Dimensioning of Punctiform Metal-Composite Joints: A Section-Force Related Failure Criterion

Seidlitz, Holger, Ulke-Winter, Lars, Gerstenberger, Colin, Kroll, Lothar

20 April 2015

Reliable line production processes and simulation tools play a central role for the structural integration of thermoplastic composites in advanced lightweight constructions. Provided that material- adapted joining technologies are available, they can be applied in heavy-duty multi-material designs (MMD). A load-adapted approach was implemented into the new fully automatic and faulttolerant thermo mechanical flow drill joining (FDJ) concept. With this method it is possible to manufacture reproducible high strength FRP/metal-joints within short cycle times and without use of extra joining elements for the first time. The analysis of FDJ joints requires a simplified model of the joint to enable efficient numerical simulations. The present work introduces a strategy in modeling a finite-element based analogous-approach for FDJ-joints with glass fiber reinforced polypropylene and high-strength steel. Combined with a newly developed section-force related failure criterion, it is possible to predict the fundamental failure behavior in multi-axial stress states. The functionality of the holistic approach is illustrated by a demonstrator that represents a part of a car body-in-white structure. The comparison of simulated and experimentally determined failure loads proves the applicability for several combined load cases.

Technische Universität Chemnitz

Publikationsfonds

Composites

Multi-Material-Design

Hybrid

Joining

Failure Criterion

FDJ Joint 1

Technische Universität Chemnitz

Publication funds

ddc:620

Verbundwerkstoff

Crystal structure of ruthenocenecarbo­nitrile

Strehler, Frank, Korb, Marcus, Lang, Heinrich

07 May 2015

The mol­ecular structure of ruthenocenecarbo­nitrile, [Ru([eta]5-C5H4C[triple bond]N)([eta]5-C5H5)], exhibits point group symmetry m, with the mirror plane bis­ecting the mol­ecule through the C[triple bond]N substituent. The RuII atom is slightly shifted from the [eta]5-C5H4 centroid towards the C[triple bond]N substituent. In the crystal, mol­ecules are arranged in columns parallel to [100]. One-dimensional inter­molecular [pi]-[pi] inter­actions [3.363 (3) Å] between the C[triple bond]N carbon atom and one carbon of the cyclo­penta­dienyl ring of the overlaying mol­ecule are present.

Kristallstruktur

Nitrile

Technische Universität Chemnitz

Publikationsfonds

crystal structure

ruthenocene

ruthenocenecarbo­nitrile

sandwich compound

nitrile

Technische Universität Chemnitz

Publication funds

ddc:546

Kristallstruktur

Nitrile

The Impact of Attention on Judgments of Frequency and Duration

Winkler, Isabell, Glauer, Madlen, Betsch, Tilmann, Sedlmeier, Peter

03 June 2015

Previous studies that examined human judgments of frequency and duration found an asymmetrical relationship: While frequency judgments were quite accurate and independent of stimulus duration, duration judgments were highly dependent upon stimulus frequency. A potential explanation for these findings is that the asymmetry is moderated by the amount of attention directed to the stimuli. In the current experiment, participants\' attention was manipulated in two ways: (a) intrinsically, by varying the type and arousal potential of the stimuli (names, low-arousal and high-arousal pictures), and (b) extrinsically, by varying the physical effort participants expended during the stimulus presentation (by lifting a dumbbell vs. relaxing the arm). Participants processed stimuli with varying presentation frequencies and durations and were subsequently asked to estimate the frequency and duration of each stimulus. Sensitivity to duration increased for pictures in general, especially when processed under physical effort. A large effect of stimulus frequency on duration judgments was obtained for all experimental conditions, but a similar large effect of presentation duration on frequency judgments emerged only in the conditions that could be expected to draw high amounts of attention to the stimuli: when pictures were judged under high physical effort. Almost no difference in the mutual impact of frequency and duration was obtained for low-arousal or high-arousal pictures. The mechanisms underlying the simultaneous processing of frequency and duration are discussed with respect to existing models derived from animal research. Options for the extension of such models to human processing of frequency and duration are suggested.

