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- Kaiserslautern - Fachbereich Maschinenbau und Verfahrenstechnik (30)
- Kaiserslautern - Fachbereich Informatik (24)
- Kaiserslautern - Fachbereich Sozialwissenschaften (22)
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Previously in this journal we have reported on fundamental transversemode selection (TMS#0) of broad area semiconductor lasers
(BALs) with integrated twice-retracted 4f set-up and film-waveguide lens as the Fourier-transform element. Now we choose and
report on a simpler approach for BAL-TMS#0, i.e., the use of a stable confocal longitudinal BAL resonator of length L with a
transverse constriction.The absolute value of the radius R of curvature of both mirror-facets convex in one dimension (1D) is R = L
= 2f with focal length f.The round trip length 2L = 4f againmakes up for a Fourier-optical 4f set-up and the constriction resulting
in a resonator-internal beam waist stands for a Fourier-optical low-pass spatial frequency filter. Good TMS#0 is achieved, as long
as the constriction is tight enough, but filamentation is not completely suppressed.
1. Introduction
Broad area (semiconductor diode) lasers (BALs) are intended
to emit high optical output powers (where “high” is relative
and depending on the material system). As compared to
conventional narrow stripe lasers, the higher power is distributed
over a larger transverse cross-section, thus avoiding
catastrophic optical mirror damage (COMD). Typical BALs
have emitter widths of around 100 ????m.
Thedrawback is the distribution of the high output power
over a large number of transverse modes (in cases without
countermeasures) limiting the portion of the light power in
the fundamental transverse mode (mode #0), which ought to
be maximized for the sake of good light focusability.
Thus techniques have to be used to support, prefer, or
select the fundamental transverse mode (transverse mode
selection TMS#0) by suppression of higher order modes
already upon build-up of the laser oscillation.
In many cases reported in the literature, either a BAL
facet, the
Destructive diseases of the lung like lung cancer or fibrosis are still often lethal. Also in case of fibrosis in the liver, the only possible cure is transplantation.
In this thesis, we investigate 3D micro computed synchrotron radiation (SR\( \mu \)CT) images of capillary blood vessels in mouse lungs and livers. The specimen show so-called compensatory lung growth as well as different states of pulmonary and hepatic fibrosis.
During compensatory lung growth, after resecting part of the lung, the remaining part compensates for this loss by extending into the empty space. This process is accompanied by an active vessel growing.
In general, the human lung can not compensate for such a loss. Thus, understanding this process in mice is important to improve treatment options in case of diseases like lung cancer.
In case of fibrosis, the formation of scars within the organ's tissue forces the capillary vessels to grow to ensure blood supply.
Thus, the process of fibrosis as well as compensatory lung growth can be accessed by considering the capillary architecture.
As preparation of 2D microscopic images is faster, easier, and cheaper compared to SR\( \mu \)CT images, they currently form the basis of medical investigation. Yet, characteristics like direction and shape of objects can only properly be analyzed using 3D imaging techniques. Hence, analyzing SR\( \mu \)CT data provides valuable additional information.
For the fibrotic specimen, we apply image analysis methods well-known from material science. We measure the vessel diameter using the granulometry distribution function and describe the inter-vessel distance by the spherical contact distribution. Moreover, we estimate the directional distribution of the capillary structure. All features turn out to be useful to characterize fibrosis based on the deformation of capillary vessels.
It is already known that the most efficient mechanism of vessel growing forms small torus-shaped holes within the capillary structure, so-called intussusceptive pillars. Analyzing their location and number strongly contributes to the characterization of vessel growing. Hence, for all three applications, this is of great interest. This thesis provides the first algorithm to detect intussusceptive pillars in SR\( \mu \)CT images. After segmentation of raw image data, our algorithm works automatically and allows for a quantitative evaluation of a large amount of data.
