Tepelné zpracování nástrojových ocelí

Kobolka, Lukáš

January 2011

No description available.

Verifikace souběžného měření odezvy plastické deformace

Pištora, Jan

January 2017

Goal of this diploma work is to practically test method of concurrent hardness and acoustic emission measurement related to theyr correlation depending on material.

Měření tvrdosti plastů

Brunclík, Štěpán

January 2019

This diploma thesis deals with the hardness measurement of plastics. Thesis is divided into four main parts. The first part deals with an overview of existing research findings in the field of hardness measurement of plastics. This part of the work is devoted to the description of principles and procedures, used indenters, sizes of test loads and evaluation of individual test methods. The second part deals with the measurement of the hardness of the test specimens for the selected plastic materials and the comparison with the hardness values declared by the manufacturer. The third part is focused on the suitability of the used methods for measuring the hardness of selected materials. The last part deals with the possible differences in the measured and manufacturer declared values of hardness of plastic materials.

Analýza mechanických vlastností plastových vzorků zhotovených technologií 3D tisku / Analysis of mechanical properties of plastic samples produced by 3D printing technology

Jiroušek, Jan

January 2021

The master's thesis deals with the determination of mechanical properties of materials used for 3D printing (PLA, PETG, ABS, ASA). The theoretical part contains characteristics of polymer materials and describes testing of mechanical properties and additive technologies. In the experimental part, the standardized samples produced by the technology Fused Filament Fabrication were analysed using mechanical tests (tensile test and hardness test). Some of the examples were exposed to the selected factors of degradation. Selected parameters from mechanical testing (tensile strength, modulus of elasticity in tension, elongation and Shore hardness) were statistically processed. The conclusion of the thesis evaluates the impact of the factors of degradation on particular materials and compares them subsequently.

Analýza mechanických vlastností bimetalových materiálů s cladovanou vrstvou Inconelu / Analysis of Mechanical Properties of Bimetallic Materials with Clad Layer of Inconel

Sýkora, Milan

January 2020

This diploma thesis deals with the analysis of mechanical properties of bimetallic materials with clad layer of Inconel. In the theoretical part of the work there is an analysis of the investigated bimetallic material. The following is a description of mechanical tests and methods for evaluating the integrity of the surface, which were used to determine the properties of bimetallic material. The experimental part focuses on individual tests of mechanical properties of the material. For each test, the procedure for the production of test specimens, a description of the test equipment, the performance of the tests, the evaluation of the data obtained and finally, the evaluation of the results obtained are given.

Rozměrová, tvarová a materiálová analýza bimetalových dílců s definovaným poloměrem ohybu / Dimensional, Shape and Material Analysis of Bimetal Parts with Defined Bending Radius

Ivánek, Radim

January 2020

The thesis aim is an evaluation of achieved results coming from the analysis of pipe bend 180° for the critical bending / bend 1D and supercritical bending / bend 0,7D. The theoretical part is focused on material property of a bimetallic pipe and on methods applied to work out the analysis. The definition of critical points at a considered segment and possible defects arisen while bending is embodied in the thesis. The practical part of the thesis is based on presenting dimensional and proportional analysis based on using optical microscopes and 3D scanner GOM ATOS. The material analysis was aimed at macrostructure as well as microstructure of the bimetallic pipe material, at chemical composition and at the hardness when low-loaded. The analysis achieved results are assessed at the end of the thesis.

Stanovení mechanických vlastností materiálů svarového spoje na základě měření tvrdosti / Determination of the Mechanical Properties of Weld Materials based on Hardness Test

Stodola, Martin

January 2016

This dissertation thesis deals with determination of the mechanical properties of weld materials based on instrumented hardness test. This work was caused by the research project between IAM Brno Ltd and CEZ corp., when the task was to develop a methodology for evaluation of mechanical material properties using NDT methods. For these reasons the development of methodology is reflected especially for use in practice focusing to determining the mechanical properties of the heterogeneous weld joint on the assembled equipment. The mechanical material properties are determined by carrying out non-destructive tests of the instrumented Vickers hardness. The developed methodology for determining of basic mechanical properties is based on the principle of inverse FEM modeling of the instrumented hardness tests, when output of the testing is indentation curve and measured surface imprint after unloading. The basic material mechanical properties are achieved by comparing the outputs of the experimental instrumented hardness tests and the outputs of the modeled hardness test using FEM.