Povrchové a mechanické vlastnosti a-CSi:H a a-CSiO:H vrstev / Surface and mechanical properties of a-CSi:H and a-CSiO:H films

Plichta, Tomáš

January 2020

The dissertation thesis deals with the preparation and characterisation of a-CSi:H and a CSiO:H thin films prepared using the process of plasma enhanced chemical vapour deposition (PECVD). Tetravinylsilane (TVS) and its mixtures with argon and oxygen were used to deposit films on both planar substrates and fibre bundles. Main characterisation techniques were employed to study the topography of films, namely atomic force microscopy (AFM). Their mechanical properties were studied through nanoindentation; the nanoscratch test was used to assess the film adhesion to the substrate. Other analysed properties were internal stress and friction coefficient. The particular attention was paid to the work of adhesion and its determination. This knowledge was further applied to the preparation of surface treatments of glass fibres and, subsequently, polymer composites. Those were tested using the push-out test and the short beam shear test. Based on the results, the effects of deposition conditions and the relationships between the studied properties and quantities were determined.

Dispersionsoptimierung von Kohlenstoffnanoröhren für die Herstellung von Polymer-Komposit-Drucksensoren

Gerlach, Carina

27 November 2017

Kohlenstoffnanoröhren (engl. carbon nanotubes, CNT)-Polymer-Komposite haben ein großes Potential im Bereich sensorischer Anwendungen. Dabei spielen die elektrischen Eigenschaften des Komposits und deren Änderungen unter mechanischer Belastung eine entscheidende Rolle. Einen maßgeblichen Einfluss nimmt dabei das Aspektverhältnis der CNT-Agglomerate sowie der CNTs selbst ein, welches jeweils vom CNT-Desagglomerationsprozess bestimmt wird. Die Dispergierung beeinflusst folglich auch die elektrische Leitfähigkeit und Reproduzierbarkeit des Komposits sowohl im mechanisch unbelasteten als auch belasteten Zustand. Dies wurde anhand von (teil-)analytischen Modellen gezeigt. Die Dispersionsqualität wird dabei von vielen Faktoren beeinflusst, wobei die Prozessparameter beim Ultraschalldispergieren derzeit nach der Trial-and-Error-Methode bestimmt werden. Im Rahmen der Arbeit wurde eine Dispergiergleichung für zylindrische Partikel, die CNTs näherungsweise sind, erstmals für die Dispergierung von CNTs in Lösungsmitteln entwickelt, angewendet sowie verifiziert. Die Gültigkeit der Gleichung für CNTs wurde durch Variation der Ultraschallparameter Zeit sowie Energie und deren Einfluss auf den Dispergiergrad gezeigt. Die mittels UV-VIS-Spektroskopie gemessene Extinktion diente dabei als indirekte Messgröße des Dispergiergrads. Nach Vorversuchen zur geeigneten Materialauswahl wurden alle relevanten Einflussparameter berechnet oder experimentell bestimmt. Die experimentelle Verifikation erfolgte an CNT-N-Methyl-2-pyrrolidon-Dispersionen, die mittels Ultraschallsonotrode kontrolliert dispergiert wurden. Im Ergebnis wurde gezeigt, dass die Bestimmung der optimalen Ultraschallparameter möglich ist und die bis dahin übliche Praxis der experimentellen Bestimmung der Dispergierparameter für CNTs ablösen kann. Mithin wurde die Grundlage für die Herstellung elektrisch reproduzierbarer CNT-Polymer-Komposit-basierter Sensoren gelegt. Darüber hinaus wurde das Anwendungspotential dieses Sensorkonzepts für Einzelsensoren zur punktuellen Druckmessung über eine Druckverteilungsmessung als Sensormatrix bis hin zur Anwendung als Einlegesohle im Schuh zur Überwachung des Drucks gezeigt. / Carbon nanotubes (CNT) polymer composites in the field of sensory applications have considerable potential. However, their electrical properties and their changes under mechanical stress play a decisive role. The deagglomeration process of the CNTs also has a great influence on the aspect ratio of the CNT agglomerates as well as the CNTs themselves and thus the electrical conductivity and reproducibility of the composite in both the mechanically unloaded and loaded state.This is shown by means of (partially) analytical models. The dispersion quality is influenced by many factors. The process parameters during ultrasound dispersion are currently being determined by a trial-and-error method. Within the scope of the work, a dispersing equation for cylindrical particles, which are approximate to CNTs, was first developed, applied and verified for the dispersion of CNTs in solvents. The validity of the equation for CNTs was shown by the variation of the ultrasonic parameters time as well as energy and their influence on the degree of dispersion. The absorbance measured by means of UV-VIS spectroscopy serves as an indirect measure of the degree of dispersion. After pre-testing for suitable material selection, all relevant influencing parameters were calculated or determined experimentally. Experimental verification was carried out on CNT-N-methyl-2-pyrrolidone dispersions, which were dispersed in a controlled manner by means of an ultrasonic sonotrode. As a result, it is illustrated that the determination of the optimal ultrasonic parameters is possible and can replace the conventional practice of the experimental determination of the dispersing parameters for CNTs. Accordingly, the basis for the production of electrically reproducible CNT polymer composite-based sensors has been established. In addition, the application potential of this sensor concept ranging from individual sensors for selective pressure measurement over pressure distribution measurement as a sensor matrix to the application as a shoe insole for pressure monitoring was shown.

