Únavové vlastnosti jemnozrnné mědi připravené metodou ECAP / Fatigue Properties of Ultra-fine Grain Copper Produced by ECAP Method

Navrátilová, Lucie

January 2008

This diploma thesis describes properties of ultra-fine grain Cu prepared via ECAP procedure. The influence of fatigue loading with positive mean stress on S-N curve (i.e. fatigue life), cyclic plastic behaviour and grain size was investigated. It was found that tensile mean stress leads to shorter lifetime in comparison with fatigue loading with zero mean stress. During main part of the lifetime, significant hardening of UFG Cu was observed. There is no distinct effect on microstructural orientation and stability.

Teplotní stabilita Mg-slitiny AZ91 připravené pomocí intenzivní plastické deformace / Thermal stability of Mg-alloy AZ91 prepared by severe plastic deformation

Štěpánek, Roman

January 2012

This thesis dealt with thermal stability of magnesium alloy AZ91 prepared by severe plastic deformation, which leeds to fine grained structure. This structure is characterised by its inherent instability and this thesis tries to find out the value of critical temperature and rate of this instability, which manifests as grain coarsening.

Effect of Crystallography On Stress Corrosion Cracking Growth in Austenitic Stainless Steels

Haozheng Qu (9675506)

15 December 2020

This thesis aims to reveal the correlation between stress corrosion cracking propagation behavior and Schmid and Taylor factor mismatch using EBSD analysis. <div><br></div><div>Chloride induced stress corrosion cracking (CISCC) is one of the most vulnerable weaknesses for the widely used austenitic stainless steel in many industries. The complex nature of CISCC involves mechanical, electrochemical, and microstructural perspectives. The objective of this thesis is to assess CISCC phenomenon in austenitic stainless steel from the mechanical and crystallographic perspective, specifically on the effect of local strain and stress and anisotropic plastic deformation. Austenitic stainless steel 304L test coupons are bent in four-point bending fixtures to obtain tensile stress for CISCC, followed by corrosion experiment in boiling magnesium chloride solution. Stress state of the sample is evaluated by finite element analysis (FEA) and X-ray Diffraction Crystallography (XRD) prior corrosion test. Cross section of the cracked region are analyzed with Electron Backscatter Diffraction (EBSD) to analyze the relationship between CISCC behaviors and crystallographic features in the sample. Schmid factor and Taylor factor are used to quantitatively evaluate CISCC initiation and propagation behavior. It is learned that in polycrystalline FCC stainless steel, mismatch of Schmid factor and Taylor factor values in adjacent grains along crack path governs CISCC propagation susceptibility and path selection. Crack propagation factor competition model is proposed based on observations from EBSD maps, incorporating Schmid factor and Taylor factor mismatch, electrochemical condition of crack tip, and anisotropic properties. <br></div>

Crystallography

Metals and Alloy Materials

Austenitic stainless steel

Stress Corrosion Cracking

EBSD mapping

Schmid factor

Taylor factor

crystallography

fracture mechanics concepts

Plastic deformation

Rekonstrukce tečení lávových proudů Kozákova na základě studia magnetické a minerální stavby / Reconstruction of the Kozákov lava flow based on magnetic- and mineral-fabric study

Černá, Aneta

January 2010

Combined anisotropy of magnetic susceptibility (AMS) and crystallographic studies were applied on a neogenne lava flow, for which we know the supposed flow path. Samples were studied under microscope, the minerals were analysed on microprobe, the orientation of olivine crystals was determined via EBSD and magnetic properties were studied. AMS data acquired from samples collected from representative outcrops of lava flow show weak preferred orientation of magnetite-ulvöspinel. EBSD analysis suggests only slight orientation of plagioclase in one sample. Analysed composition of olivine corresponds with mathematical model for eruption temperature and crystallization succession. Rootless cone (disorderly breccia cone) in lava body was found and desribed in the abandoned Machův lom quarry.

Oxidation Behavior and Thermal Conductivity of Thermoelectric SnSe as well as Laser Powder Bed Fusion Process Modeling and Validation through In-situ Monitoring and Ex-situ Characterization

Li, Yi

17 June 2019

No description available.

Materials Science

Thermoelectric materials

SnSe

Oxidation behavior

Ultra-low thermal conductivity

Time-domain thermoreflectance

EBSD

Additive manufacturing

Laser-powder bed fusion

Discrete element method

Single tracks

Balling defects

Applications of Graph Cutting for Probabilistic Characterization of Microstructures in Ferrous Alloys

Brust, Alexander Frederick

29 August 2019

No description available.

Materials Science

Engineering

Martensite

Austenite

Steel

Austenite Reconstruction

Crystallography

Misorientation

Graph Cutting

Image Segmentation

Clustering

Microstructure

Transformation

Variant

EBSD Analysis

Packet Segmentation

Sub-block Block Packet Boundary

Effect of Size and Shape Parameters on Microstructure of Additively Manufactured Inconel 718

Ahsan, Showmik

08 June 2023

No description available.

