Tu dresden

institute for structural analysis

The table to the right includes counts of all research outputs for Faculty of Environmental Sciences, TU Dresden published between 1 June - 31 May which are tracked by the Nature Index. Hover over the donut graph to view the FC output for each subject.

Below, the same research outputs are grouped by subject. Click on the subject to drill-down into a list of articles organized by journal, and then by title. All Rights Reserved. Toggle navigation. Research Relationships 1 June - 31 May Count Share 11 1. Top articles by Altmetric score in current window. Mass balance of the Greenland Ice Sheet from to Nature Every fifth published metagenome is not available to science.

Design and Testing of a Co-Rotating Vibration Excitation System

PLOS Biology Low growth resilience to drought is related to future mortality risk in trees Nature Communications Department of Geosciences, TU Dresden. Institute of Cartography, TU Dresden. Department of Hydrosciences, TU Dresden. Institute of Hydrobiology, TU Dresden. Chair of Hydrochemistry, TU Dresden. Lohrmann Observatory, TU Dresden. Faculty of Architecture, TU Dresden.Toggle navigation CS Home Resources Schedule Coursework.

Office hours: —pm Mondays, Rhodes virtual on zoom. Resources Course administration: CMS for managing course work.

tu dresden</p><p>institute for structural analysis</p>

Jupyter notebooks and data for class demos. Educational material: CS Spring web page. Numerical Linear Algebra. Trefethen and D. Bau III. Datasets: Kaggle datasets. SNAP data. Some datasets I have collected. Google Dataset Search. Coursework schedule Homework 1. Due Th Feb 13 at pm ET. Homework 2. Due Th Mar 5 at pm ET. Reaction paper. Due Th Apr 9 at pm ET. Project proposal. Due Th Apr 23 at pm ET. Project progress report. Due Th May 7 at pm ET. Project final report.The human uptake transporter NaCT is important for human brain development, brain function and energy metabolism and mediates the uptake of citrate and other intermediates of the tricarboxylic acid cycle from blood into neurons and hepatocytes.

To gain more insights into the transport mechanisms we analyzed the functional consequences of mutations in the SLC13A5 gene on NaCT-mediated transport function.

Furthermore, the impact on NaCT-mediated citrate uptake was measured. In addition, a structural model of the transport pore was generated to rationalize the consequences of the mutations on a structural basis. We demonstrated that all proteins were synthesized with an identical molecular weight as the wild-type transporter but several mutations NaCTp.

GR, -p. GE, -p. TM, -p. LP and -p. LP lead to a complete loss of NaCT-mediated citrate transport. This loss of transport activity can be explained on the basis of the developed structural model. This model may help in the further elucidation of the transport mechanism of this important uptake transporter. Abstract The human uptake transporter NaCT is important for human brain development, brain function and energy metabolism and mediates the uptake of citrate and other intermediates of the tricarboxylic acid cycle from blood into neurons and hepatocytes.

Publication types Research Support, Non-U.After having finished the module successfully students have indepth knowledge on analytical and numerical methods to model and simulate pavement performance. Type of course: 2 hours lectures, 1 hour of exercise per week, and self-study. Practical use of the module: The module is one of the elective modules in the Master's programme: Advanced Computational and Civil Engineering Structural Studies, of which seven have to be chosen.

Requirements for the award of credits: The credits are awarded if the module examination is successfully passed.

tu dresden</p><p>institute for structural analysis</p>

The module examination consists of a written examination min. Prerequisite for the examination is an assignment of 40 hours. Credits and grades: 4 credits can be acquired for this module.

The grade is the grade of the written examination. Frequency of module: The module is offered every academic year summer semester. Skip to main navigation. Skip to secondary navigation. Skip to search. Skip to content. Info This document is not available in the language you requested. It is therefore shown in German. Type of course: 2 hours lectures, 1 hour of exercise per week, and self-study Requirements for study: Knowledge from module BIWO and study competence from module BIWO Practical use of the module: The module is one of the elective modules in the Master's programme: Advanced Computational and Civil Engineering Structural Studies, of which seven have to be chosen.

Workload: The workload is working hours. Croney, ISBN 0 07 6. Uwe Reinhardt. Last modified: Aug 01, Polymer gels are porous fluid-saturated materials which can swell or shrink triggered by various stimuli. In the present research, a nonlinear stress-diffusion model is employed to investigate the stress and the deformation state arising in hydrated constrained polymer gels when subject to a varying chemical potential. Two different constraint configurations are taken into account: i elastic constraint along the thickness direction and ii plane elastic constraint.

From there, an incremental chemo-mechanical analysis is presented. The derived model extends the classical linear poroelastic theory with respect to a prestressed configuration. Finally, the comparison between the analytical results obtained by the proposed model and a particular problem already discussed in literature for a stress-free gel membrane one-dimensional test case will highlight the relevance of the derived model.

