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Smoothing device for FDM 3D prints
Dubský, Jan ; Čudek, Pavel (referee) ; Bayer, Robert (advisor)
This bachelor’s thesis deals with a design of a device that would smooth out 3D prints, made of various materials, using FDM 3D printers. It explains the principle of 3D printing and describes technologies used in 3D printing. In this work is an overview of materials used for 3D printing and of some selected organic solvents. It describes methods of vapour smoothing and aerosol smoothing that can be used for smoothing out of 3D prints surface. The vapour smoothing method was experimentally tested using these solvents: acetone, dichloromethane, chloroform and tetrahydrofuran. The aerosol smoothing method used a solution of acetone and dichloromethane in the ratio of 1:1. Both methods were tested on samples made of PLA, ABS, PETG and SBS. This paper describes the design of a device for smoothing of 3D prints with regard to the chemical compatibility of used construction materials and ease of use of the device.
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Smoothing device for FDM 3D prints
Dubský, Jan ; Čudek, Pavel (referee) ; Bayer, Robert (advisor)
This bachelor’s thesis deals with a design of a device that would smooth out 3D prints, made of various materials, using FDM 3D printers. It explains the principle of 3D printing and describes technologies used in 3D printing. In this work is an overview of materials used for 3D printing and of some selected organic solvents. It describes methods of vapour smoothing and aerosol smoothing that can be used for smoothing out of 3D prints surface. The vapour smoothing method was experimentally tested using these solvents: acetone, dichloromethane, chloroform and tetrahydrofuran. The aerosol smoothing method used a solution of acetone and dichloromethane in the ratio of 1:1. Both methods were tested on samples made of PLA, ABS, PETG and SBS. This paper describes the design of a device for smoothing of 3D prints with regard to the chemical compatibility of used construction materials and ease of use of the device.
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Methods for determining evapotranspiration and its values ??in the Czech Republic
HOUDEK, Tomáš
This paper deals with methods for determining evapotranspiration and its values achieved in the Czech Republic. For a better understanding of these issues is explained in the introduction to the concept of evapotranspiration. The first part of this paper discusses evaporation, its types and division. In this thesis are also presented factors affecting evapotranspiration. The largest part of this search addresses the methods used for determining evapotranspiration. Here we find treated in more detail the direct and indirect methods of estimation. The last part of this paper presents and compares the potential evapotranspiration totals achieved in the Czech Republic on the basis of different numerical methods.
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Spatial vapour density measurements inside laser induced cavitation bubbles
Hošek, Jan ; Garen, W. ; Shönig, H.
Cavitation bubbles have been studied and reported as an undesirable side effect in many of the medical application used of laser ablation like eye or cardio surgery in recent years. Our intention was to gain a physical information about processes inside the cavitation bubble. We develop a new technique for direct gas/vapour property measurements during the cavitation process in the bubble based on determination of bubble gas density.
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