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Eingeladener Vortrag
- nein (29)
Two different approaches to investigate the local complex conductivity and the surface charge with Scanning Force Microscopy (SFM) techniques are presented. It is shown that the measurement of local electrical properties with SFM leads to interesting information about the composition of electrically heterogeneous surfaces
With an extended contact and non-contact mode scanning force microscope samples with different heterogeneous electrical properties can be characterized. The contact mode method allows the determination of local electric conductivities of heterogeneous systems at the sample surfaces. An interpretation of this behaviour can be obtained in combination with other SFM modes such as topography, friction and compliance used simultaneously. The non-contact mode SFM allows to get more information about the local surface charge of heterogeneous samples. In this paper two new SFM approaches will be discussed on examples of carbon-fibre reinforced, organic and ceramic materials
Das Fließ-Härtungs-Verhalten von Duroplastformmassen wird gegenwärtig nur
unvollständig durch empirische Größen beschrieben. Diese ungenauen und
unsicheren Angaben können zu Schwierigkeiten bei der optimalen Einstellung
der Fertigungsmaschinen des Verarbeiters führen. Insbesondere Veränderungen
der Formmasseeigenschaften während des Transportes und der Lagerung stören
die Produktion. Das vorgestellte Messverfahren mit Ultraschall-sensoren ermöglicht
die schnelle und vollständige Erfassung des Fließ-Härtungs-Verhaltens, auch
während des technologischen Prozesses. Experimentelle Ergebnisse zu
Alterungs-erscheinungen dieser Formmassen illustrieren den Nutzen des
Verfahrens für Formmasse-produzenten und -verarbeiter.
In processing fibre-reinforced composites, the curing reaction can be significantly retarded if the temperature and reaction time are not optimally set. In such situations, complete curing is sometimes impossible under practically relevant conditions. It is difficult for processors to recognize or detect incomplete curing. The equilibrium glass transition temperature plays an important role in complete curing in the production process.
Vernetzen statt Verglasen
(2000)
In recent years eure monitoring with ultrasonic methods became more important. An on-line measurement System for industrial applications is presented in this paper. It operates in through-transmission and the measured parameters are the sound velocity and the attenuation of the sound wave. An objective of this paper is to establish the ränge of possible applications for an ultrasonic eure monitoring System.
The curing conditions play an important role in the quality assurance of composite products.
Especially as composite materials are widely used in high tech areas so that they are required to fulfil high quality Standards. Some problems which occur during curing, for instance undercuring, can hardly be detected using Standard NDT investigations, mainly because they are manifested only at high temperatures, particularly close to glass-rubber-transition. On-line eure monitoring has the outstanding advantage that it can monitor the material parameters even at the highest temperatures possible.
In recent years eure monitoring with ultrasonic methods has become more populär. In comparison to dielectric methods mechanical parameters are measured directly. The quantities to be measured are the velocity and the attenuation of the sound wave. On this basis the storage and loss modulus can be calculated. Depending on the form of excitation with longitudinal or transversal waves these moduli are referred to as long wave or shear modulus.
Well developed Computer based technology and sensor materials are available in the non-destructive testing (NDT) market. The measuring equipment employed a commercial NDT System, which worked computer-aided. With a special Software the demands of automatic Operation under industrial conditions was accomplished. This measurement equipment was tested on composites. Its structure, performance and some practical results will be presented in the following paper.
Ultrasound waves penetrate solid objects without damaging them. Their fields of application range from the imaging of internal organs in medicine, to interior testing of mechanical and chemical engineering components. However, ultrasonic systems can also be used to visualise the way the mechanical properties of reactive resins change during processing in the mould.
Ultraschallwellen durchdringen Festkörper, ohne sie zu schädigen. Der Einsatzbereich von Ultraschall reicht von der Darstellung der inneren Organe in
der Medizin bis zur Prüfung des Inneren von Bauteilen im Maschinen- und
Anlagenbau. Ultraschall-Systeme können jedoch auch genutzt werden, um
sichtbar zu machen, wie sich mechanische Eigenschaften von Reaktionsharzen
während ihrer Verarbeitung im Werkzeug verändern.
Zusammenfassung
In diesem Beitrag wird zunächst die für die on-line Prozesskontrolle an duroplastischen Formmassen entwickelte Ultraschallmesstechnik vorgestellt. Die Methode basiert auf der Durchschallung des vernetzenden Materials mit Hilfe von in das Werkzeug integrierten druck- und temperaturfesten 4 MHz-Ultraschallsensoren. Die Auswertung von Schalllaufzeit und Signalamplitude erfolgt vollautomatisch und dient der Berechnung von Schallgeschwindigkeit und -dämpfung. Beide Größen repräsentieren die änderung der mechanischen Eigenschaften infolge der Vernetzungsreaktion. Durch Anwendung auf vulkanisierende Materialien sollte die Anwendbarkeit der bewährten Methode erweitert werden. Im Ergebnis wird gezeigt, dass die Größe des Messeffekts von der Menge an Vernetzer (Schwefelkonzentration) abhängt. Bei ausreichend hohem Vernetzungsgrad zeigt die Ultraschallgeschwindigkeit signifikante, gut auswertbare Resultate, die den Ablauf der Vulkanisation on-line zu verfolgen gestatten. Ein Vergleich mit Vulkameterkurven zeigt große ähnlichkeiten und berechtigt zu der Hoffnung, dass die Methode industriellen Einsatz finden kann.