info:eu-repo/classification/ddc/500

ddc:500

info:eu-repo/classification/ddc/541

ddc:541

info:eu-repo/classification/ddc/620

ddc:620

DESIGN AND CHARACTERIZATION OF A PEO-BASED POLYMER COMPOSITE ELECTROLYTE EMBEDDED WITH DOPED-LLZO: ROLE OF DOPANT IN BULK IONIC CONDUCTIVITY

Andres Villa Pulido (8083202)

06 December 2019

Ionic conductivity of solid polymer electrolytes (SPEs) can be enhanced by the addition of fillers, while maintaining good chemical stability, and compatibility with popular cathode and anode materials. Additionally, polymer composite electrolytes can replace the flammable organic liquid in a lithium-ion battery design and are compatible with lithium metal. Compatibility with Li-metal is a key development towards a next-generation rechargeable Li-ion battery, as a Li-metal anode has a specific capacity an order of magnitude higher than LiC6 anodes used today in everyday devices. The addition of fillers is understood to suppress the crystalline fraction in the polymer phase, increasing the ionic conductivity, as Li-ion conduction is most mobile through the amorphous phase. A full model for a conduction mechanism has not yet constructed, as there is evidence that a semi-crystalline PEO-based electrolyte performs better than a fully amorphous electrolyte. Furthermore, it is not yet fully understood why the weight load of fillers in PCEs can range from 2.5%wt to 52.5%wt, in order to achieve high ionic conductivity (~10-4S/cm). This work seeks to investigate the conduction mechanism in the PCE through the use of doped-Li7La3Zr2O12 as a filler and analysis of the PCE microstructure. In this work, a solid-state electrolyte, doped-Li7La3Zr2O12 (LLZO) was synthesized via a sol-gel method, and characterized. The effect of doping and co-doping the Li, La and Zr sites in the LLZO garnet was investigated. A PEO-based polymer composite electrolyte (PCE) was prepared by adding bismuth doped LLZO (Li7-xLa3Zr2-xBixO12) as a filler. The bismuth molar ratio was changed in value to study the dopant role on the bulk PCE ionic conductivity, polymer phase crystallinity and microstructure. Results suggest that small variations in dopant can determine the optimal weight load of filler at which the maximum ionic conductivity is reached. By understanding the relationship between filler properties and electrochemical properties, higher performance can be achieved with minimal filler content, lowering manufacturing costs a solid-state rechargeable Li-ion battery.<br>

Ionic conductivity

Polymer Composite Electrolytes

LLZO

lithium lanthanum zirconium oxide

Pechini process

sol-gel synthesis

casting film

electrolyte

electrochemical impedance spectroscopy

xrd

eis

doped llzo

co-doped llzo

sintering

tortuosity

lithium transport

lithium metal

weight load

arrhenius

Ermüdungsverhalten von Bauteilen aus Wood Polymer Composite im Anwendungsfeld der Fördertechnik