The analysis of SR\( \mu \)CT data using our pillar algorithm as well as the granulometry, spherical contact distribution, and directional analysis extends the current state-of-the-art in medical studies. Although it is not possible to replace certain 3D features by 2D features without losing information, our results could be used to examine 2D features approximating the 3D findings reasonably well.
In this contribution a phase field model for ductile fracture with linear isotropic hardening is presented. An energy functional consisting of an elastic energy, a plastic dissipation potential and a Griffith type fracture energy constitutes the model. The application of an unaltered radial return algorithm on element level is possible due to the choice of an appropriate coupling between the nodal degrees of freedom, namely the displacement and the crack/fracture fields. The degradation function models the mentioned coupling by reducing the stiffness of the material and the plastic contribution of the energy density in broken material. Furthermore, to solve the global system of differential equations comprising the balance of linear momentum and the quasi-static Ginzburg-Landau type evolution equation, the application of a monolithic iterative solution scheme becomes feasible. The compact model is used to perform 3D simulations of fracture in tension. The computed plastic zones are compared to the dog-bone model that is used to derive validity criteria for KIC measurements.
A distributional solution framework is developed for systems consisting of linear hyperbolic partial differential equations (PDEs) and switched differential algebraic equations (DAEs) which are coupled via boundary conditions. The unique solvability is then characterize in terms of a switched delay DAE. The theory is illustrated with an example of electric power lines modeled by the telegraph equations which are coupled via a switching transformer where simulations confirm the predicted impulsive solutions.
Anisotropy of tracer-coupled networks is a hallmark in many brain regions. In the past, the topography of these networks was analyzed using various approaches, which focused on different aspects, e.g., position, tracer signal, or direction of coupled cells. Here, we developed a vector-based method to analyze the extent and preferential direction of tracer spreading. As a model region, we chose the lateral superior olive—a nucleus that exhibits specialized network topography. In acute slices, sulforhodamine 101-positive astrocytes were patch-clamped and dialyzed with the GJ-permeable tracer neurobiotin, which was subsequently labeled with avidin alexa fluor 488. A predetermined threshold was used to differentiate between tracer-coupled and tracer-uncoupled cells. Tracer extent was calculated from the vector means of tracer-coupled cells in four 90° sectors. We then computed the preferential direction using a rotating coordinate system and post hoc fitting of these results with a sinusoidal function. The new method allows for an objective analysis of tracer spreading that provides information about shape and orientation of GJ networks. We expect this approach to become a vital tool for the analysis of coupling anisotropy in many brain regions
Eine Maturaschule ist eine private Bildungseinrichtung, in der Menschen darauf vorbereitet werden, ihre Matura, das österreichische Pendant zum Abitur, nachzuholen. Maturaschulen, die auf externe Prüfungen vorbereiten, verfügen üblicherweise weder über die Möglichkeit, offizielle Noten zu geben, noch Anwesenheit einzufordern. Die Gegebenheiten einer Maturaschule sind somit nicht nur vorteilhaft hinsichtlich eines guten Schulklimas mit partnerschaftlichen Lehrer-Schüler-Beziehungen. Im Zusammenhang mit zu wenig Eigenverantwortlichkeit der Lernenden können diese Gegebenheiten durchaus problematisch sein.
