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Dissertation
Einfluss mesoskopischer und mikroskopischer Phasenverteilungen auf das Wachstumsverhalten physikalisch kurzer Risse
(2017-09-28)
Im Rahmen der vorliegenden Arbeit wird der Einfluss der meso- und mikroskopischen Phasenverteilung auf das Wachstumsverhalten physikalisch kurzer Risse unter Ermüdungsbelastung in metallischen Werkstoffen untersucht. Dazu werden physikalisch kurze Risse in einem Stahl und einer Aluminiumlegierung gezielt initiiert und bei einer definierten Belastung wachsen gelassen,
um die Interaktion des Risses mit den unterschiedlichen Phasenverteilungen analysieren zu können.
Zur Analyse des mesoskopischen Phaseneinflusses ...
Dissertation
Bruchmechanische Charakterisierung physikalisch kleiner Ermüdungsrisse
(2017-05-05)
Im Rahmen dieser Arbeit wurden das Wachstumsverhalten und der Belastungszustand physikalisch kleiner Ermüdungsrisse bei mechanisch monotoner und zyklischer Belastung unter Berücksichtigung der Mikrostruktur in-situ untersucht.
Das Wachstumsverhalten kleiner Risse hat im Bereich der bruchmechanischen Rissanalyse in der jüngsten Vergangenheit ein besonderes Interesse erfahren, vor allem weil diese Risse einen wesentlichen Anteil der Lebensdauer ausmachen. Kleine Risse in der Größenordnung der Mikrostruktur (Korngrößen, ...
Dissertation
Mechanismenorientierte Lebensdauervorhersage für eine thermo-mechanisch hergestellte Flanschwelle mit gradiertem Gefüge
(2010-02-09)
Im Rahmen der vorliegenden Arbeit wird ein Konzept zur mechanismenorientierten Lebensdauervorhersage entwickelt und auf eine Flanschwelle mit gradiertem Gefüge übertragen.
Das Konzept wird in Form eines Computercodes (LOCC) zur Anwendung gebracht. Basierend auf lokalen Spannungen wird für jedes Element eines FE-Modells eine bedingte Versagenswahrscheinlichkeit berechnet. Mithilfe bruch- und ggf. mikromechanischer Modelle werden lokale kritische Risslängen und die bei gegebener Lebensdauer zugehörigen Anfangsrisslängen ...
Konferenzveröffentlichung
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Joining Investigations of Polymer-Metal-Hybrids for Permanantly Non-Leaking Applications
(Society of Plastics Engineers, 2016)
The demand for light-weight construction and economic efficiency has led to the development of light-weight construction strategies, i.e., multi-material design, in many areas of industry. Here, the property profiles of the composite partners are utilized synergetically. Plastic-metal hybrid composites possess a large amount of potential in this regard owing to the weight reduction that can be achieved in the composite and the simultaneous enhancement of the mechanical properties.
Hybrid components have already ...
Konferenzveröffentlichung
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Development of a Flexible Polymer Joining Center Capable of Performing Multiple Joining Processes Using Different Methods in a Single Cycle
(Society of Plastics Engineers, 2016)
Goal of this research and innovation project is the implementation of a flexible polymer joining center as a prototype machine integrating different friction welding methods. This prototype joining cell combines (a) flexibility by being capable of performing joining processes in any order in a single flow with (b) modularity by integrating unified interfaces for exchanging joining modules, and (c) scalability by offering a wide range of setups for smaller to larger work pieces. Corresponding interfaces to up- and ...
Konferenzveröffentlichung
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The Influence of different die geometries on the Extrusion Process of High-Consistency Silicone Rubber
(Society of Plastics Engineers, 2019)
Silicone Rubber and especially High-Consistency Silicone Rubber (=HCR), are typically processed in the extrusion process. Due to the high requirements in terms of the ma-terial properties and the geometric dimensions, a funda-mental knowledge of the whole process including experi-ences in tool design are essential.
In this study, HCR with different Shore-hardnesses are extruded on a vertical silicone extrusion line with various breaker plates with different length to diameter ratios (=L/D-ratio) in order to analyze ...
Konferenzveröffentlichung
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Pull and Foam - Injection moulding method: Foamed ribs for stiffening plane components
(Society of Plastics Engineers, 2012)
The pull and foam method is a foam injection moulding method which is currently being developed at the Institut für Werkstofftechnik (IfW) (Institute of Materials Engineering) at the University of Kassel. The processing principle represents an alternative to the existing foam injection moulding special procedures and introduces the possibility to partially foam a component. In so doing, thin-walled, hardly foamed components with foamed ribs can be made in one processing step, thus also components with graded ...
Konferenzveröffentlichung
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Assessment of the changeability of plastics processing systems
(Society of Plastics Engineers, 2014)
Changeable production systems are still being developed, especially in the field of plastics processing. Here, the assessment of the changeability is a decisive factor. This investigation deals with the assessment of the changeability of a modular pilot plant, and derives approaches for the further development of an evaluation system, as well as potential means to increase the changeability.
Konferenzveröffentlichung
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The Adhesion of LSR Thermoplastic Composites after Storage Tests
(Society of Plastics Engineers, 2017)
The adhesion properties of liquid silicone rubber (LSR) and different thermoplastics (PC, PA, and PP) were examined in this investigation. In order to guarantee the adhesion of both components, an activation (silicatization) of the TP surface, which is a conventional method, was carried out. Furthermore, the long-term stability of the silicatization (storage of the activated surfaces) as well as the wetting behavior were investigated. Moreover, microscopic investigations were performed to analyze the activated ...
Konferenzveröffentlichung
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Formation of morphology as a function of process control by foam injection molding of a functionally graded component
(Society of Plastics Engineers, 2014)
A special mold technology enables the production of foam injection molded components with locally differing foaming ratios. Thus, components with functionally graded foam structures can be produced in one processing step. The method (pull and foam method) is based on the idea of creating components with thin-walled areas with a high surface quality and partially foamed, thick-walled areas (e.g. with the function of integrated structural elements) in a controlled foaming process. This paper describes the characteristics ...