Häufigkeit

Dauer

Aufmerksamkeit

Technische Universität Chemnitz

Publikationsfonds

frequency

duration

attention

Technische Universität Chemnitz

Publication funds

ddc:150

ddc:153

Häufigkeit

Dauer

Aufmerksamkeit

Single pairing spike-timing dependent plasticity in BiFeO3 memristors with a time window of 25ms to 125µs

Du, Nan, Kiani, Mahdi, Mayr, Christian G., You, Tiangui, Bürger, Danilo, Skorupa, Ilona, Schmidt, Oliver G., Schmidt, Heidemarie

18 June 2015

Memristive devices are popular among neuromorphic engineers for their ability to emulate forms of spike-driven synaptic plasticity by applying specific voltage and current waveforms at their two terminals. In this paper, we investigate spike-timing dependent plasticity (STDP) with a single pairing of one presynaptic voltage spike and one postsynaptic voltage spike in a BiFeO3 memristive device. In most memristive materials the learning window is primarily a function of the material characteristics and not of the applied waveform. In contrast, we show that the analog resistive switching of the developed artificial synapses allows to adjust the learning time constant of the STDP function from 25ms to 125μs via the duration of applied voltage spikes. Also, as the induced weight change may degrade, we investigate the remanence of the resistance change for several hours after analog resistive switching, thus emulating the processes expected in biological synapses. As the power consumption is a major constraint in neuromorphic circuits, we show methods to reduce the consumed energy per setting pulse to only 4.5 pJ in the developed artificial synapses.

BFO basierter Memristor

Künstliche Synapsen

Technische Universität Chemnitz

Publikationsfonds

BFO based memristor

artificial synapse

Technische Universität Chemnitz

Publication funds

ddc:600

Synapse

Memristor

Development of Effective Textile-Reinforced Concrete Noise Barrier

Funke, Henrik L., Gelbrich, Sandra, Kroll, Lothar

22 July 2015

Thin-walled, high-strength concrete elements exhibiting low system weight and great slenderness can be created with a large degree of lightweight structure using the textile-reinforced, load-bearing concrete (TRC) slab and a shell with a very high level of sound absorption. This was developed with the objective of lowering system weight, and then implemented operationally in construction. Arising from the specifications placed on the load-bearing concrete slab, the following took place: an adapted fine-grain concrete matrix was assembled, a carbon warp-knit fabric was modified and integrated into the fine concrete matrix, a formwork system at prototype scale was designed enabling noise barriers to be produced with an application-oriented approach and examined in practically investigations within the context of the project. This meant that a substantial lowering of the load-bearing concrete slab’s system weight was possible, which led to a decrease in transport and assembly costs.