Adjustment Effects of Maximum Intensity Tolerance During Whole-Body Electromyostimulation Training
(2019)
Intensity regulation during whole-body electromyostimulation (WB-EMS) training is mostly controlled by subjective scales such as CR-10 Borg scale. To determine objective training intensities derived from a maximum as it is used in conventional strength training using the one-repetition-maximum (1-RM), a comparable maximum in WB-EMS is necessary. Therefore, the aim of this study was to examine, if there is an individual maximum intensity tolerance plateau after multiple consecutive EMS application sessions. A total of 52 subjects (24.1 ± 3.2 years; 76.8 ± 11.1 kg; 1.77 ± 0.09 m) participated in the longitudinal, observational study (38 males, 14 females). Each participant carried out four consecutive maximal EMS applications (T1–T4) separated by 1 week. All muscle groups were stimulated successively until their individual maximum and combined to a whole-body stimulation index to carry out a possible statement for the development of the maximum intensity tolerance of the whole body. There was a significant main effect between the measurement times for all participants (p < 0.001; ????2 = 0.39) as well as gender specific for males (p = 0.001; ????2 = 0.18) and females (p < 0.001; ????2 = 0.57). There were no interaction effects of gender × measurement time (p = 0.394). The maximum intensity tolerance increased significantly from T1 to T2 (p = 0.001) and T2 to T3 (p < 0.001). There was no significant difference between T3 and T4 (p = 1.0). These results indicate that there is an adjustment of the individual maximum intensity tolerance to a WB-EMS training after three consecutive tests. Therefore, there is a need of several habituation units comparable to the identification of the individual 1-RM in conventional strength training. Further research should focus on an objective intensity-specific regulation of the WB-EMS based on the individual maximum intensity tolerance to characterize different training areas and therefore generate specific adaptations to a WB-EMS training compared to conventional strength training methods.
Adsorption and Diffusion of Cisplatin Molecules in Nanoporous Materials: A Molecular Dynamics Study
(2019)
Using molecular dynamics simulations, the adsorption and diffusion of cisplatin drug molecules in nanopores is investigated for several inorganic materials. Three different materials are studied with widely-varying properties: metallic gold, covalent silicon, and silica. We found a strong influence of both the van der Waals and the electrostatic interaction on the adsorption behavior on the pore walls, which in turn influence the diffusion coefficients. While van der Waals forces generally lead to a reduction of the diffusion coefficient, the fluctuations in the electrostatic energy induced by orientation changes of the cisplatin molecule were found to help desorb the molecule from the wall.
A novel method for the highly stereoselective synthesis of tetrahydropyrans is reported. This domino reaction is based on a twofold addition of enamides to aldehydes followed by a subsequent cyclization and furnishes fully substituted tetrahydropyrans in high yields. Three new σ-bonds and five continuous stereogenic centers are formed in this one-pot process with a remarkable degree of diastereoselectivity. In most cases, the formation of only one out of 16 possible diastereomers is observed. Two different stereoisomers can be accessed in a controlled fashion starting either from an E- or a Z-configured enamide.
Phase-gradient metasurfaces can be designed to manipulate electromagnetic waves according to the generalized Snell’s law. Here, we show that a phased parallel-plate waveguide array (PPWA) can be devised to act in the same manner as a phase-gradient metasurface. We derive an analytic model that describes the wave propagation in the PPWA and calculate both the angle and amplitude distribution of the diffracted waves. The analytic model provides an intuitive understanding of the diffraction from the PPWA. We verify the (semi-)analytically calculated angle and amplitude distribution of the diffracted waves by numerical 3-D simulations and experimental measurements in a microwave goniometer.
Various physical phenomenons with sudden transients that results into structrual changes can be modeled via
switched nonlinear differential algebraic equations (DAEs) of the type
\[
E_{\sigma}\dot{x}=A_{\sigma}x+f_{\sigma}+g_{\sigma}(x). \tag{DAE}
\]
where \(E_p,A_p \in \mathbb{R}^{n\times n}, x\mapsto g_p(x),\) is a mapping, \(p \in \{1,\cdots,P\}, P\in \mathbb{N}
f \in \mathbb{R} \rightarrow \mathbb{R}^n , \sigma: \mathbb{R} \rightarrow \{1,\cdots, P\}\).
Two related common tasks are:
Task 1: Investigate if above (DAE) has a solution and if it is unique.
Task 2: Find a connection among a solution of above (DAE) and solutions of related
partial differential equations.
In the linear case \(g(x) \equiv 0\) the task 1 has been tackeled already in a
distributional solution framework.
