INFLUENCE OF ZR SOLUTE ON THE STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES OF NANOTWINNED AL ALLOYS

Nicholas A Richter (15213235)

12 April 2023

<p>  </p> <p>Aluminum (Al) possesses a plenitude of remarkable properties, such as strong corrosion resistance, high thermal and electrical conductivity, and high specific strength. However, Al and its alloys are still remarkably weaker than most high strength steels and susceptible to drastic softening at high temperatures, preventing many applications where its low density would be beneficial. Severe plastic deformation can yield ultra-fine grained Al alloys with similar strengths as steels, although they are highly unstable even at room temperature. Nanotwinned (NT) metals have demonstrated concomitant strength and ductility, enabled by twin boundaries which simultaneously act to inhibit dislocation motion and generate partial dislocations that aid in plasticity. In spite of having a high stacking fault energy, nanotwins have been introduced into Al alloys using transition metal solutes during magnetron sputtering. This thesis aims to explore the impact Zr has on the microstructure, deformation, and thermal stability of nanotwins in NT Al.</p> <p>Our studies identify how Zirconium (Zr) aids in the formation of a significant volume fraction of 9R phase and an abundance of finely spaced incoherent twin boundaries, leading to a maximum hardness of 4.2GPa. They further uncover through <em>in-situ</em> micropillar compression that NT Al-Zr alloys are highly deformable and reach a flow stress of ~1.1GPa. Constant strain rate nanoindentation tests demonstrate the enhanced strain rate sensitivity in NT Al-Zr alloys. Zr is also identified to be a remarkable thermal stabilizer when incorporated into NT Al-Co alloys, with no apparent softening up to 450 °C (0.78 T­m). The influence of substrate texture on nanotwinned Al-Zr alloys microstructure was also thoroughly explored.</p>

Metals and alloy materials

Aluminum

magnetron sputtering

Nanotwinned metals

Transmission Electron Microscopy

Micromechanical Testing

Nanoindentation

Physical Vapor Depsotion

A study of Laser Shock Peening on Fatigue behavior of IN718Plus Superalloy: Simulations and Experiments

Chaswal, Vibhor

19 September 2013

No description available.

Materials Science

Nickel superalloy

Fatigue and Crack Growth

Laser shock peening

Transmission electron microscopy

Synchrotron X-ray diffraction

Modeling and simulations

Exploring the Antibacterial, Antioxidant, and AnticancerProperties of Lichen Metabolites

Shrestha, Gajendra

01 March 2015

Natural products have been a significant source of new drugs, especially in treating cancer, infectious diseases, hypertension, and neurological disorders. Although many natural metabolites have been screened and yielded pharmaceutically important drugs, many potential sources of natural product drug therapies still need to be investigated, including lichens. Lichens are symbiotic systems consisting of a filamentous fungus and a photosynthetic partner (an eukaryotic alga and/or cyanobacterium). Lichens produce an impressive variety of unique secondary compounds and have been used as ingredients in folk medicines for centuries. Demonstrated biological roles based on lichen chemistry include: antibiotics, anti-proliferative, antioxidants, anti-HIV, anti-cancer, immunomodulation, and anti-protozoans. Although North America is home to an impressive variety of lichen species, there is limited research to examine the biological potentials of these lichens. The core goal of this dissertation research has been to investigate some of the biological roles including, antibiotic, antioxidant, and anticancer potentials using lichen crude extracts and their metabolites collected from various locations in the United States. Antibiotic screening of crude extracts of 36 lichen species demonstrated inhibitory effects against Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Methicillin-resistant S. aureus (MRSA). Generally, acetone extractions were found to be more effective than methanol extractions. It has also been shown that L. vulpina extract was bacteriocidal against MRSA with a relatively slow kill rate that disrupts cell membrane integrity and cell division as possible modes of action. Antioxidant screening of extracts from 11 lichen species, using the Oxygen Radical Absorbance Capacity (ORAC) assay, showed that lichen extracts inhibited the oxidative degradation of the fluorescent molecule (fluorescein-sodium salt) by the oxygen free radical initiator AAPH (2,2'-azobis(2-aminidopropane) dihydrochloride Acetone extracts as well as pure compounds from lichen species showed cytotoxic effects against Burkitt's lymphoma (Raji) cells and a colon cancer cell line (HT29 and SW620). They decreased proliferation, arrested cell cycle at various stages and force the cell to undergo apoptosis. The tested extracts or pure compounds were not toxic to normal cells. In colon cancer apoptosis took place independent of casapase-3. The results of this dissertation showed that lichen compounds merits for further investigation.

