Spelling suggestions: "subject:"[een] TRANSMISSION ELECTRON MICROSCOPY"" "subject:"[enn] TRANSMISSION ELECTRON MICROSCOPY""
81 |
Effects of Martensite Tempering on HAZ-Softening and Tensile Properties of Resistance Spot Welded Dual-Phase SteelsBaltazar Hernandez, Victor Hugo January 2010 (has links)
The main purpose of this thesis is to improve the fundamental knowledge of non-isothermal tempering of martensite phase and its effects on the reduction in hardness (softening) with respect the base metal occurring at the heat affected zone (HAZ) of resistance spot welded dual-phase (DP) steels. This thesis also aims at understanding the influence of HAZ-softening on the joint performance of various DP steel grades.
The tempering of martensite occurring at the sub-critical HAZ (SC-HAZ) of resistance spot welded DP600, DP780 and DP980 steels has been systematically evaluated by microhardness testing through Vickers indentation and the degree of tempering has been correlated to the HAZ-softening. From the joint performance analysis of similar and dissimilar steel grade combinations assessed through standardized testing methods, three important issues have been targeted: a) the joint strength (maximum load to failure), b) the location of failure (failure mode), and c) the physical characteristic of the weld that determines certain type of failure (weld nugget size). In addition, a partial tensile test has been conducted in order to evaluate the initiation of failure in dissimilar steel grade combinations. It has been shown that HAZ-softening lowered the weld size at which transition from interfacial to pullout failure mode takes place along with increased load-bearing capacity and higher energy absorption. Thus, it is concluded from mechanical testing that HAZ-softening benefits the lap-shear tensile joint performance of resistance spot welded DP steels by facilitating pullout failures through failure initiation at the SC-HAZ (tempered region).
Instrumented nanoindentation testing was employed to further investigate HAZ-softening along the SC-HAZ by evaluating individual phases of ferrite matrix and tempered martensite islands. Although the ferrite matrix presented a slight reduction in hardness at nanoscale, higher reduction in hardness (softening) resulted for tempered martensite; thus confirming that tempered martensite is the major contributor to softening at micro-scale. A comparison between nanohardness and microhardness testing made at different distances from the line of lower critical temperature of transformation (Ac1) allowed revealing the actual extension of the SC-HAZ. In this regard, good correlation was obtained between nanohardness results along the SC-HAZ and the microstructural changes analyzed by electron microscopy (i.e., the tempering of martensite occurring at various distances far from Ac1 was correlated to low temperature tempering of dual phase steels).
An in-depth analysis of the tempering of martensite phase at high temperature in DP steel subjected non-isothermal conditions i.e., rapid heating, extremely short time at peak temperature and rapid cooling (resistance spot welding), has been carried out mainly through analytical transmission electron microscopy (TEM). In addition, an isothermal tempering condition (i.e., slow heating and long time at peak temperature) in DP steel has been evaluated for complementing the analysis. Both non-isothermal and isothermal conditions have been correlated to the softening behaviour. TEM analysis of the base metal in the DP steel indicated that the morphology of the martensite phase is dependent on its carbon content, and its tempering characteristics are similar to that of equal carbon containing martensitic steel. The isothermally tempered structure is characterized by coarsening and spheroidization of cementite (θ) and complete recovery of the martensite laths; whereas precipitation of fine quasi-spherical intralath θ-carbides, coarser plate-like interlath θ-carbides, decomposition of retained austenite into elongated θ-carbides, and partial recovery of the lath structure were observed after non-isothermal tempering of DP steel. This difference in tempering behaviour is attributed to synergistic effect of delay in cementite precipitation due to higher heating rate, and insufficient time for diffusion of carbon that delays the third stage of tempering process (cementite coarsening and recrystalization) during non-isothermal. The finer size and the plate-like morphology of the precipitated carbides along with the partial recovery of the lath structure observed after non-isothermal tempering strongly influenced the softening behaviour of DP steel. The chemical analysis of θ-carbides through extraction replicas for three different DP steels revealed that the chemistry of the carbides is inherited from the parent DP steel during non-isothermal tempering at high temperature confirming that non-isothermal tempering DP steel is predominantly controlled by carbon diffusion.
|
82 |
Beurteilung von nativen und aufgetauten Spermatozoen fertiler und subfertiler Hengste mit Hilfe der Phasenkontrast- und TransmissionselektronenmikroskopieSmedts, Ellen 30 May 2012 (has links) (PDF)
Beurteilung von nativen und aufgetauten Spermatozoen fertiler und subfertiler Hengste mit Hilfe der Phasenkontrast- und Transmissionselektronenmikroskopie.