Haltbarkeit

Technische Universität Chemnitz

Publikationsfonds

textile-reinforced concrete

noise barrier

high-performance concrete

durability

Technische Universität Chemnitz

Publication funds

ddc:620

Haltbarkeit

The sounds of safety: stress and danger in music perception

Schäfer, Thomas, Huron, David, Shanahan, Daniel, Sedlmeier, Peter

27 August 2015

As with any sensory input, music might be expected to incorporate the processing of information about the safety of the environment. Little research has been done on how such processing has evolved and how different kinds of sounds may affect the experience of certain environments. In this article, we investigate if music, as a form of auditory information, can trigger the experience of safety. We hypothesized that (1) there should be an optimal, subjectively preferred degree of information density of musical sounds, at which safety-related information can be processed optimally; (2) any deviation from the optimum, that is, both higher and lower levels of information density, should elicit experiences of higher stress and danger; and (3) in general, sonic scenarios with music should reduce experiences of stress and danger more than other scenarios. In Experiment 1, the information density of short music-like rhythmic stimuli was manipulated via their tempo. In an initial session, listeners adjusted the tempo of the stimuli to what they deemed an appropriate tempo. In an ensuing session, the same listeners judged their experienced stress and danger in response to the same stimuli, as well as stimuli exhibiting tempo variants. Results are consistent with the existence of an optimum information density for a given rhythm; the preferred tempo decreased for increasingly complex rhythms. The hypothesis that any deviation from the optimum would lead to experiences of higher stress and danger was only partly fit by the data. In Experiment 2, listeners should indicate their experience of stress and danger in response to different sonic scenarios: music, natural sounds, and silence. As expected, the music scenarios were associated with lowest stress and danger whereas both natural sounds and silence resulted in higher stress and danger. Overall, the results largely fit the hypothesis that music seemingly carries safety-related information about the environment.

Musik

Sicherheit

Stress

Klang

Technische Universität Chemnitz

Publikationsfonds

music

safety

stress

information density

sound

Technische Universität Chemnitz

Publication funds

ddc:150

Musik

Sicherheit

Stress

Klang

A Conceptual Model of the Revised CAI-NPD-Systems Maturity

Hüsig, Stefan

11 November 2015

This article aims to turn the attention of researchers and practitioners in the innovation and engineering management field towards a more fine grained view on the influence of Information Technologies (IT) and New Product Development (NPD) capabilities on innovation outcomes in different stages of maturity. Computer Aided Innovation (CAI), as a specific but often overlooked category of IT-tools for innovation activities, is introduced as having the potential to positively influence the innovation supporting capabilities. Based on current and emerging developments in the fields of CAI and NPD, a revised version of the conceptual model of the CAI-NPD-systems maturity framework is proposed.

Informationstechnologie

Werkzeuge

Technische Universität Chemnitz

Publikationsfonds

computer aided innovation

maturity model

new product development

tools

Technische Universität Chemnitz

Publication funds

ddc:330

Produktentwicklung

Innovation

Computerunterstütztes Verfahren

Aspects of Dynamic Balance Responses: Inter- and Intra-Day Reliability

Schmidt, Daniel, De Castro Germano, Andresa Mara, Milani, Thomas Lothar

13 November 2015

The Posturomed device is used as a scientific tool to quantify human dynamic balance ability due to unexpected perturbations, and as a training device. Consequently, the question arises whether such measurements are compromised by learning effects. Therefore, this study aimed to analyze inter- and intra-day reliability of dynamic balance responses using the Posturomed. Thirty healthy young subjects participated (24.3±3.2 years). The Posturomed was equipped with a triggering mechanism to enable unexpected, horizontal platform perturbations. A force platform was used to quantify Center of Pressure (COP) excursions for two time intervals: interval 1 (0–70 ms post perturbation) and interval 2 (71–260 ms post perturbation). Dynamic balance tests were performed in single leg stances in medio-lateral and anterior-posterior perturbation directions. Inter- and intra-day reliability were assessed descriptively using Bland-Altman plots and inferentially using tests for systematic error and intra-class-correlations. With regard to the mean COP excursions for every subject and all intervals, some cases revealed significant differences between measurement sessions, however, none were considered relevant. Furthermore, intra class correlation coefficients reflected high magnitudes, which leads to the assumption of good relative reliability. However, analyzing inter- and intra-day reliability using Bland-Altman plots revealed one exception: intra-day comparisons for the anterior-posterior direction in interval 2, which points towards possible learning effects. In summary, results reflected good overall reliability with the exception of certain intra-day comparisons in the anterior-posterior perturbation direction, which could indicate learning effects in those particular conditions.

Posturomed

dynamisches Gleichgewicht

Reliabilität

Lerneffekte

Gleichgewichtsantworten

Technische Universität Chemnitz

Publikationsfonds

Posturomed

dynamic balance

reliability

learning effects

balance responses

Technische Universität Chemnitz

Publication funds

ddc:571

Dynamisches Gleichgewicht

Reliabilität

Plantar sensory vibration thresholds are not influenced by body position

Germano, Andresa M.C., Schmidt, Daniel, Schlee, Günther, Milani, Thomas L.

