptosis in tumor cell lines in vitro. After initial testing effective prototype hydroxy ethylene glycol derivatives were selected and analyzed in detail. Para derivatives pTPP(EG)4 and pTPPF(EG)4 accumulated mainly in lysosomes whereas meta derivatives mTPP(EG)1-4 in the endoplasmic reticulum (ER). Position of ethylene glycol chain on the...
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