Institut für Veterinär-Pathologie der Veterinärmedizinischen Fakultät, Universität Leipzig
Reproduktionsmedizinische Einheit der Kliniken der Tierärztlichen Hochschule Hannover
In dieser Arbeit wurde die Ultrastruktur von nativen und tiefgefrorenen Spermien mittels Phasenkontrast- und Transmissionselektronenmikroskopie (TEM) untersucht. Für die Beurteilung der Spermienmotilität und der Morphologie von in Formolzitrat fixierten Spermien standen jeweils drei Ejakulate von 50 Hannoveraner Hengsten des Niedersächsischen Landgestüts Celle zur Verfügung. Aus dieser Gruppe wurden drei fertile, drei subfertile Hengste und 6 Hengste mittlerer Fertilität ausgewählt, von denen sowohl die Nativ-Proben als auch eine Tiefgefrierprobe (TG-Probe) für die TEM im Institut für Veterinär-Pathologie der Universität Leipzig gemäß des Standardprotokolls des Institutes aufbereitet wurden. Die Spermien wurden gewaschen und das Seminalplasma der nativen Proben oder der Verdünner der TG-Proben abpipettiert und durch eine 5%-ige Glutaraldehydlösung in einem 0,1 M Kakodylatpuffer (pH 7,2) ersetzt. Die Fixierungslösung wurde anschließend entfernt und das Pellet gewaschen und danach mit Gelatine gemischt. Die spermienreichen Stellen wurden aus der Gelatine herausgeschnitten und in Glutaraldehyd aufbewahrt. Nach einer Nachfixierung in OsO4 und einer Entwässerung in Ethanollösungen erfolgte eine Einbettung in einer Eponmischung. Nach einer Polymerisation von 5 Tagen wurden die eingebetteten Eponblöckchen angetrimmt und die Semi- und Ultradünnschnitte angefertigt. Die Ultradünnschnitte wurden auf ein Kupfergrid gelegt, mit Uranylazetat und Bleizitrat kontrastiert und mit dem Transmissionselektronenmikroskop (Zeiss EM 900, Oberkochem) bei 80 kV analysiert. In den nativen Proben wurden insgesamt 360 Spermien pro Hengst beurteilt, in den TG-Proben 120 Spermien pro Hengst.
Die Qualität der elektronenmikroskopischen Aufnahmen war sehr gut, doch die Plasmamembran zeigte fixierungsbedingte Artefakte. Nach dem Auftauen waren die Bilder heller und der Kontrast etwas geringer. Es gab eine Zunahme an Akrosomdefekten, akrosomreagierten Spermien und Beschädigungen der Plasmamembran, der Mitochondrien, sowie der Mantel- und Ringfasern. Durch die Membranbeschädigungen trat auch eine Verringerung der Anzahl proximaler und distaler Zytoplasmatropfen auf. Sowohl geschwollene Akrosome mit einer niedrigeren Dichte der akrosomalen Matrix als auch Mitochondrien mit einer zu hellen mitochondrialen Matrix waren typische Befunde in den TG-Proben.