lichen

antibacterial

anticancer

antioxidant

immunomodulation

secondary metabolites

mode of action

cell cycle

apoptosis

MTT

bacteriolysis

transmission electron microscopy

Biology

More efficient training using equivariant neural networks

Bylander, Karl

January 2023

Convolutional neural networks are equivariant to translations; equivariance to other symmetries, however, is not defined and the class output may vary depending on the input's orientation. To mitigate this, the training data can be augmented at the cost of increased redundancy in the model. Another solution is to build an equivariant neural network and thereby increasing the equivariance to a larger symmetry group. In this study, two convolutional neural networks and their respective equivariant counterparts are constructed and applied to the symmetry groups D4 and C8 to explore the impact on performance when removing and adding batch normalisation and data augmentation. The results suggest that data augmentation is irrelevant to an equivariant model and equivariance to more symmetries can slightly improve accuracy. The convolutional neural networks rely heavily on batch normalisation, whereas the equivariant models achieve high accuracy, although lower than with batch normalisation present.

convolutional neural networks

equivariance

equivariant neural networks

transmission electron microscopy

machine learning

Medical Image Processing

Medicinsk bildbehandling

Studies of Dislocation Density Quantification Via Cross-Correlation EBSD

Friedbaum, Samuel Searle

01 August 2019

One conventional method for studying dislocations uses the Transmission Electron Microscope (TEM), a complex and expensive piece of equipment which requires extensive specimen preparation in order to thin the specimens to electron transparent thickness. Newer High Resolution Electron Backscatter Diffraction (HREBSD) methods of determining geometrically necessary dislocation content via cross-correlation promise to be able to produce estimates of the dislocation density of the sample over a larger area with considerably less preparation time and using a much more accessible instrument. However, the accuracy of the new EBSD technique needs more experimental verification, including consideration of possible changes in the specimen dislocation density due to the different preparation methods. By comparing EBSD and TEM dislocation measurements of Electron Transparent platinum specimens prepared using the Focused Ion Beam (FIB), along with EBSD dislocations measurements of specimens prepared by both FIB and mechanical polishing techniques, this paper seeks to verify the accuracy of the new method and identify any changes in the specimens’ apparent dislocation density caused by the different preparation processes.

scanning electron microscopy

electron backscatter diffraction

transmission electron microscopy

dislocations

focused ion beam

platinum

Engineering

Mechanical Engineering

Development, Characterization and Evaluation of Solid Lipid Nanoparticles as a Potential Anticancer Drug Delivery System

Patel, Meghavi

January 2012

No description available.

Pharmaceuticals

Pharmacy Sciences

Solid lipid nanoparticles

5-fluorouracil

Anticancer

Glyceryl monostearate

Dynamic light scattering

Transmission electron microscopy

Differential scanning calorimetry

Improve Nano-Cube Detection Performance Using A Method of Separate Training of Sample Subsets

Nagavelli, Sai Krishnanand

January 2016

No description available.

Computer Science

Integral image

Cascade classifier

Adaboost algorithm

Transmission electron microscopy

Rapid HAAR feature

OpenCV

Image detection

Microstructural investigation of defects in epitaxial GaAs grown on mismatched Ge and SiGe/Si substrates

Boeckl, John J.

