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- estimation of wind speed and direction (1)
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100
TRIP Stähle realisieren durch eine unter mechanischer Beanspruchung hervorgerufene Phasenumwandlung von metastabilen Austenit in Martensit (TRIP-Effekt) hohe Festigkeiten bei gleichzeitig guten Verformungseigenschaften. Während der Verarbeitung dieser Werkstoffe mittels Widerstandspunktschweißen können unter den prozessspezifischen extremen Aufheiz- und Abkühlraten Modifikationen des Austenitanteils hervorgerufen werden die als Folge lokal zu einer Änderung der mechanisch-technologischen Eigenschaften führen. Wesentliche Zielsetzung der vorliegenden Arbeit war daher die Analyse der Gefügestruktur im Bereich einer Punktschweißverbindung hinsichtlich der Änderung des Austenitanteils und den daraus resultierenden Änderungen der lokalen mechanischen Eigenschaften unter besonderer Berücksichtigung des TRIP-Effekts. Durch in-situ Beugungsuntersuchungen mittels hochenergetischer Synchrotronstrahlung erfolgte zunächst die Quantifizierung des metastabilen Austenitanteils im unbehandelten Grundwerkstoff. Darauf aufbauend wurden unter definierten Temperaturprofilen in Ofenversuchen die grundlegenden Aspekte der thermisch bedingten Austenitumwandlung im Aufheiz- und Abkühlprozess untersucht. Durch Gleeble-Versuche und Ofenexperimente wurden weiterführend verschiedene Temperaturprofile mit unterschiedlichen im Punktschweißprozess lokal vorliegende Spitzentemperaturen genutzt um eine systematische Bewertung des Einflusses der Temperatur und der Aufheiz- sowie der Abkühlbedingungen auf den Austenitgehalt unter realen Bedingungen zu ermöglichen. Durch Korrelationsuntersuchungen zwischen den mechanischen Kennwerten thermisch präparierter Zugproben und den mittels Metallographisch wie auch röntgenographisch ermittelten Austenitgehalten konnten die metastabilen, d.h. umwandlungsfähigen Austenitanteile bestimmt werden. Schließlich erfolgte eine Bewertung hinschlich der Übertragbarkeit der Ergebnisse auf reale Widerstandspunktschweißverbindungen. Es wurde dabei der Nachweis erbracht, dass die Austenit-Martensit-Phasenumwandlung lediglich in einem lokal eng begrenzen Werkstoffbereich am Übergang WEZ/Grundwerkstoff wirksam werden kann. Demzufolge führt der TRIP-Effekt zu keiner signifikanten Beeinflussung von Festigkeits- und Verformungseigenschaften im Fügebereich von widerstandspunktgeschweißten TRIP Stählen. Die ermittelten mechanischen Kennwerte wurden abschließend als Eingangsdaten für die numerische Simulation des Verformungs- und Festigkeitsverhaltens von Punkschweißverbindungen genutzt. Dabei wurde insbesondere die Notwendigkeit der Implementierung von mechanischen Kenndaten der Wärmeeinflusszone für eine realitätsnahe Modellierung von Scherzugversuchen untersucht.
99
The reduced size of nanoparticles (diameter < 100 nm) confers them high specific surface areas and permeability through many biological pathways resulting in high interaction with biological systems. Therefore, in the recent years, nanoparticles (NPs) have increasingly found many applications in biomedical research. Herein, silica-based NPs are among the most promising candidates for biomedical studies due to their relative low toxicity and the possibility of functional variability. The main focus of this thesis work has been the synthesis and characterisation of novel hybrid NPs with enhanced properties for biomedical studies. More specifically, suppression of protein adsorption and achievement of highly fluorescent NPs in serum-rich media are well focused. First, a chemical strategy for the preparation of highly fluorescent silica nanoparticles by covalent attachment of Alexa dyes and subsequent shielding by an additional pure silica shell is well presented. These nanoparticles were investigated by Dynamic light scattering (DLS), Transmission electron microscopy (TEM) and fluorescence spectroscopy, the latter includes determination of absolute fluorescence quantum yields of such scattering suspensions with an integrating sphere setup and the assignment of fluorescence intensity values. At low shelling extension core-shell fluorescent silica nanoparticles show smooth surfaces and high quantum yields, even comparable to those for free dyes. However, by increasing the amount of shell precursor, nanoparticle surfaces show raspberry morphologies and decay of the quantum yields. Secondly, two different types of novel silica-poly(ethylene glycol) hybrid nanoparticles (H- SiO2-PEG and G- SiO2@PEG) have been synthesized by use of the same polymer precursor: Here the influence of concentration of the polymer precursor poly(ethylene glycol) methyl ether-3-(triethoxysilyl) propyl urethane (mPEG-IPTES) on the particle properties was scrutinised. For polymer grafted NPs, the concentration of polymer precursor increases the PEG density and the hydrophobicity of the NPs surface. On the other hand, for condensated NPs, the polymer precursor