Die Studie der Ultrastruktur und die wahrgenommenen Defekte führten zur Erstellung eines Standardprotokolls für die transmissionselektronenmikroskopische Beurteilung von Hengstspermien. Die Beurteilung mittels TEM sollte aber nicht zu einer quantitativen, sondern zu einer qualitativen Aussage führen. Sie ermöglicht die Diagnose von Kern- (Kerndeformationen und Taschenbildung im Kern) und Akrosomabweichungen (deformierte Akrosome mit oder ohne Vakuolenbildung, abgehobene Akrosome und akrosomreagierte Spermien), Anomalien der Mitochondrien (Unterbrechung der Mitochondrienscheide, zu viele Mitochondrien, anormale Dichte der mitochondrialen Matrix), Defekten des Axonemas (Ordnung oder Anzahl der Mikrotubuli, Mantel- und Ringfasern) und der Anwesenheit immaturer Spermienvorstufen. Diese Methode eignet sich für die Diagnostik subfertiler Hengste mit normalen Spermienparametern bei der routinemäßige Spermienbeurteilung und kann sowohl in nativen als auch in TG-Proben angewendet werden.
Im Vergleich zur Phasenkontrastmikroskopie waren die elektronenmikroskopischen Bilder wegen ihrer stärkeren Vergrößerung und der Darstellung innerer Spermienstrukturen viel aussagekräftiger. Für die Beurteilung von Halsansatzdefekten, abweichende Geißelformen und Mehrfachmißbildungen ist die Phasenkontrastmikroskopie die am besten geeignete Methode. / Evaluation of fresh and frozen-thawed semen samples of fertile and subfertile stallions by light microscopy and transmission electron microscopy.
Institut of Pathology of the Faculty of Veterinary Medicine, University of Leipzig
Reproduktionsmedizinische Einheit der Kliniken der Tierärztlichen Hochschule Hannover
In this study the ultrastructure of fresh and frozen-thawed semen samples of 50 stallions from the National Stud of Lower Saxony (Celle, Germany) were evaluated by light microscopy and transmission electron microscopy (TEM). Three ejaculates of each stallion were available for the motility analysis and the morphological analysis by lightmicroscopy after fixation in formol citrate. Based on the fertility data, the ejaculates of 12 stallions (3 fertile stallions, 3 subfertile stallions and 6 stallions of average fertility) were selected for the morphological analysis by TEM. The native samples and one frozen-thawed sample from these stallions were prepared for the TEM at the Institute of Pathology of the Faculty of Veterinary Medicine, Uni-versity of Leipzig. The sperm cells were washed and the seminal plasma from the native samples and the diluents of the frozen-thawed samples were replaced by a 5%-glutaraldehyde solution in a 0,1 M cacodylate buffer pH 7,2. The fixative was removed, the pellet was washed again and mixed with gelatin. The sperm rich fraction in the gelatin mass was excised and stored in glutaraldehyde. A second fixation in OsO4 was followed by a dehydratation in ethanol and a polymerization phase in epon. After 5 days of polymerization the starred samples were used for semi- and ultratight cuts. The latter were placed on a copper grid, contrasted with uranyl acetate and lead citrate and analyzed with the transmission electron micro-scope (EM 900) by 80 kV. In the fresh samples, 360 sperm cells were examined per stallion, whereas in the frozen-thawed samples only 120 sperm cells per stallion were evaluated.
The microscopic pictures were of a high quality. However, the sperm plasma membrane showed some fixation artifacts. In the thawed samples a lower contrast was noticed than in the fresh samples. The sperm cells in the frozen-thawed samples showed an increase in acrosome defects, acrosome reactions, damage of the cell plasma membrane, mitochondria, fibrous sheet and outer dense fibers. The latter defect was associated with a decrease in proximal and distal cytoplasmatic droplets. Swollen acrosomes with a lower matrix density and a bright mitochondrial matrix were typically present in the cryopreserved samples.
The ultrastructural defects in these samples, examined by TEM, have led to the development of a standard evaluation protocol with the most common sperm defects in stallion semen. TEM is an expensive and time consuming technique, which cannot be used to obtain quantitative results, but is considered as an accurate method for the qualitative examination of semen samples in cases of unexplained subfertility. TEM can especially be recommended for the diagnosis of nuclear (nuclear malformations and pouches) and acrosomal defects (acrosome deformations, acrosome vacuoles, detached acrosomes and acrosome reactions), mitochondrial (mitochondrial sheet defects, mitochondrial proliferation, decrease in mitochondrial matrix density) and axonema malformations (anormal position or quantity of microtubules and fibrous sheet or outer dense fibers defects) and the detection of immature sperm cells in ejaculates. The results of this study state that TEM can be useful for the evaluation of both fresh and frozen-thawed semen samples.