13 July 2005

No description available.

molecular beam epitaxy

MBE

metal organic chemical vapor deposition

MOCVD

electron beam induced current

EBIC

defects

transmission electron microscopy

TEM

Effect of DDR2 on Rheology of Collagen type I Fibers

Sivakumar, Lalitha

26 August 2009

No description available.

Biomedical Research

collagen

fiber

discoidin domain receptor 2 (DDR2)

persistence length

transmission electron microscopy

Young&8217

s modulus

Extraction Replicas of Common Engineering Alloys for Analysis of Small Precipitates

Rolinska, Monika

January 2020

Characterization of small precipitates is important for development of new alloys. One inherent  difficulty  in  characterisation  of  small  precipitates  with  electron microscopy techniques  while  the  particles  are  embedded  in  the  matrix,  is  that the surrounding bulk material will contribute to the analysed signal- limiting, for example, the quantification of the composition of particles.  In order to avoid the matrix contribution, the extraction replica technique was developed in the 1950's. Extraction replicas are made by extracting only the particles from a material onto a thin film for further analysis by scanning or transmission electron microscopy. Different types of particles can be examined by this technique, including various carbides, nitrides, oxides and borides, as well as many intermetallic phases.  In this work, direct replication techniques were compared to two-stage replication for low-alloyed steel, concluding that both are suitable for qualitative analysis, but direct replication is preferred for quantitative analysis.  Successful replication of the zirconium-based Zirlo and the stainless steel 254 SMO was performed, where the precipitated phases were isolated and the composition quantified.   Particle extraction was successful also for the zirconium-based Zircaloy-2 and two types of  aluminium  alloys,  but  no  quantification of  composition  could  be  made  due to different problems associated with etching of each alloy, showing that properchoice of etchant is crucial for the quality of the replicas. / Karaktärisering av små utskiljningar är viktigt för utveckling av nya legeringar. En svårighet  vid  karaktärisering  av  små  utskiljningar  med elektronmikroskopi när partiklarna  sitter  kvar  i  matrisen  är  att  matrisen kommer  ge  ett  bidrag till den analyserade signalen,  därför är t.ex.   möjligheterna för kvantifiering av sammansättning begränsade. För att undvika bidraget från matrisen utvecklades extraktionsrepliker  på  1950-talet.  Extraktionsrepliker  tillverkas  genom  att extrahera partiklar från ett material till en tunn film som sedan kan analyseras med hjälp av svep- eller transmissionselektronmikroskopi. Olika sorters partiklar kan  undersökas  med hjälp  av  denna  metod.     Dessa  inkluderar  olika  typer av  karbider, nitrider, borider, oxider  och  många  olika  sorters  intermetalliska partiklar. I  detta arbete  jämfördes direkta  metoder  med  tvåstegsrepliker  på låglegerat  stål. Slutsatsen  blev  att  båda metoderna  lämpar  sig  för  kvalitativ analys av små partiklar, men direkta metoder är att föredra för kvantitativ analys. Lyckade repliker tillverkades även av zirkoniumlegeringen Zirlo och det rostfria stålet  254  SMO,  där  utskiljningarna  kunde isoleras  och sammansättningen kvantifieras.   Extraktion  av  partiklar  var  lyckad  även  för zirkoniumlegeringen Zircaloy-2  samt  två  typer  av  aluminiumlegeringar, men ingen  kvantifiering  av sammansättningen  kunde  göras  på  grund  av  olika problem  relaterade  till  den valda etsmetoden för varje legering, vilket visar att valet av etsmedel ar avgörande för kvaliteten av replikerna.

Extraction replica

transmission electron microscopy

materials characterization

precipitation

Extraktionsrepliker

transmissionselektronmikroskopi

materialkaraktarisering

utskiljningar

Metallurgy and Metallic Materials

Metallurgi och metalliska material