influences the size, but not the density of polymer chains on the NPs surface, which indicates that PEG on the surface of the NPs effectively reduces the adsorption of Bovine serum albumin (BSA). Finally, the influence of polymer length on the ability to repel BSA adsorption onto nanoparticles is reported. SNPs@PEG with different molecular weights (mPEG: 350, 2000 and 5000 g/mol) were synthesized by nucleophilic substitution of tosylated mPEG to aminated silica nanoparticles (chemical grafting). The resulted hybrid nanoparticles were consistently characterized by DLS, TEM, Fourier transform infrared spectroscopy (FTIR), Thermogravimetric analysis (TGA) and X-ray photoelectron spectroscopy (XPS). BSA at different concentrations were used as a model protein to study the protein-corona formation after adsorption onto the pristine and modified nanoparticles (SNPs@PEG). For pristine SNPs and SNPs@PEG (MW = 350 g/mol), zeta potential at different incubation times (0, 24 and 48 h) show a dynamic evolution of the nanoparticle-protein corona. Conversely, for SNPs@PEG with MW ≥ 2000 g/mol, a significant suppression of corona formation and time evolution was observed. In resume, protein corona is strongly influenced by the adsorption inhibition of PEG surfaces.
98
Characterization of Polymer Nanocomposites based on Layered Double Hydroxide and Carbon Nanotubes
(2013)
Polymer based nanocomposites by melt blending of synthesized ZnAl-Layered Double Hydroxide (ZnAl-LDH) and Polyolefines [Polypropylene (PP) and Polyethylene (PE)] and also Polylactide (PLA) with MgAl-LDH and multi-walled Carbon Nanotubes (MWCNT) were investigated. The LDH was organically modified by using a surfactant sodium dodecylbenzene sulfonate (SDBS) to increase the interlayer spacing of the LDH, so that polymer chains can intercalate the inter layer galleries. Some amount of maleic anhydride grafted PP and PE were incorporated in the nanocomposites based on PP and PE respectively to enable the interaction of the non-polar polymers (PP and PE) with the LDH. The resulting morphology was investigated by a combination of Differential Scanning Calorimeter (DSC), Small and Wide-angle X-ray scattering (SAXS and WAXS) and broadband dielectric relaxation spectroscopy (BDS). In case of LDH based nanocomposites (PP, PE and PLA), the homogeneity of the nanocomposites and the average number of stack size (4 – 7 layers) were determined using scanning micro focus SAXS (BESSY II). DSC investigations of PP and PE based LDH nanocomposites showed a linear decrease in crystallinity as a function of filler concentration. The extrapolation of this decreasing dependence to zero estimates a limiting concentration of 40 wt% and 45 wt% respectively. Above this amount of LDH the crystallinity of the polymers is completely suppressed. This finding is in agreement with WAXS investigations where the area below the crystalline reflections and amorphous halo were calculated and used to estimate the degree of crystallinity. PLA/LDH nanocomposites presented a little different behavior, the crystallinity of the polymer at first increases and then decreases as a function of LDH concentration. In this case the crystallinity will be suppressed at around 15 wt%. The dielectric spectra of the nanocomposites based on PP/LDH and PE/LDH show several relaxation processes which are discussed in detail. The intensity of the dynamic glass transition increases with the concentration of LDH. This is attributed to the increasing concentration of the exchanged anion dodecylbenzene sulfonate (SDBS) which is adsorbed at the LDH layers. Therefore, a detailed analysis of the β-relaxation provides information about the structure and the molecular dynamics in the interfacial region between the LDH layers and the polymer matrix which is otherwise dielectrically invisible (low dipole moment, non-polar). In case of PLA/LDH, three relaxation processes related to dynamic glass transition and one localized fluctuations were identified and analyzed in detail to understand the morphology. For this system, one dynamic glass transition process originates from the fluctuations of the interfacial molecules, second from the PLA matrix (polar polymer, C=O in the main chain) and the third from segments confined between the intercalated LDH sheets. Additional thermal investigations were carried out for PP/LDH and PLA/LDH samples. The increase in the rigid amorphous fraction (RAF) was observed in both the cases. This is attributed to the polymer molecules which are in close proximity to LDH sheets, as they hinder their mobility. This is analyzed in detail and related to the BDS results. PLA based MWCNT nanocomposites were investigated by BDS as initial result. The findings showed that between 0.5 and 1 wt% of CNT, a percolating network of the nanotubes is formed which leads to DC conductivity. This is due to the high aspect ratio of the CNTs and also the van der Waals interaction between the nanotubes which forms a network leading to conductivity.