Compared to the light microscopic evaluation of stallion sperm, the TEM images give more precise information because of their higher magnification rate and the ability to reveal internal sperm structures. However, light microscopy remains the best method to detect sperm neck defects, deformed tailes and sperm cells with multiple heads or tails.
|
83 |
Transformation mechanisms to TiO and anatase from Ti thin film by anodizing and thermal annealing treatmentsChung, Yu-Lin 25 February 2012 (has links)
The phase transformation of anodized Ti film has been studied. Although X-ray diffraction detected only the amorphous TiO2 phase, transmission electron microscopy analysis showed that TiO nanocrystallites less than 10 nm in size were also present, which was further supported by x-ray photoelectron spectroscopy analysis. Anatase was found to appear gradually by annealing the as-anodized specimen in air at 500¡V550 oC, which was accompanied by a simultaneous disappearance of TiO nanocrystallites. In contrast, only rutile is formed by annealing the Ti film at the same temperatures. The results indicate that TiO can induce the formation of anatase, which is explained by the close similarity between their structures. (Chapter 1)
Anatase phase of TiO2 has been shown to have very good biocompability. It was frequently observed on Ti surfaces after anodizing and thermal annealing treatments. In this report the mechanisms of the Ti to TiO and the TiO to anatase phase transitions in anodizing and annealing treatments of Ti have been studied by transmission electron microscopy. Ti thin films of two strong textures were first grown on the (001)NaCl substrates. In addition to amorphous TiO2, the anodization treatment caused the formation of TiO with an orientation relationship of (11-20)Ti // (220)TiO with Ti. The subsequent thermal annealing treatment caused the TiO to anatase transition with an orientation relationship of {200}TiO //{200}A. Pure anatase film was prepared by this method. (Chapter 2)
|
84 |
A Study of the Interfacial reaction between Pt and SnFang, Yuang-shing 19 July 2012 (has links)
The orientation relationship and interfaces of PtSn4 and PtSn with the Pt (001) and (111) surfaces have been studied with transmission electron microscopy. Pt was evaporated onto the NaCl (001) and (111) surfaces to form epitaxial Pt thin films and Sn was evaporated onto the Pt films at different temperature to form PtSn4 and PtSn. Pt was evaporated onto the NaCl (001) and (111) surfaces at 350 ¢J to form epitaxial Pt thin films of [001] and [111] zone axes, respectively. Some grains are in random orientation and other as ring pattern. The grain size was at about 10-20 nm.
Sn was evaporated onto the Pt surface at 150 ¢J to form PtSn4 and at 200 ¢J to form PtSn. No good orientation relationships were formed on both the PtSn4/ Sn and the PtSn/ Sn interfaces. Heterogeneous nucleation theory, predicts that PtSn should form before PtSn4, but PtSn4 was observed to the first to form. The possible reasons were discussed.