Mechanical Engineering

Materials Science

SEM

Inconel 718

Additive Manufacturing

Laser powder bed fusion

microstructure

microhardness

XRD

heat treatment

3D printing

size

shape

EBSD

Solid Phase Crystallization of Vanadium Dioxide Thin Films and Characterization Through Scanning Electron Microscopy

Rivera, Felipe

07 December 2007

Crystalline films of vanadium dioxide were obtained through thermal annealing of amorphous vanadium dioxide thin films sputtered on silicon dioxide. An annealing process was found that yielded polycrystalline vanadium dioxide thin films, semi-continuous thin films, and films of isolated single-crystal particles. Orientation Imaging Microscopy (OIM) was used to characterize and study the phase and the orientation of the vanadium dioxide crystals obtained, as well as to diferentiate them from other vanadium oxide stoichiometries that may have formed during the annealing process. There was no evidence of any other vanadium oxides present in the prepared samples. Indexing of the crystals for the orientation study was performed with the Kikuchi patterns for the tetragonal phase of vanadium dioxide, since it was observed that the Kikuchi patterns for the monoclinic and tetragonal phases of vanadium dioxide are indistinguishable by OIM. It was found that a particle size of 100 nm was in the lower limit of particles that could be reliably characterized with this technique. It was also found that all VO2 crystals large enough to be indexed by OIM had a preferred orientation with the C axis of the tetragonal phase parallel to the plane of the specimen.

Vanadium Dioxide

scanning electron microscopy

SEM

orientation imaging microscopy

OIM

electron back-scattered diffraction

EBSD

Kikuchi patterns

solid phase crystallization

Astrophysics and Astronomy

Physics

Effect of carbon activity on microstructure evolution in WC-Ni cemented carbides

Danielsson, Olivia

January 2018

The aim of this work was to systematically study how the microstructure evolution is affected by the carbon activity in WC-Ni cemented carbides. Seven WC-9.59at%Ni alloys with different carbon activity were sintered at 1500 °C. From investigating these alloys, the carbon window has been experimentally evaluated using light optical microscopy and compared to theoretical carbon window calculated using Thermo-Calc. The overall microstructure of cross sections and raw surfaces have been investigated using scanning electron microscopy. Finally, the WC grain size and distribution have been evaluated using electron backscatter diffraction. It was found that the experimental carbon window was slightly wider than the theoretical carbon window. The WC grain size increased and the grain size distribution got wider with increasing carbon activity. In addition, the largest WC grains showed the largest grain growth by increasing carbon activity. By comparing the present results of grain size and distribution of WC-Ni to previous results of WC-Co, it was found that the WC grain growth was more pronounced and more influenced by the carbon activity.

Cemented carbides

Hard metal

WC-Ni

Tungsten carbide

Nickel binder

Grain coarsening

Grain growth

Carbon activity

Size distribution

EBSD

Electron backscattered diffraction

Materials Engineering

Materialteknik

Electron Backscatter Diffraction of Gold Nanoparticles / Electron Backscatter Diffraction (EBSD) of Gold Nanoparticles

Zainab, Syeda Rida

11 1900

Electron Backscatter Diffraction (EBSD) is a well-developed technique used to perform quantitative microstructure analysis in the Scanning Electron Microscope (SEM); however, it has not been widely applied towards studying nanostructures. This work focuses on the use and limitations of EBSD in the characterization of Au nanoparticles on an MgAl2O4 substrate. Samples under investigation are prepared by depositing a thin film of Au on an MgAl2O4 substrate, and then finally heated in a furnace to induce dewetting and cluster formation. The challenges of obtaining crystallographic information from nanoparticles using EBSD are qualitatively and quantitatively described through an evaluation of the quality of the diffraction pattern at various locations of the primary electron beam on the nanoparticle. It is determined that for a high quality Electron Backscatter Diffraction Pattern (EBSP), the production of diffracted backscattered electrons travelling towards the detector must be high and the depth of the source point must be low. The top of the nanoparticle, where the local geometry of the system is similar to the geometry of a macroscopically flat sample, is found to produce diffraction patterns of the highest quality. On the other hand, reversed-contrast EBSPs are observed when the beam is positioned near the bottom of the nanoparticle. In addition, crystallographic information for each individual nanoparticle is gathered using EBSD. Each individual AuNP is observed to be single crystalline. Finally, the complete ensemble of crystalline orientations for individual nanoparticles is then compared to the global averaged crystallinity of the sample, as measured by X-ray diffraction. These results show that EBSD promises to be a powerful and robust technique in the characterization of nanoparticles. / Thesis / Master of Applied Science (MASc)

EBSD

Electron Backscatter Diffraction

microstructure

x-ray diffraction xrd 2dxrd