Brownfieldy v ČR v návaznosti na historické centrum / Brownfields in the Czech Republic in connection with historical centers

Murárová, Lucia

January 2019

The subject of the Diploma thesis is an urban study in the area of the former part of Tepna in Náchod. The Tepna area is largely after demolition and is currently dilapidating. This area has the potential for development and use, located within a short walking distance from the historic city center and at the same time from the residential area in the northern part of Náchod. Above the solved area is the castle, which is a dominant and a city landmark. The aim of the proposal was to use the potential of the territory at most, but at the same time to approach the surrounding landscape sensitively and to connect the urban character of the surrounding urban structure of the city and, conversely, the existing buildings of unclosed blocks are supplemented by new development.

Stavebně technologický projekt skladovací haly / Construction technology project of storage hall

Petrík, Tomáš

January 2013

In this diploma thesis is processed build-up organization of logistics centre in Ostrava. The build-up organization covers the implementation of ground works, foundation constructions and precast concrete framework. Storage hall of logistics centre is based on drilled concrete piles and precast concrete framework makes up main structure. Construction technology project contains time-schedule and financial plan for whole project, time-schedule of construction works, budget, technological standard for precast concrete framework, design of building site accessories, design of machine group, safety plan, check and test plan.

Nanolithography on thin films using heated atomic force microscope cantilevers

Saxena, Shubham

01 November 2006

Nanotechnology is expected to play a major role in many technology areas including electronics, materials, and defense. One of the most popular tools for nanoscale surface analysis is the atomic force microscope (AFM). AFM can be used for surface manipulation along with surface imaging. The primary motivation for this research is to demonstrate AFM-based lithography on thin films using cantilevers with integrated heaters. These thermal cantilevers can control the temperature at the end of the tip, and hence they can be used for local in-situ thermal analysis. This research directly addresses applications like nanoscale electrical circuit fabrication/repair and thermal analysis of thin-films. In this study, an investigation was performed on two thin-film materials. One of them is co-polycarbonate, a variant of a polymer named polycarbonate, and the other is an energetic material called pentaerythritol tetranitrate (PETN). Experimental methods involved in the lithography process are discussed, and the results of lithographic experiments performed on co-polycarbonate and PETN are reported. Effects of dominant parameters during lithography experiments like time, temperature, and force are investigated. Results of simulation of the interface temperature between thermal cantilever tip and thin film surface, at the beginning of the lithography process, are also reported.

Characterization

Deflection

Setpoint

Grain rearrangement

Array

Precise positioning

Metrology

Explosion

Explosives

Data storage

Material

Image processing

Slow scan disabled

Temperature

Tip

Local

In-situ

Nanoscale

Electrical circuit fabrication

Repair

Co-polycarbonate

Polymers

Polycarbonates

Energetic materials

PETN

Simulation

Interface

Nano-manufacturing

Experiment

Calibration

Raman

Frequency

Deflagration

Decomposition

Detonation

Build up

Pile-up

End capped

End capping

Cross linked

Cross-linked

Conductivity

Microscale

MEMS

Microcantilever

NEMS

DPN

tDPN

Silicon

Glass

Peak

InVOLS

Manipulation

AFM

Atomic force microscope

Defense

Nanoscale

Surface

Stiffness

Force

Scan size

Thermal cantilevers

Imaging

Lithography

Nanolithography

Thin films

Cantilevers

Heaters

Technology

Nanotechnology

Scan velocity

Scan rate

Bake

Anneal

Pentaerythritol tetranitrate

Thin films Thermal properties

Atomic force microscopy

Microlithography

Nanotechnology

Surfaces (Technology) Analysis