Keywords: PtSn4/ Sn interface, PtSn/ Sn interface, orientation relationships, thin films, evaporator, transmission electron microscopy
|
85 |
Correlation between morphology and mechanical properties of denture base resin cured by water bath and microwave energyLai, Chia-Ping 23 July 2001 (has links)
Four denture base materials of poly(methyl methacrylate) (QC-20, Pladent-20, Hygenic, and Optilon-399) were prepared by convention water bath and microwave-energy cured methods. While the resin was in the dough stage, it was packed into two molds (65 mm ¡¦15 mm ¡¦10 mm) in the fiber reinforced plastic flask. The variation of temperature with time was recorded by two thermocouples during the microwave heating at 80, 160, and 240 watts, respectively. Microwave polymerization was carried out in the same equipment. The microwave flask containing the same size of resin blocks were processed at 80, 160, 240, and 560 watts for 15, 10, 7, and 2 min, separately. Then each flask was turned over, and cured an additional 2 min at 560 watts. In the case of water-bath method, the resin in the dough stage was packed in the Brass flask, and then cured at 70¢J for 9 hours. Ten specimens were prepared for each condition studied. The surface hardness, porosity, flexural properties and solubility of both process conditions were evaluated. The samples were sectioned by microtome and stained 2 % Osmiun tetroxide, then the morphology of Optilon-399 was observed by using TEM (Transmission electron microscopy) at 160 KV. The result indicate that the flexural strength for Optilon-399 specimens prepared by water-bath method was 20 MPa higher than that prepared in microwave oven, however, there were no obvious difference between the samples cured at different power. Phase separation in two different sizes was observed in all of the Optilon-399 specimens. The larger domain was with 0.18 mm~0.67 mm diameter has dispersed rubber phase surrounded by a rubber periphery. The smaller domain with 0.1 mm diameter is rich with rubber phase. The size and distribution of the larger domain were correlated with the microwave power and curing time. The sample cured by water-bath has the largest average domain diameter (0.395¡Ó0.068 mm). In the specimens prepared by microwave method, the domain size decreased with increasing power. In additions, the domain size varied across the specimen. The size difference between the largest and the smallest domain for specimens cured at 80W was 0.03 mm, and that for specimens cured at 560W was 0.05 mm. This indicated that the larger the power watt was, the higher the morphology difference was.
|
86 |
Metal Nitride Diffusion Barriers for Copper InterconnectsAraujo, Roy A. 14 January 2010 (has links)
Advancements in the semiconductor industry require new materials with
improved performance. With the introduction of copper as the interconnect material for
integrated circuits, efficient diffusion barriers are required to prevent the diffusion of
copper into silicon, which is primarily through grain boundaries. This dissertation
reports the processing of high quality stoichiometric thin films of TiN, TaN and HfN,
and studies their Cu diffusion barrier properties.
Epitaxial metastable cubic TaN (B1-NaCl) thin films were grown on Si(001)
using an ultra-thin TiN (B1-NaCl) seed layer which was as thin as 1 nm. The TiN/TaN
stacks were deposited by Pulsed Laser Deposition (PLD), with the TiN thickness
systematically reduced from 15 to 1 nm. Microstructural studies included X-ray
diffraction (XRD), transmission electron microscopy (TEM) and high resolution TEM
(HRTEM). Preliminary Cu diffusion experiments showed that the TiN seed layer
thickness had little or no obvious effect on the overall microstructure and the diffusion
barrier properties of the TaN/TiN stacks. Epitaxial and highly textured cubic HfN (B1-NaCl) thin films (~100 nm) were
deposited on MgO(001) and Si(001) using PLD. Low resistivities (~40 mu omega-cm) were
measured with a four point probe (FPP). Microstructural characterizations included
XRD, TEM, and HRTEM. Preliminary Cu diffusion tests demonstrated good diffusion
barrier properties, suggesting that HfN is a promising candidate for Cu diffusion
barriers.
Cubic HfN (B1-NaCl) thin films were grown epitaxially on Si(001) substrates by
using a TiN (B1-NaCl) buffer layer as thin as ~10 nm. The HfN/TiN stacks were
deposited by PLD with an overall thickness less than 60 nm. Detailed microstructural
characterizations included XRD, TEM, and HRTEM. The electrical resistivity measured
by FPP was as low as 70 mu omega-cm. Preliminary copper diffusion tests showed good
diffusion barrier properties with a diffusion depth of 2~3 nm after vacuum annealing at
500 degrees C for 30 minutes.