A main goal of the dissertation is to give contribution to task 1 for the
nonlinear case \(g(x) \not \equiv 0\) ; also contributions to the task 2 are given for
switched nonlinear DAEs arising while modeling sudden transients in water
distribution networks. In addition, this thesis contains the following further
contributions:
The notion of structured switched nonlinear DAEs has been introduced,
allowing also non regular distributions as solutions. This extend a previous
framework that allowed only piecewise smooth functions as solutions. Further six mild conditions were given to ensure existence and uniqueness of the solution within the space of piecewise smooth distribution. The main
condition, namely the regularity of the matrix pair \((E,A)\), is interpreted geometrically for those switched nonlinear DAEs arising from water network graphs.
Another contribution is the introduction of these switched nonlinear DAEs
as a simplication of the PDE model used classically for modeling water networks. Finally, with the support of numerical simulations of the PDE model it has been illustrated that this switched nonlinear DAE model is a good approximation for the PDE model in case of a small compressibility coefficient.
Radar cross section reducing (RCSR) metasurfaces or coding metasurfaces were primarily designed for normally incident radiation in the past. It is evident that the performance of coding metasurfaces for RCSR can be significantly improved by additional backscattering reduction of obliquely incident radiation, which requires a valid analytic conception tool. Here, we derive an analytic current density distribution model for the calculation of the backscatter far-field of obliquely incident radiation on a coding metasurface for RCSR. For demonstration, we devise and fabricate a metasurface for a working frequency of 10.66GHz and obtain good agreement between the measured, simulated, and analytically calculated backscatter far-fields. The metasurface significantly reduces backscattering for incidence angles between −40∘ and 40∘ in a spectral working range of approximately 1GHz.
In dieser Masterarbeit wird die Bedeutung von Haltung im Lehr-Lern-Prozess der Erwachsenenbildung theoriebasierend reflektiert und diskutiert. Zur theoretischen Grundlegung der aufgeworfenen Thematik wurde eine Literaturarbeit erstellt mit der erkenntnisleitenden Fragestellung: Warum bedarf es einer Haltung der Anerkennung in der heilpädagogischen Lehre, die einen Begegnungsraum eröffnet und eine Seins-Werdung im Dialog ermöglicht?
Die Haltung, betrachtet als das Sein des Pädagogen, wird mittels einer historischen Skizzierung entfaltet und philosophisch-anthropologisch grundgelegt.
Daran schließt sich ein Diskurs aus drei unterschiedlichen Perspektiven an: Die erste ist die systemisch-konstruktivistische Bildungstheorie Bezug nehmend zu Niklas Luhmann und Horst Siebert sowie Rolf Arnold aus der Erwachsenenbildung. Die zweite fußt auf der kritischen Subjekttheorie basierend auf Max Horkheimer/Theodor W. Adorno, Axel Honneth und Erhard Meueler als Vertreter der Erwachsenenbildung. Die dritte bezieht sich auf die religions-philosophische Theorie von Romano Guardini und Martin Buber als konzeptionelle Entwickler von Angeboten in der Erwachsenenbildung. Es werden die unterschiedlichen Ausrichtungen verglichen, sodass in den Widersprüchen der Perspektiven die Bedeutung der Haltung in ihrer Vielschichtigkeit sichtbar wird.
Aus diesem Diskurs heraus wurde der Versuch unternommen, einen verstehenden Zugang zum Anerkennungskonzept zu bahnen. Als Referenzpunkt dieser Arbeit wird das von Wolfgang Müller-Commichau entwickelte Konzept für die Erwachsenenbildung herangezogen, theoretisch begründet hergeleitet und ausführlich dargelegt. In einem hermeneutischen Zirkel erforscht er die pädagogischen Spannungsfelder und lässt in einem kreativ-konstruierenden Prozess einen intersubjektiven Begegnungsraum im Lehr-Lern-Prozess entstehen, in dem eine Pendelbewegung zwischen Selbst-Referenz und Fremd-Erwartung ermöglicht wird.