25 October 2016

Monitoring skin sensitivity is studied to clarify its relationship on balance. Measuring skin sensitivity is performed when subjects are sitting or lying, whereas balance tests are measured during standing. However, afferent signal processing and subsequent efferent responses can be altered by different body positions. Therefore, this study investigated whether vibration perception thresholds (VPTs) are influenced by body positions. Sixty-six healthy subjects (41♀; 25♂) participated in this study. Five measurements of VPTs were performed at each of the three analyzed anatomical locations (heel, first metatarsal head, hallux) of the right plantar foot under two randomized conditions: during sitting and standing. The contact force applied to the probe was measured and controlled within the five trials. Contact forces between the probe and the foot were higher during standing. However, no differences in VPTs were found between conditions. This indicates that VPTs are not different during standing compared to sitting, contrary to our expectations. We conclude that higher forces did not induce increased receptor activity. Since no differences were found between thresholds, future clinical studies can implement plantar VPT tests during sitting in association with balance tests during standing.

Fußsensibilität

Sitzen

Stehen

Vibration

VPT

Technische Universität Chemnitz

Publikationsfonds

foot sensitivity

sitting

standing

vibration

VPT

Technische Universität Chemnitz

Publication funds

ddc:610

Sensibilität

Sitzen

Stehen

Exercise-induced changes in basal ganglia volume and their relation to cognitive performance

Becker, Linda, Kutz, D. F., Voelcker-Rehage, Claudia

14 November 2016

Physical activity, especially cardiovascular fitness training, has been shown to enhance cognitive performance and to counteract age-related cognitive decline1-5. Furthermore, regular physical activity has been demonstrated to diminish age-related volume-shrinkage in several brain regions particularly in the prefrontal cortex and hippocampus6-10. In the same vein, physical activity and high levels of cardiovascular fitness seem to enhance neurocognition during childhood11-13. In this context, the basal ganglia and its components, the caudate nucleus, the putamen and the globus pallidus, are of special interest as animal research indicates that exercise also seems to influence the molecular architecture and the metabolic capacity of the basal ganglia14,15. Besides their fundamental role in motor execution16, the basal ganglia are also involved in many cognitive functions like mental flexibility17, task-switching ability18 and cognitive control19. Furthermore, age-related disorders like Parkinson’s disease are related to a decline in the dopamine circuits of the basal ganglia20,21. The striatum is the input nucleus of the basal ganglia and is composed of caudate nucleus and putamen. The pars interna of the globus pallidus is (together with the substantia nigra pars reticulata) the output region of the basal ganglia and conveys information from the striatum to the thalamus and back to the frontal areas22. The striatum, which is essential for cognitive flexibility and attentional control, shows an increase during childhood and adolescence23,24 and a particularly rapid and early age-related change9,25 in older adults. Furthermore, the described cognitive functions are essential for academic success of children and young adults. Thus, it is of particular interest to find appropriate interventions that could mitigate both the volume-shrinkage and the (presumably) related cognitive decline in older adults and/or that could support academic success in children. In this review, we will summarize research that investigated whether physical activity has the potential to be such an intervention. First, we will show that neuroplasticity in the basal ganglia is possible in principle. Second, we will report studies where the relationship between physical fitness level and volume of the basal ganglia and its relation to cognitive performance were investigated. Besides cross-sectional studies, we will report studies that investigated exercise-induced changes in the volume of the basal ganglia and related changes in cognitive performance after long-term fitness interventions.

Kognition

Basalganglien

körperliche Aktivität

Altern

Technische Universität Chemnitz

Publikationsfonds

cognition

basal ganglia

physical activity

aging

Technische Universität Chemnitz

Publication funds

ddc:614

Kognition

Basalganglien

Körperliche Aktivität

Altern