Additional samples with Cu deposited on top of the cubic HfN/TiN/Si(001) were
vacuum annealed at 500 degrees C, 600 degrees C and 650 degrees C for 30 minutes. The diffusivity of copper
in the epitaxial stack was investigated using HRTEM. The measured diffusion depths,
2 Dt , were 3, 4 and 5 nm at 500 degrees C, 600 degrees C and 650 degrees C respectively. Finally, the
diffusivity of Cu into epitaxial HfN was determined to be D=D0 exp(-Q/kT)cm2s-1 with D0=2.3x10-14cm2s-1 and Q=0.52eV.
|
87 |
Experimental investigations of thermal transport in carbon nanotubes, graphene and nanoscale point contactsPettes, Michael Thompson, 1978- 23 June 2011 (has links)
As silicon-based transistor technology continues to scale ever downward, anticipation of the fundamental limitations of ultimately-scaled devices has driven research into alternative device technologies as well as new materials for interconnects and packaging. Additionally, as power dissipation becomes an increasingly important challenge in highly miniaturized devices, both the implementation and verification of high mobility, high thermal conductivity materials, such as low dimensional carbon nanomaterials, and the experimental investigation of heat transfer in the nanoscale regime are requisite to continued progress. This work furthers the current understanding of structure-property relationships in low dimensional carbon nanomaterials, specifically carbon nanotubes (CNTs) and graphene, through use of combined thermal conductance and transmission electron microscopy (TEM) measurements on the same individual nanomaterials suspended between two micro-resistance thermometers. Through the development of a method to measure thermal contact resistance, the intrinsic thermal conductivity, [kappa], of multi-walled (MW) CNTs is found to correlate with TEM observed defect density, linking phonon-defect scattering to the low [kappa] in these chemical vapor deposition (CVD) synthesized nanomaterials. For single- (S) and double- (D) walled (W) CNTs, the [kappa] is found to be limited by thermal contact resistance for the as-grown samples but still four times higher than that for bulk Si. Additionally, through the use of a combined thermal transport-TEM study, the [kappa] of bi-layer graphene is correlated with both crystal structure and surface conditions. Theoretical modeling of the [kappa] temperature dependence allows for the determination that phonon scattering mechanisms in suspended bi-layer graphene with a thin polymeric coating are similar to those for the case of graphene supported on SiO₂. Furthermore, a method is developed to investigate heat transfer through a nanoscale point contact formed between a sharp silicon tip and a silicon substrate in an ultra high vacuum (UHV) atomic force microscope (AFM). A contact mechanics model of the interface, combined with a heat transport model considering solid-solid conduction and near-field thermal radiation leads to the conclusion that the thermal resistance of the nanoscale point contact is dominated by solid-solid conduction. / text
|
88 |
Advanced transmission electron microscopy of GaN-based materials and devicesLiu, Zhenyu January 2011 (has links)
No description available.
|
89 |
Effects of Martensite Tempering on HAZ-Softening and Tensile Properties of Resistance Spot Welded Dual-Phase SteelsBaltazar Hernandez, Victor Hugo January 2010 (has links)
The main purpose of this thesis is to improve the fundamental knowledge of non-isothermal tempering of martensite phase and its effects on the reduction in hardness (softening) with respect the base metal occurring at the heat affected zone (HAZ) of resistance spot welded dual-phase (DP) steels. This thesis also aims at understanding the influence of HAZ-softening on the joint performance of various DP steel grades.
The tempering of martensite occurring at the sub-critical HAZ (SC-HAZ) of resistance spot welded DP600, DP780 and DP980 steels has been systematically evaluated by microhardness testing through Vickers indentation and the degree of tempering has been correlated to the HAZ-softening. From the joint performance analysis of similar and dissimilar steel grade combinations assessed through standardized testing methods, three important issues have been targeted: a) the joint strength (maximum load to failure), b) the location of failure (failure mode), and c) the physical characteristic of the weld that determines certain type of failure (weld nugget size). In addition, a partial tensile test has been conducted in order to evaluate the initiation of failure in dissimilar steel grade combinations. It has been shown that HAZ-softening lowered the weld size at which transition from interfacial to pullout failure mode takes place along with increased load-bearing capacity and higher energy absorption. Thus, it is concluded from mechanical testing that HAZ-softening benefits the lap-shear tensile joint performance of resistance spot welded DP steels by facilitating pullout failures through failure initiation at the SC-HAZ (tempered region).