Die wertschätzende und respektvolle Haltung der Anerkennung gilt auch für die Bildungsprozesse in der Heilpädagogik, die in einem abschließenden Kapitel mit Impulsen für die Gestaltung von Lehr-Lern-Prozessen praxisbezogen konkretisiert werden.
Ziele der Bildungsangebote zur Heilpädagogik sind somit die Haltungsbildung und der Erwerb von Handlungskompetenzen. Über die Anerkennung im Dialog wird eine Haltungsbildung auf sozial-emotionaler Ebene angeregt, die vorrangig ist vor jeder kognitiven Theoriebildung, um das Sein der Heilpädagogin auszubilden und den Anforderungen der Praxis gerecht zu werden. Dieses Ergebnis der vorliegenden Masterarbeit schließt mit einem Zitat ab: „Wesenhafte Bildung wurzelt nicht im Wissen, sondern im Sein“ (Romano Guardini).
Anwenderunterstützung bei der Nutzung und Überprüfung von optischen 3D-Oberflächenmessgeräten
(2019)
Technische Oberflächen werden mit immer komplexeren, dreidimensionalen Strukturen hergestellt, um gewünschte Funktionseigenschaften zu erhalten. Mit taktilen Rauheitsmessgeräten lassen sich diese allerdings nur schwer charakterisieren. Besser eignen sich hierfür optische Rauheitsmessgeräte, die die Oberfläche flächenhaft erfassen können. Diese unterscheiden sich allerdings in ihren Eigenschaften und Einstellungen von den in der Industrie bekannten und bewährten taktilen Systemen. Daher wird in dieser Arbeit ein Assistenzsystem vorgestellt, das die Anwender unterstützt, ihr optisches Rauheitsmessgerät sicher und normgerecht nach DIN EN ISO 25178 einzusetzen.Das Assistenzsystem führt Schritt für Schritt durch die Planung einer Messaufgabe, durch die Überprüfung zur Kontrolle der korrekten Funktion des Gerätes und der Eignung für die Messaufgabe, und im letzten Schritt durch die normgerechte Auswertung der Messung, um die gewünschten 3D-Oberflächenkennwerte zu erhalten.
The usage of sensors in modern technical systems and consumer products is in a rapid increase. This advancement can be characterized by two major factors, namely, the mass introduction of consumer oriented sensing devices to the market and the sheer amount of sensor data being generated. These characteristics raise subsequent challenges regarding both the consumer sensing devices' reliability and the management and utilization of the generated sensor data. This thesis addresses these challenges through two main contributions. It presents a novel framework that leverages sentiment analysis techniques in order to assess the quality of consumer sensing devices. It also couples semantic technologies with big data technologies to present a new optimized approach for realization and management of semantic sensor data, hence providing a robust means of integration, analysis, and reuse of the generated data. The thesis also presents several applications that show the potential of the contributions in real-life scenarios.
Due to the broad range, growing feature set and fast release pace of new sensor-based products, evaluating these products is very challenging as standard product testing is not practical. As an alternative, an end-to-end aspect-based sentiment summarizer pipeline for evaluation of consumer sensing devices is presented. The pipeline uses product reviews to extract the sentiment at the aspect level and includes several components namely, product name extractor, aspects extractor and a lexicon-based sentiment extractor which handles multiple sentiment analysis challenges such as sentiment shifters, negations, and comparative sentences among others. The proposed summarizer's components generally outperform the state-of-the-art approaches. As a use case, features of the market leading fitness trackers are evaluated and a dynamic visual summarizer is presented to display the evaluation results and to provide personalized product recommendations for potential customers.