The application of microwave measurements to the characterisation of rubber compounds vulcanisation is considered. The behaviour of mechanical and microwave (20 GHz) dielectric parameters during vulcanisation was investigated for rubber compounds with different concentrations of active and non-active carbon black. An increase of concentration or activity of carbon black results in the increase of both dielectric permittivity ε?(T) and loss ε?(T) and in the increase of torsion modulus as well. The start of the vulcanisation reaction is indicated by an increase of dielectric permittivity and torsion modulus in all investigated unvulcanised compounds with carbon black. While for compounds with non-active carbon black the vulcanisation can be better indicated by the ε?(T) anomaly, for compounds with active carbon black it is more clearly seen by the change of ε?(T) behaviour.
Zusammenfassung
Der Ausgangspunkt für diese Arbeiten ist eine in [1] beschriebene Ultraschall-(US)-Sensorik zur Aushärtungskontrolle. Sie wurde für rieselfähige Formmassen entwickelt [2,3]. Darauf aufbauend ist es das Ziel der vorliegenden Arbeit, die Voraussetzungen für den Einsatz dieser Sensorik beim Harzinjektionsverfahren zu schaffen und ihre Kalibrierung durch rheologische und DSC-Messungen zu ermöglichen.
Der erste Teil des Beitrages beschäftigt sich mit dem technologischen Ablauf des Harzinjektionsverfahren und den Einsatzmöglichkeiten der US-Sensorik bei dieser Technologie. Ergebnisse von Schallgeschwindigkeits- und Dämpfungsmessungen für EP-Harze werden vorgestellt.
Im zweiten Teil wird auf das Kalibrieren der US-Sensorik für den Verarbeiter eingegangen. Es kann mittels der bisherigen Prozessführung oder durch Vergleich mit den Ergebnissen anderer Mess-Verfahren wie Rheometer- oder Differential-Scanning-Calerometry-(DSC)-Messungen erfolgen.
Ultrasound on-line NDT methods have been demonstrated as a useful tool for monitoring the curing reaction of thermosets. In order to achieve this ultrasound sensors are incorporated into compression, injection and RTM (resin transfer) mould. For many commercial products imprints or any surface markings upon the moulded product are undesirable. Due to its physical properties ultrasound has a large advantage over other techniques for similar applications. The sound wave can pass through the wall of the mould and direct contact with the moulded part is not required. In this particular case one fundamental problem is a good coupling of the sensors to the mould wall. Several mediums came into question but because of the high technical (e. g. temperature and long time stability) and practical demands, it was decided that dry (non-fluid) coupling would be the most promising candidate. A handful of coupling foils suitable also at high temperatures and for long time application under industrial conditions were tested and are presented in this paper.
Einfluss hoher Temperaturen und Drücke auf die Ultraschalleigenschaften eines Komposit-Prüfkopfes
(2004)
Adhesion of amorphous polymers as a function of temperature probed with AFM force-distance curves
(2005)
Forcedisplacement curves have been obtained with a commercial atomic force microscope at different temperatures and probe rates on a thick film of poly(n-butyl methacrylate) and on two films of polystyrene with different molecular weight. In a previous publication [B. Cappella, S.K. Kaliappan, H. Sturm, Macromolecules 38 (2005)1874] the analysis of forcedisplacement curves has been focused on the stiffness and on the Young's modulus of the samples. In the present publication we consider the temperature dependence of the work of adhesion. We have obtained master curves of the work of adhesion at fixed maximum loads and, by comparing the results of the two analysis, we show that the work of adhesion follows the WilliamsLandelFerry equation with the same coefficients previously found for the Young's modulus. Furthermore, we show that the temperature dependence of the work of adhesion of the polymers is a consequence of the temperature dependence of the tipsample contact area and in the end of the temperature dependence of the stiffness and of the elasticplastic properties of the samples.
A stoichiometric amineepoxy formulation was cured in the presence of a thermoplastic, namely poly(vinylpyrrolidone) (PVP). The epoxy system consisted of the resin diglycidyl ether of bisphenol A (DGEBA) and the aromatic curing agent 4,4'-diaminodiphenylsulfone (DDS). As shown for this system in a former study by Oyama et al. [Oyama HT, Lesko JJ, Wightman JP. J Polym Sci B 1997;35:33146. [36]], preferential absorption of amine molecules by PVP can occur. In the present study, the focus is on the variations of local elastic properties within the epoxy interphase adjacent to the PVP layer. The curing was performed close to the glass transition temperature, Tα, of the PVP film, namely at 170 °C. Variations of the local amine concentration were tracked using energy-dispersive analysis of X-rays (EDX), by taking benefit of the sulfur contained in DDS. Using temperature-dependent dynamic mechanical analysis (DMA), a series of epoxy reference samples of different amineepoxy concentration ratios, r, was investigated in order to work out the relationship between r and the epoxy storage modulus at room temperature. In the excess-epoxy regime, r<1, the modulus is observed to increase with departure from the stoichiometric ratio, r=1. Considering the respective suppression of the ß-transition, the observed characteristic can be explained by an antiplasticisation effect. Depth-sensing indentation (DSI) experiments across the epoxy/PVP interphase provided evidence for strong modulus variations. In consistency with the EDX and the DMA data, in the vicinity of the PVP layer the local epoxy modulus is increased. The total change of the epoxy Young's modulus is ~1.1 GPa. However, the total width of the modulus decay of ~175 µm is ~2.5 times larger than the one of the DDS concentration gradient. This finding is discussed in terms of additional spatial variations of the DGEBA concentration as well as long-range diffusion currents of DDS induced by the interdiffusion processes and their effect on the final network of crosslinks.