Instrumented nanoindentation testing was employed to further investigate HAZ-softening along the SC-HAZ by evaluating individual phases of ferrite matrix and tempered martensite islands. Although the ferrite matrix presented a slight reduction in hardness at nanoscale, higher reduction in hardness (softening) resulted for tempered martensite; thus confirming that tempered martensite is the major contributor to softening at micro-scale. A comparison between nanohardness and microhardness testing made at different distances from the line of lower critical temperature of transformation (Ac1) allowed revealing the actual extension of the SC-HAZ. In this regard, good correlation was obtained between nanohardness results along the SC-HAZ and the microstructural changes analyzed by electron microscopy (i.e., the tempering of martensite occurring at various distances far from Ac1 was correlated to low temperature tempering of dual phase steels).
An in-depth analysis of the tempering of martensite phase at high temperature in DP steel subjected non-isothermal conditions i.e., rapid heating, extremely short time at peak temperature and rapid cooling (resistance spot welding), has been carried out mainly through analytical transmission electron microscopy (TEM). In addition, an isothermal tempering condition (i.e., slow heating and long time at peak temperature) in DP steel has been evaluated for complementing the analysis. Both non-isothermal and isothermal conditions have been correlated to the softening behaviour. TEM analysis of the base metal in the DP steel indicated that the morphology of the martensite phase is dependent on its carbon content, and its tempering characteristics are similar to that of equal carbon containing martensitic steel. The isothermally tempered structure is characterized by coarsening and spheroidization of cementite (θ) and complete recovery of the martensite laths; whereas precipitation of fine quasi-spherical intralath θ-carbides, coarser plate-like interlath θ-carbides, decomposition of retained austenite into elongated θ-carbides, and partial recovery of the lath structure were observed after non-isothermal tempering of DP steel. This difference in tempering behaviour is attributed to synergistic effect of delay in cementite precipitation due to higher heating rate, and insufficient time for diffusion of carbon that delays the third stage of tempering process (cementite coarsening and recrystalization) during non-isothermal. The finer size and the plate-like morphology of the precipitated carbides along with the partial recovery of the lath structure observed after non-isothermal tempering strongly influenced the softening behaviour of DP steel. The chemical analysis of θ-carbides through extraction replicas for three different DP steels revealed that the chemistry of the carbides is inherited from the parent DP steel during non-isothermal tempering at high temperature confirming that non-isothermal tempering DP steel is predominantly controlled by carbon diffusion.
|
90 |
Synthesis and Properites of Nanotwinned Silver and AluminumBufford, Daniel C 16 December 2013 (has links)
Recent studies of fcc metals with dense twins (~10 nm spacing) have revealed impressive mechanical properties, along with improved ductility and electrical conductivity in comparison to nanocrystalline metals with similar feature sizes. Many important fcc metals could benefit from these “nanotwinned” microstructures, however, not all fcc metals readily form such twins. The tendency of fcc metals to form twin boundaries is related to the twin boundary energy; those with low twin boundary energy, such as silver (Ag), easily form twins. Increasing twin boundary energy interferes with twin formation, to the point that in metals with high twin boundary energy, like aluminum (Al), twins are quite rare. This thesis focuses on the synthesis of nanotwinned Ag and Al via physical vapor deposition. Nanotwinned Ag is readily fabricated, however, a template approach had to be developed to induce twins in Al. The microstructures and their relationships to observed mechanical properties are also discussed.
Grain boundaries interfere with dislocation transmission by posing a slip system discontinuity between grains. Twin boundaries are a special class of grain boundaries in which the grains on either side of the boundary are related by mirror symmetry. Twin boundaries inhibit dislocation transmission, providing strength in the same manner as grain boundaries. However, their symmetrical structure reduces the free volume and grain boundary energy. Accordingly, coherent twin boundaries are often more energetically stable than grain boundaries, and their coherency allows plasticity mechanisms to remain active under conditions where such mechanisms may be inhibited at grain boundaries. Hence, twin boundaries may provide a metal with unique combinations of high strength and good ductility, conductivity, and thermal stability.
|
Page generated in 0.0501 seconds