@misc{Kavrakov, type = {Master Thesis}, author = {Kavrakov, Igor}, title = {Structural Optimization of Composite Cross-Sections and Elements using Energy Methods}, doi = {10.25643/bauhaus-universitaet.3959}, url = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20190815-39593}, school = {Bauhaus-Universit{\"a}t Weimar}, pages = {96}, abstract = {Structural optimization has gained considerable attention in the design of structural engineering structures, especially in the preliminary phase. This study introduces an unconventional approach for structural optimization by utilizing the Energy method with Integral Material Behavior (EIM), based on the Lagrange's principle of minimum potential energy. An automated two-level optimization search process is proposed, which integrates the EIM, as an alternative method for nonlinear structural analysis, and the bilevel optimization. The proposed procedure secures the equilibrium through minimizing the potential energy on one level, and on a higher level, a design objective function. For this, the most robust strategy of bilevel optimization, the nested method is used. The function of the potential energy is investigated along with its instabilities for physical nonlinear analysis through principle examples, by which the advantages and limitations using this method are reviewed. Furthermore, optimization algorithms are discussed. A numerical fully functional code is developed for nonlinear cross section, element and 2D frame analysis, utilizing different finite elements and is verified against existing EIM programs. As a proof of concept, the method is applied on selected examples using this code on cross section and element level. For the former one a comparison is made with standard procedure, by employing the equilibrium equations within the constrains. The validation of the element level was proven by a theoretical solution of an arch bridge and finally, a truss bridge is optimized. Most of the principle examples are chosen to be adequate for the everyday engineering practice, to demonstrate the effectiveness of the proposed method. This study implies that with further development, this method could become just as competitive as the conventional structural optimization techniques using the Finite Element Method.}, subject = {Strukturoptimierung}, language = {en} } @misc{Gollos, type = {Master Thesis}, author = {Gollos, Carolin}, title = {Optimierung der Baustellenlogistik f{\"u}r die Ausbauphase eines Großprojektes}, doi = {10.25643/bauhaus-universitaet.2285}, url = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20140901-22858}, school = {Bauhaus-Universit{\"a}t Weimar}, pages = {98}, abstract = {Baulogistische Vorg{\"a}nge sind in einer modern angelegten Baustelle der Schl{\"u}ssel zu einer wirtschaftlichen Abwicklung. Dieses gilt nicht nur f{\"u}r den Rohbau, bei dem die sehr enge Verzahnung zwischen den Fertigungs- und Logistikprozessen auf der Baustelle zu beobachten ist, sondern noch mehr f{\"u}r die Ausbauphase, bei der vermeintlich unabh{\"a}ngig voneinander agierende Einzelunternehmen des Ausbaus auf engem Raum miteinander um die jeweils besten Liefer- und Montagebedingungen konkurrieren. Ausgehend von einer aktuellen Großbaustelle in Jena werden verschiedene Varianten einer leistungsf{\"a}higen Baulogistik entwickelt und deren Implementierung auf der Baustelle vorbereitet werden.}, subject = {Baulogistik}, language = {de} } @misc{Habtemariam, type = {Master Thesis}, author = {Habtemariam, Abinet Kifle}, title = {Numerical Demolition Analysis of a Slender Guyed Antenna Mast}, doi = {10.25643/bauhaus-universitaet.4460}, url = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20210723-44609}, school = {Bauhaus-Universit{\"a}t Weimar}, pages = {75}, abstract = {The main purpose of the thesis is to ensure the safe demolition of old guyed antenna masts that are located in different parts of Germany. The major problem in demolition of this masts is the falling down of the masts in unexpected direction because of buckling problem. The objective of this thesis is development of a numerical models using finite element method (FEM) and assuring a controlled collapse by coming up with different time setups for the detonation of explosives which are responsible for cutting down the cables. The result of this thesis will avoid unexpected outcomes during the demolition processes and prevent risk of collapsing of the mast over near by structures.}, subject = {Abbruch}, language = {en} } @misc{Udrea, type = {Master Thesis}, author = {Udrea, Mihai-Andrei}, title = {Assessment of Data from Dynamic Bridge Monitoring}, doi = {10.25643/bauhaus-universitaet.2174}, url = {http://nbn-resolving.de/urn:nbn:de:gbv:wim2-20140429-21742}, school = {Bauhaus-Universit{\"a}t Weimar}, abstract = {The focus of the thesis is to process measurements acquired from a continuous monitoring system at a railway bridge. Temperature, strain and ambient vibration records are analysed and two main directions of investigation are pursued. The first and the most demanding task is to develop processing routines able to extract modal parameters from ambient vibration measurements. For this purpose, reliable experimental models are achieved on the basis of a stochastic system identification(SSI) procedure. A fully automated algorithm based on a three-stage clustering is implemented to perform a modal parameter estimation for every single measurement. After selecting a baseline of modal parameters, the evolution of eigenfrequencies is studied and correlated to environmental and operational factors. The second aspect deals with the structural response to passing trains. Corresponding triggered records of strain and temperature are processed and their assessment is accomplished using the average strains induced by each train as the reference parameter. Three influences due to speed, temperature and loads are distinguished and treated individually. An attempt to estimate the maximum response variation due to each factor is also carried out.}, subject = {Messtechnik}, language = {en} }