Parametrische Rekonstruktion von Drucksignalen aus Körperschall zur Klopferkennung

Urlaub, Mark

January 2005

Zugl.: Bochum, Univ., Diss., 2005

Bestimmung der Zylinderfüllung und deren Zusammensetzung im Einzelzyklus beim direkteinspritzenden Ottomotor /

Daniel, Marc,

January 2008

Zugl.: Hamburg, Universiẗat der Bundeswehr, Diss., 2008.

Experimentelle Untersuchungen des Auftreffvorgangs von Sprays auf bewegter Zylinderoberfläche /

Kurt, Osman.

January 2010

Zugl.: Bremen, Universiẗat, Diss., 2009.

Experimentelle Untersuchungen des Auftreffvorgangs von Sprays auf bewegter Zylinderoberfläche

Kurt, Osman

January 2009

Zugl.: Bremen, Univ., Diss., 2009

Analytische Modellierung des Spannungszustandes mehrteiliger Querpressverbände im Zylinder von LDPE-Höchstdruckverdichtern /

Blok, Achim Arno.

January 2006

Techn. Hochsch., Diss., 2006--Aachen.

Klinische und kernspintomographische Ergebnisse nach Implantation von artifiziellen TruFit-Zylindern in die Entnahmedefekte bei der autologen Knorpel-Knochen-Transplantation / Clinical and MRI results after implantation of artificial TruFit cylinders in the defetcs of the donor site after autologous osteochondral transplantation

Voß, Maike

09 February 2011

No description available.

610 Medizin, Gesundheit

Medicine

Knie

Knorpeldefekt

osteochondraler Defekt

Mosaikplastik

osteochondrale Transplantation

TruFit Zylinder

knee

cartilage defect

osteochondral defect

mosaic plasty

osteochondral transplantation

TruFit cylinders

44.65

MED 445: Unfallchirurgie

The Impact of Films on the Long-Term Behavior of Stationary Electrical Connections and Contacts in Electric Power Systems

Dreier, Sebastian

04 March 2016

Stationary electrical connections and contacts, such as power connections, are commonly applied in electric power systems used for generation, transmission and distribution of electric energy. Several different degradation mechanisms can increase the contact resistance and might therefore reduce the power connection’s lifetime. The degradation by film development as a result of chemical reactions is often considered as a reason for contact failure. In this research work, the impact of film development produced by chemical reactions, such as oxidation, on the long-term behavior of stationary electrical connections and contacts was studied with crossed rods. Analytical, numerical and experimental methods were applied. Typical material systems for electric power systems were considered in this study: Cu-ETP (CW004A) bare, silver-, nickel- or tin-coated, Al99.5 (EN AW-1050A) and AlMgSi0.5 (EN AW-6060). By applying numerical methods, the mechanical stress distribution was determined within a circular contact point. The initial contact resistance and the plastic deformed area of the considered material systems was measured in experimental tests. The film’s impact was further determined through comparative experimental studies in air (standard atmosphere) and N2 (inert gas). During the experimental tests on perpendicularly crossed rods, other degradation mechanisms such as force reduction were suppressed. The film’s impact within the formation phase was studied on copper rods in an oven at 200 °C for 1000 h. Moreover, the dependency on different environments at 90 °C (laboratory, botanical garden and outdoor) was tested for 12000 h. Additional long-term tests over 12000 h were conducted at 200 °C. The contact resistance was determined dependent on time. Furthermore, the plastic deformed area was ascertained by microscopy. It was found that the time dependent film development caused by chemical reactions such as oxidation might possibly not result in a significant degradation of stationary electrical contacts with circular contact points and a constant force. Supplementary studies were performed at 200 °C for 1000 h with perpendicularly crossed rods at low forces (3.5 N) as well as analytical assessment of radial and axial film growth on circular contact points. The measured long-term behavior of perpendicularly crossed rods was similar for low and high forces. In order to study the long-term behavior of power connections operated in areas with harsh environmental conditions, experimental field tests on bolted busbar joints were conducted in desert and tropical rainforest environments. For over two and a half years, long-term field tests investigating bolted busbar joints made of Cu-ETP, Al99.5 (EN-AW-1350A) or AlMgSi0.5 (EN AW-6060) either with or without coating (silver, tin or nickel) were conducted in Belém (Brazil), Ismailia (Egypt) and Dresden (Germany).