The increased usage of sensing devices in the consumer market is accompanied with increased deployment of sensors in various other fields such as industry, agriculture, and energy production systems. This necessitates using efficient and scalable methods for storing and processing of sensor data. Coupling big data technologies with semantic techniques not only helps to achieve the desired storage and processing goals, but also facilitates data integration, data analysis, and the utilization of data in unforeseen future applications through preserving the data generation context. This thesis proposes an efficient and scalable solution for semantification, storage and processing of raw sensor data through ontological modelling of sensor data and a novel encoding scheme that harnesses the split between the statements of the conceptual model of an ontology (TBox) and the individual facts (ABox) along with in-memory processing capabilities of modern big data systems. A sample use case is further introduced where a smartphone is deployed in a transportation bus to collect various sensor data which is then utilized in detecting street anomalies.
In addition to the aforementioned contributions, and to highlight the potential use cases of sensor data publicly available, a recommender system is developed using running route data, used for proximity-based retrieval, to provide personalized suggestions for new routes considering the runner's performance, visual and nature of route preferences.
This thesis aims at enhancing the integration of sensing devices in daily life applications through facilitating the public acquisition of consumer sensing devices. It also aims at achieving better integration and processing of sensor data in order to enable new potential usage scenarios of the raw generated data.
Ein Bioraffineriekonzept für (Bier-)Treber wird vorgeschlagen, bei dem im Gegensatz zu bestehenden Konzepten wasserlösliche Komponenten durch Pressen abgetrennt und als Grundlage für eine Milchsäurefermentation mit Lactobacillus delbrueckii subsp. lactis verwendet werden. Die verbleibenden strukturellen Kohlenhydrate des Treberrückstandes werden durch hydrothermale und enzymatische Vorbehandlung in fermentierbare Zucker überführt. Es entstehen deutlich weniger Nebenprodukte, die das Wachstum von Mikroorganismen inhibieren können, als bei der Nutzung von nicht abgepresstem Treber.
Die Analyse von Studienangeboten gehört zu einem etablierten Vorgehen sozial- und erziehungswissenschaftlicher Forschung, um z.B. Fragen zu Strukturen, Lehr-/Lern- und Prüfungsformen, Inhalte und Ziele des Studiums zu eruieren und ggf. mit wissenschaftlichen und/oder praktischen Anforderungen zu vergleichen. In vielen Fällen handelt es sich um Dokumentenanalysen (z.B. von Modulhandbüchern, Studienverlaufspläne), die Aufschlüsse über Inhalte, Prüfungsformen oder Strukturen liefern sollen. Grundsätzlich können aber quantitative als auch qualitative Verfahren zum Einsatz kommen. In diesem Beitrag werden mögliche Vorgehensweisen zur Identifikation von Studiengängen vorgestellt und kritisch hinterfragt. Dabei liegt der Fokus auf dem Bereich der Erwachsenenbildung/Weiterbildung. Die Befunde sind aber gleichermaßen auch auf die Auswahl von Studiengänge in anderen Bereichen übertragbar, wobei sich die Herausforderungen aufgrund klarer Kriterien zur Identifikation der Studienangebote oder zuver- lässig vorliegender Dokumentationen nicht in gleicher Weise zeigen müssen.
Many loads acting on a vehicle depend on the condition and quality of roads
traveled as well as on the driving style of the motorist. Thus, during vehicle development,
good knowledge on these further operations conditions is advantageous.
For that purpose, usage models for different kinds of vehicles are considered. Based
on these mathematical descriptions, representative routes for multiple user
types can be simulated in a predefined geographical region. The obtained individual
driving schedules consist of coordinates of starting and target points and can
thus be routed on the true road network. Additionally, different factors, like the
topography, can be evaluated along the track.
Available statistics resulting from travel survey are integrated to guarantee reasonable
trip length. Population figures are used to estimate the number of vehicles in
contained administrative units. The creation of thousands of those geo-referenced
trips then allows the determination of realistic measures of the durability loads.
Private as well as commercial use of vehicles is modeled. For the former, commuters
are modeled as the main user group conducting daily drives to work and
additional leisure time a shopping trip during workweek. For the latter, taxis as
example for users of passenger cars are considered. The model of light-duty commercial
vehicles is split into two types of driving patterns, stars and tours, and in
the common traffic classes of long-distance, local and city traffic.