Schubert, Christine, Eichhorn, Sven, Kluge, Patrick, Penno, Eric

12 December 2022

Im Projekt wurde das Ermüdungsverhalten eines hochgefüllten, extrudierten Holz- Polymer- Werkstoffes (Wood Polymer-Composite, kurz: WPC) und dessen technisches Halbzeug (WPC-Systemprofil) im Anwendungsfeld der Fördertechnik erforscht. Kernsegment im Projekt ist das hochgefüllte WPC-Extrusionsprofil als Trag- und Gleitelement im Hängefördersystem (HFS). Im ersten Schritt wurde das Kriechverhalten (langzeitstatisch) und Ermüdungsverhalten unter dynamisch-schwingender Belastung (langzeitdynamisch) am produktspezifischen WPC-Material und am WPC-Systembauteil untersucht. Das Prüfregime bezieht sich dabei auf das reale Belastungskollektiv in der Anwendung des Hängefördersystems, welches vorrangig einer Dreipunktbiegebelastung im WPC-Systemprofil und einer Zugbelastung in der Verbindungsstelle entspricht. Aufbauend auf die Material- und Bauteiluntersuchung wurde der Dauerlauftest am Funktionsprototyp (Hängefördersystem) durchgeführt. Dabei wurden die Kriechneigung des WPC-Systemprofils und der Vorspannkraftverlust in der Verbindungsstelle im praxisrelevanten Fall überwacht. / In the research project the fatigue behavior of a high filled extruded Wood Polymer Composite (WPC) and its technical product were investigated in the application of material handling technology. The main focus of the project is the high filled WPC extrusion profile, which is applied as a sliding rail for the use in an overhead material handling system. In the first step the creep behavior (long-term static load) and fatigue behavior under dynamic-oscillating loads were studied on the product-specific WPC material and on the WPC component. The testing procedure refers to the real stress collection in the application of the overhead material handling system, which corresponds to a three-point bending load in the profile and a tensile load in the connection point. Furthermore, an endurance test was carried out under practical conditions on the overhead matrial handling system to oversee the long-term mechanical properties of the WPC sliding rail and the loss of the preloaded force in the connection point.

info:eu-repo/classification/ddc/620

ddc:620

Reduced Burst Release of Bioactive rhBMP-2 from a Three-phase Composite Scaffold

Grant, David William

31 December 2010

Recombinant human bone morphogenic proteins (rhBMPs) are extensively studied and employed clinically for treatment of various bone defects. Current clinical delivery vehicles suffer wasteful burst releases that mandate supra-physiological dosing driving concerns over safety and cost. It was therefore investigated whether a unique drug delivery vehicle sequestered within a composite scaffold could lower the burst release of rhBMP-2. PLGA-calcium phosphate tri-phasic composite scaffolds delivered model protein BSA with burst release of ~13% and sustained kinetics of 0.5-1.5% BSA/day up to 45 days. rhBMP-2 was delivered with zero burst release however at much lower levels, totaling 0.09% to 0.9 % release over 10 days, but had up to 6.3-fold greater bioactivity than fresh rhBMP-2 (p<0.05). In conclusion, the three-phase composite scaffold can deliver bioactive proteins with a reduced burst release and sustained secondary kinetics.

Drug delivery

Bone

Bone morphogenic protein

BMP

BMP-2

rhBMP-2

bone graft

tissue engineering

scaffold

bone tissue engineering

regenerative medicine

osteoinduction

osteoconduction

osteogenesis

generative surgery

autoraft replacement

synthetic autograft replacement

morphogenic bioactivity assay

protein release kinetics

bovine serum albumin

model protein

biomaterials

biomaterial surface analysis

scanning electron microscope application

accelerating voltage application

burst release

sustained kinetics

sustained delivery

composite scaffold

three phase scaffold

PLGA

calcium phosphate

mineral-polymer composite

sterilization

BMP sterilization

long-term storage

BMP storage

0541

Reduced Burst Release of Bioactive rhBMP-2 from a Three-phase Composite Scaffold

Grant, David William

31 December 2010

Recombinant human bone morphogenic proteins (rhBMPs) are extensively studied and employed clinically for treatment of various bone defects. Current clinical delivery vehicles suffer wasteful burst releases that mandate supra-physiological dosing driving concerns over safety and cost. It was therefore investigated whether a unique drug delivery vehicle sequestered within a composite scaffold could lower the burst release of rhBMP-2. PLGA-calcium phosphate tri-phasic composite scaffolds delivered model protein BSA with burst release of ~13% and sustained kinetics of 0.5-1.5% BSA/day up to 45 days. rhBMP-2 was delivered with zero burst release however at much lower levels, totaling 0.09% to 0.9 % release over 10 days, but had up to 6.3-fold greater bioactivity than fresh rhBMP-2 (p<0.05). In conclusion, the three-phase composite scaffold can deliver bioactive proteins with a reduced burst release and sustained secondary kinetics.

Drug delivery

Bone

Bone morphogenic protein

BMP

BMP-2

rhBMP-2

bone graft

tissue engineering

scaffold

bone tissue engineering

regenerative medicine

osteoinduction

osteoconduction

osteogenesis

generative surgery

autoraft replacement

synthetic autograft replacement

morphogenic bioactivity assay

protein release kinetics

bovine serum albumin

model protein

biomaterials

biomaterial surface analysis

scanning electron microscope application

accelerating voltage application

burst release

sustained kinetics

sustained delivery

composite scaffold

three phase scaffold

PLGA

calcium phosphate

mineral-polymer composite

sterilization

BMP sterilization

long-term storage

BMP storage

0541