Structural Phage Assisted Continuous Evolution of Proteins SPACE P TU Dresden

Abstract Polymer gels are porous fluid-saturated materials which can swell or shrink triggered by various stimuli.The table to the right includes counts of all research outputs for Dresden University of Technology TU Dresden published between 1 June - 31 May which are tracked by the Nature Index. Hover over the donut graph to view the FC output for each subject. Below, the same research outputs are grouped by subject.

tu dresden</p><p>institute for structural analysis</p>

Click on the subject to drill-down into a list of articles organized by journal, and then by title. Note: Collaboration is determined by the fractional count Sharewhich is listed in parentheses.

All Rights Reserved. Toggle navigation. Research Collaboration Relationships 1 June - 31 May Count Share Top articles by Altmetric score in current window. Temperate rainforests near the South Pole during peak Cretaceous warmth Nature Mass balance of the Greenland Ice Sheet from to Nature Genome-wide association study identifies eight risk loci and implicates metabo-psychiatric origins for anorexia nervosa Nature Genetics A metabolic profile of all-cause mortality risk identified in an observational study of 44, individuals Nature Communications Expansion-tolerant architectures for stable cycling of ultrahigh-loading sulfur cathodes in lithium-sulfur batteries Science Advances Media Center, TU Dresden.

Faculty of Architecture, TU Dresden. Department of Geosciences, TU Dresden. Institute of Cartography, TU Dresden. Department of Hydrosciences, TU Dresden. Institute of Hydrobiology, TU Dresden. Chair of Hydrochemistry, TU Dresden. Lohrmann Observatory, TU Dresden. NaMLab gGmbH. Faculty of Law, TU Dresden. Department of Otorhinolaryngology, TU Dresden. Department of Pediatrics, TU Dresden. Institute of Pathology, TU Dresden.

School of Science, TU Dresden. Faculty of Biology, TU Dresden. Institute of Genetics, TU Dresden. Institute of Microbiology, TU Dresden. Faculty of Mathematics, TU Dresden.

tu dresden</p><p>institute for structural analysis</p>

Faculty of Physics, TU Dresden. Faculty of Psychology, TU Dresden. Triebenberg Laboratory, TU Dresden. Life Sciences. Physical Sciences.Skip to main navigation. Skip to secondary navigation. Skip to search. Skip to content. Own publications - Freitag, S.

Modeling of materials with fading memory using neural networks International Journal for Numerical Methods in Engineering 78pp. Textilbeton - Theorie und Praxis, 4.

Sikiwat, T. Computersimulation bei Bauwerkssprengungen!

Lug Analysis

Informationsveranstaltung Sprengtechnik, Siegen, Piotrov, A. Grouping detection of uncertain structural processes by means of cluster analysis 7. Numerical simulation of structures using generalized models for data uncertainty In: Brebbia, C. Numerical structural monitoring with the uncertainty model fuzzy randomness. International Journal of Reliability and SafetyVol. Robustness assessment of structures incorporating generalized uncertainty models In: Furuta, H.

Patchwork approximation scheme for reliability assessment and optimization In: Furuta, H. Structural dynamics under consideration of imprecise probability In: Papadrakakis, M. An inverse solution of the lifetime-oriented design problem Structure and Infrastructure Engineering: Maintenance, Management, Life-Cycle Design and Performanceonline available doi Computational models for textile reinforced concrete structures In: Ghafoori, N.

Dresdner Baustatik-Seminar, S. Dresdner Baustatik-Seminar Bautechnik 86H. Time-dependent and mesh-adaptive cohesive zone modelling for discrete fracture simulation Engineering Fracture Mechanics, doi: Transient simulation of coupled heat, moisture and air distribution in wood during drying In: Yuan, Y.

Viktor Bezugly

Models for numerical failure analysis of wooden structures Engineering Structures, 31pp. A micro-continuum-mechanical material model for failure of rubber-like materials: Application to aging-induced fracturing Journal of the Mechanics and Physics of Solids, 57pp. Three-dimensional numerical analyses of load-bearing behavior and failure of multiple double-shear dowel-type connections in timber engineering Computers and Structures, doi: Parma, Ziolko, J.

Neural networks in rheology: Theory and application In: Loizos, A. Uncertain processes and numerical monitoring of structures In: Muhanna, R. Strengthening with textile reinforced concrete reliability based design with imprecise probability In: Bondindi, F. Response surfaces models for uncertain structural analysis In: Schreffler, B. Concept for computational modelling of tire pavement interaction phenomena under consideration of flexible pavement structures In: Schreffler, B.

Modeling the rheological behaviour of asphalt based on fractional time derivatives and neural networks In: Schreffler, B.


comments

Leave a Reply

Your email address will not be published. Required fields are marked *