Algorithms to simulate reasonable target points based on geographical and statistical
data are presented in detail. Examples for the evaluation of routes based
on topographical factors and speed profiles comparing the influence of the driving
style are included.
Ultrahochfester Beton (UHB oder aus dem Englischen Ultra High Performance Concrete, kurz UHPC) weist eine Druckfestigkeit im Bereich von 150 bis 250 MPa auf. Eine gesteigerte Zugfestigkeit und ein duktiles Verhalten werden durch die Zugabe von Mikrostahlfasern erzielt (Ultra High Performance Fibre Reinforced Concrete, UHPFRC). Der Fasergehalt ist in der Regel höher als bei normalfestem Faserbeton, sodass aufgrund der Fasern ein „Strain-hardening“ Verhalten erreicht werden kann: in einem Biegezugversuch kann die Last nach der Erstrissbildung weiter gesteigert werden bis zur Ausbildung mehrerer feiner Risse. Da der Beitrag der Fasern zum Zugtragverhalten des UHPFRC ein wesentlicher ist, müssen die Bauteile im gerissenen Zustand bemessen werden. Während der statische und dynamische Widerstand bereits umfangreich untersucht wurde, liegen nur wenige Untersuchungen bezüglich das Dauerstandzugverhaltens von gerissenem ultrahochfestem Beton vor. Untersuchungen an normalfestem faserverstärktem Beton haben gezeigt, dass die zeitabhängigen Zugverformungen im gerissenen Zustand größer sind als die in ungerissenem Material.
Um die zu erwartenden Verformungen abschätzen zu können und um das Kriechverhalten des Materials bis zum Versagen zu analysieren, wurde im Rahmen dieser Arbeit ein umfangreiches Versuchsprogramm durchgeführt. Über 60 uniaxiale Zug- und Biegezugprobekörper wurden unter Dauerlast über einen Zeitraum von bis zu 15 Monaten beansprucht. Davon wurden 22 Probekörper nach vier Monaten hinsichtlich ihrer Resttragfähigkeit getestet. Die restlichen Probekörper befinden sich für Langzeit-Messungen weiterhin in den Dauerlastprüfständen. Es wurden dabei verschiedene Parameter untersucht: u.a. das Belastungsniveau, Art und Umfang der Nachbehandlung des Betons, das Betonalter zu Beginn der Belastung, der Fasergehalt und die Faserschlankheit. Das Schwinden der unbelasteten Probekörper sowie das Druckkriechen belasteter Probekörper wurden an der verwendeten Mischung gemessen.
Der UHPFRC wies im Allgemeinen ein sehr stabiles Verhalten auf und es zeigte sich keine unkontrollierte Zunahme der Verformungen infolge eines Faserauszugs. Lediglich bei einem Probekörper kam es bei einer Last von 79% der aufgebrachten Last am Ende der Vorbelastung zum Versagen. Der Autor sieht dabei eine ungünstige Faserausrichtung als mögliche Ursache des frühzeitigen Versagens des Probekörpers an, was auf einen bedeutenden Einfluss dieses Parameters auf die Tragfähigkeit schließen lässt. Hinsichtlich der Bemessung von gerissenen UHPFRC-Bauteilen unter Dauerlast wurde ein Vorschlag für die Bemessung der Dauerstandfestigkeit ausgearbeitet.
Darüber hinaus wurden Faserauszugversuche durchgeführt und das Verbund-Schlupfverhalten der verwendeten Fasern ermittelt. Einige Probekörper wurden nach uniaxialen Zugversuchen per Computertomographie gescannt, um den Zusammenhang der Fasern im Versagensquerschnitt zur Zugfestigkeit der Probekörper zu untersuchen. Die untersuchten Probekörper wiesen unterschiedliche Zugfestigkeiten auf. Diese konnten durch die verschiedenen Faseranzahlen im Versagensquerschnitt gut abgebildet werden.