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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Method development for fatigue lifeprediction in welded gearset joints undertorsional loading

Olsson, Emma January 2021 (has links)
This report presents the degree project for a master's degree in Mechanical Engineeringat Luleå University of Technology performed by Emma Olsson at GKN ePowertrain in Köping. The aim of the thesis was to develop a calculation method to evaluate fatigue ina weld due to torsion. During the degree project, two di erent calculation methods weredeveloped - An analytical method and a numerical method. The analytical method is based on a calculation method already used at GKN for calculatingfatigue due to rotary bending, but with the adaptations required for when the weld issubjected to torsion. For this method, Wöhler's curve, Goodman and Gerber mean stresscorrection and Palmgren-Miner's rule have been used. The numerical method was performed in the commercial software FEMFAT, which hasbeen developed to calculate, among other things, fatigue and safety factors. This is asimulation program the company in question has, but previously not used for this purpose. During the process of developing these calculation methods, areas such as mean stresscorrection, fatigue strength and weld classi cation have been studied, and appropriatesettings for the simulation.This resulted in two calculation methods whose results differ greatly from each other.The analytical method is a very conservative method in which the fatigue damage that iscalculated becomes very high and according to the damage value the weld will fail. Forthe numerical method, on the other hand, the fatigue is very low and, according to thedamage value, will not fail. Based on this, it can be stated that the numerical method is the method considered mostreliable and should be further investigated and  nally used. However, it is not possible togive a precis conclusion of whether the methods correspond to the reality, since no physicaltesting have been performed.
2

Optimalizace kovaných vysokotlakých elementů zásobníku paliva systému common rail / Optimization of Forged High Pressure Elements of Fuel Accumulator of Common Rail System

Klepetko, David January 2009 (has links)
The subject of this thesis is the optimization of forged high pressure elements of fuel accumu-lator of Common Rail System. The aim of this work is to assess the current state and design the individual high pressure elements in the CAD system. There is implemented strain and stress analysis in the FEM system Abaqus/CAE and in fatigue postprocessor FEMFAT for all designs. On the basis of this analysis are proposed optimized design solutions.
3

Vývoj těsnících zátek pro testování vysokocyklové únavové pevnosti tlakového zásobníku paliva systému Common-Rail / Seal Plugs Design for Common-Rail System Pressure Reservoir High-Cyclic Fatigue Testing

Skrutek, Ivo January 2011 (has links)
Tato diplomová práce je zaměřena na řešení problému praskání těsnících kuželů na tělesech railů při zkoušce dlouhodobé životnosti pomocí pulzního vysokotlakého testu. Hlavní částí je analýza vlivu těsnících zátek na namáhání těsnícího kuželu s následným návrhem nové zátky, která bude tvořit stejné nebo podobné zatížení všech komponent při pulzním testu jako vysokotlaká trubka, která se používá v sériové produkci. Další částí je ověření vlastností nové zátky pomocí vysokotlakého pulzního testu.

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