Elektrische Kontakte

Alterung

Fremdschichtbildung

Punktkontakt

gekreuzte Zylinder

Langzeitverhalten

electric contact

degradation

film development

circular contact area

crossed rods

long-term behavior

ddc:620

rvk:ZN 4460

rvk:ZN 8340

The Impact of Films on the Long-Term Behavior of Stationary Electrical Connections and Contacts in Electric Power Systems

Dreier, Sebastian

18 December 2015

Stationary electrical connections and contacts, such as power connections, are commonly applied in electric power systems used for generation, transmission and distribution of electric energy. Several different degradation mechanisms can increase the contact resistance and might therefore reduce the power connection’s lifetime. The degradation by film development as a result of chemical reactions is often considered as a reason for contact failure. In this research work, the impact of film development produced by chemical reactions, such as oxidation, on the long-term behavior of stationary electrical connections and contacts was studied with crossed rods. Analytical, numerical and experimental methods were applied. Typical material systems for electric power systems were considered in this study: Cu-ETP (CW004A) bare, silver-, nickel- or tin-coated, Al99.5 (EN AW-1050A) and AlMgSi0.5 (EN AW-6060). By applying numerical methods, the mechanical stress distribution was determined within a circular contact point. The initial contact resistance and the plastic deformed area of the considered material systems was measured in experimental tests. The film’s impact was further determined through comparative experimental studies in air (standard atmosphere) and N2 (inert gas). During the experimental tests on perpendicularly crossed rods, other degradation mechanisms such as force reduction were suppressed. The film’s impact within the formation phase was studied on copper rods in an oven at 200 °C for 1000 h. Moreover, the dependency on different environments at 90 °C (laboratory, botanical garden and outdoor) was tested for 12000 h. Additional long-term tests over 12000 h were conducted at 200 °C. The contact resistance was determined dependent on time. Furthermore, the plastic deformed area was ascertained by microscopy. It was found that the time dependent film development caused by chemical reactions such as oxidation might possibly not result in a significant degradation of stationary electrical contacts with circular contact points and a constant force. Supplementary studies were performed at 200 °C for 1000 h with perpendicularly crossed rods at low forces (3.5 N) as well as analytical assessment of radial and axial film growth on circular contact points. The measured long-term behavior of perpendicularly crossed rods was similar for low and high forces. In order to study the long-term behavior of power connections operated in areas with harsh environmental conditions, experimental field tests on bolted busbar joints were conducted in desert and tropical rainforest environments. For over two and a half years, long-term field tests investigating bolted busbar joints made of Cu-ETP, Al99.5 (EN-AW-1350A) or AlMgSi0.5 (EN AW-6060) either with or without coating (silver, tin or nickel) were conducted in Belém (Brazil), Ismailia (Egypt) and Dresden (Germany).

info:eu-repo/classification/ddc/620

ddc:620

A fast approach for coupled fluid-thermal modeling of the lubricating interfaces of axial piston machines

Mukherjee, Swarnava, Shang, Lizhi, Vacca, Andrea

25 June 2020

The temperature distribution of the lubricating interfaces is an important aspect of the functioning of positive displacement machines. It can determine the efficiency and the life time of the unit. In particular, it directly affects the fluid properties and the thermal induced deformations of the solid bodies. A simulation tool capable of predicting the fluid temperature in such gaps thus becomes very useful in the design process of these machines. The temperature distribution in a film comprises of many physical phenomena including convection and conduction along and across the film. Past numerical approaches solved this multi-directional conduction-convection problem using a threedimensional(3D) grid, making the tool computationally expensive and unsuitable for fast simulations. This paper proposes a hybrid fluid temperature solver, based on, a low computational cost twodimensional(2D) grid, to reduce the simulation time with reasonable accuracy. The piston/cylinder interface of an axial piston machine is selected as reference case to demonstrate the proposed approach. The hybrid approach was found to speedup the simulation times by 36%.

info:eu-repo/classification/ddc/620

ddc:620

Bootstrap reservoir concepts for electro-hydraulic compact cylinder drives

Ketelsen, Søren, Kolks, Giacomo, Andersen, Torben Ole, Schmidt, Lasse, Weber, Jürgen

26 June 2020

This paper presents a conceptual study aiming to improve the compactness of electro-hydraulic compact drives (ECD ). In most current ECD architectures, gas accumulators are used as volume compensators for the flow imbalance emerging whenever asymmetric single rod cylinders are used. To stay within a required reservoir pressure range typically from two to four bar, a large gas volume is required, compromising system compactness. Combining conventional ECD architectures with a bootstrap reservoir offers a greater degree of freedom in system design, which enables downsizing or avoidance of the gas volume. Another potential benefit by including a bootstrap reservoir is the possibility of elevating the backpressure of the ECD thus enhancing drive stiffness, expanding the application range and market acceptance. Based on an open analysis of the solution space occurring when introducing a bootstrap reservoir, three system architectures are selected for a conceptual study. The results show that the downsizing potential is strongly dependent on the maximum friction force and the area ratio of the bootstrap reservoir pistons, while a linear analysis reveals that for some system architectures the bootstrap reservoir may severely influence the system dynamics. Simulation results confirm the functionality of the proposed system architectures, and show that a potential for downsizing/avoiding the gas volume, as well as increasing the ECD stiffness is present.

info:eu-repo/classification/ddc/620

ddc:620