97
In der vorliegenden Arbeit wird das Schädigungsverhalten eines kurzglasfaserverstärkten Polyamids analysiert. Die Mikrorissschädigung wird mittels Röntgenrefraktionsanalyse für verschiedene mechanische Betriebsbelastungen untersucht. Dabei werden Möglichkeiten und Grenzen der Röntgenrefraktionsanalyse für kurzglasfaserverstärkte Polyamide herausgearbeitet. Insbesondere werden der Einfluss der Faserorientierungsverteilung und der Einfluss der Schädigungsmechanismen auf die Röntgenrefraktionsanalyse und deren Ergebnisinterpretation betrachtet. Die Methode ermöglicht eine quantitative und phänomenologisch basierte Mikrorissschädigungscharakterisierung. Für den untersuchten Werkstoff tritt Mikrorissschädigung in Form von Faser-Matrix-Ablösung und Matrixrissbildung auf. Die Schädigungshöhe korreliert linear mit dem nichtlinear elastischen Dehnungsanteil und ist abhängig von der Art der Betriebsbelastung. Eine Feuchtigkeitsaufnahme des Werkstoffs kann das Mikrorissschädigungsverhalten deutlich beeinflussen. Die Schädigung durch Mikrorissbildung tritt vorrangig unter Zugbelastungen auf. Die Makroschädigung durch Einzelrissfortschritt wird in Abhängigkeit der Faserorientierung und des Feuchtegehalts in einem automatisierten Versuch charakterisiert. Aufgrund der gewonnenen Erkenntnisse wird ein empirisches Berechnungsmodell erstellt. Die Untersuchungen des Mikro- und Makroschädigungsverhaltens werden fraktografisch begleitet, um die in den Modellvorstellungen vorausgesetzten Schädigungs- und Versagensmechanismen abzusichern.
96
Due to the growing environmental awareness worldwide, containment provisions for CO2 emissions in mobility systems and increasing performance requirements the demands on mechanical systems and their materials continuously rise. These high demands require the implementation of new technical approaches, for example of light-weight strategies in automotive powertrains, and directly raise questions about the suitability of the most promising technical solution. Two basic parameters, the surface hardness of the tooth flanks and the core fatigue strength of the tooth root, illustrate exemplarily increasing demands on material grades used for gear wheels in automotive powertrains. In addition to light-weight strategies, a reduction in friction and an increase of the fatigue lifetime are two other major development directions to strive the mentioned targets. It is clear that any kind of solution must show an equal application profile, preferably an improvement, compared to the state-of- the-art solutions. For tribological systems, the following paths may offer lower friction and higher load carrying capabilities: 1. Alternative base oils and additives (such as esters, polyglycols), 2. Thin film coatings (e.g. DLC) and/or 3. Novel steel metallurgies. In previous investigations on the slip-rolling resistance of thin film coatings (a-C, ta-C, Zr(C,N)) the substrates were mainly made of the bearing steels 100Cr6H and Cronidur 30. Applying contact pressures of up to P0max = 2.9 GPa (FN = 2,000 N), the samples were tested up to 10 million load cycles in endurance tests. The aim of the present work is to broaden the research by varying the input parameters. Newly developed engine oil mixtures, high performance thin film coatings and alternative steel solutions are intensively investigated in highly stressed slip-rolling contacts at lubricant temperatures of 120°C. Specifically, in using new steel metallurgies, i.e. the high toughness and high strength steels V300 and NC310YW (Aubert & Duval) as well as CSS-42L (Latrobe Specialty Steel Company), in combination with thin film coatings, even if they compete in the uncoated state, the Hertzian contact pressures could be increased up to P0max = 4.2 GPa (FN = 5,000 N) without any surface failures of coating or substrate. It was shown that selected thin film coatings can minimize the wear rates down to nearly ‘zero-wear’ in highly stressed contacts [Woy08] [Woy11]. In addition, the studies revealed not only the high potential in slip-rolling resistance, but also a possible friction reduction down to 0.047 by use of uncoated steels with increased toughness. Compared to steels like 100Cr6H and Cronidur 30 this means a reduction in friction of approximately 40% under identical testing conditions. Different test series with newly developed base oil-additive formulations were investigated with specific emphasis on the frictional behavior of selected bio-no-tox EP/AW additives and friction modifiers. Additional influencing factors like the structural and surface conditions of the steels/coatings before and after the tests were analyzed by means of REM, EDX, XRD and TEM.