TY - THES A1 - Zhang, Yongzheng T1 - A Nonlocal Operator Method for Quasi-static and Dynamic Fracture Modeling N2 - Material failure can be tackled by so-called nonlocal models, which introduce an intrinsic length scale into the formulation and, in the case of material failure, restore the well-posedness of the underlying boundary value problem or initial boundary value problem. Among nonlocal models, peridynamics (PD) has attracted a lot of attention as it allows the natural transition from continuum to discontinue and thus allows modeling of discrete cracks without the need to describe and track the crack topology, which has been a major obstacle in traditional discrete crack approaches. This is achieved by replacing the divergence of the Cauchy stress tensor through an integral over so-called bond forces, which account for the interaction of particles. A quasi-continuum approach is then used to calibrate the material parameters of the bond forces, i.e., equating the PD energy with the energy of a continuum. One major issue for the application of PD to general complex problems is that they are limited to fairly simple material behavior and pure mechanical problems based on explicit time integration. PD has been extended to other applications but losing simultaneously its simplicity and ease in modeling material failure. Furthermore, conventional PD suffers from instability and hourglass modes that require stabilization. It also requires the use of constant horizon sizes, which drastically reduces its computational efficiency. The latter issue was resolved by the so-called dual-horizon peridynamics (DH-PD) formulation and the introduction of the duality of horizons. Within the nonlocal operator method (NOM), the concept of nonlocality is further extended and can be considered a generalization of DH-PD. Combined with the energy functionals of various physical models, the nonlocal forms based on the dual-support concept can be derived. In addition, the variation of the energy functional allows implicit formulations of the nonlocal theory. While traditional integral equations are formulated in an integral domain, the dual-support approaches are based on dual integral domains. One prominent feature of NOM is its compatibility with variational and weighted residual methods. The NOM yields a direct numerical implementation based on the weighted residual method for many physical problems without the need for shape functions. Only the definition of the energy or boundary value problem is needed to drastically facilitate the implementation. The nonlocal operator plays an equivalent role to the derivatives of the shape functions in meshless methods and finite element methods (FEM). Based on the variational principle, the residual and the tangent stiffness matrix can be obtained with ease by a series of matrix multiplications. In addition, NOM can be used to derive many nonlocal models in strong form. The principal contributions of this dissertation are the implementation and application of NOM, and also the development of approaches for dealing with fractures within the NOM, mostly for dynamic fractures. The primary coverage and results of the dissertation are as follows: -The first/higher-order implicit NOM and explicit NOM, including a detailed description of the implementation, are presented. The NOM is based on so-called support, dual-support, nonlocal operators, and an operate energy functional ensuring stability. The nonlocal operator is a generalization of the conventional differential operators. Combining with the method of weighted residuals and variational principles, NOM establishes the residual and tangent stiffness matrix of operate energy functional through some simple matrix without the need of shape functions as in other classical computational methods such as FEM. NOM only requires the definition of the energy drastically simplifying its implementation. For the sake of conciseness, the implementation in this chapter is focused on linear elastic solids only, though the NOM can handle more complex nonlinear problems. An explicit nonlocal operator method for the dynamic analysis of elasticity solid problems is also presented. The explicit NOM avoids the calculation of the tangent stiffness matrix as in the implicit NOM model. The explicit scheme comprises the Verlet-velocity algorithm. The NOM can be very flexible and efficient for solving partial differential equations (PDEs). It's also quite easy for readers to use the NOM and extend it to solve other complicated physical phenomena described by one or a set of PDEs. Several numerical examples are presented to show the capabilities of this method. -A nonlocal operator method for the dynamic analysis of (thin) Kirchhoff plates is proposed. The nonlocal Hessian operator is derived from a second-order Taylor series expansion. NOM is higher-order continuous, which is exploited for thin plate analysis that requires $C^1$ continuity. The nonlocal dynamic governing formulation and operator energy functional for Kirchhoff plates are derived from a variational principle. The Verlet-velocity algorithm is used for time discretization. After confirming the accuracy of the nonlocal Hessian operator, several numerical examples are simulated by the nonlocal dynamic Kirchhoff plate formulation. -A nonlocal fracture modeling is developed and applied to the simulation of quasi-static and dynamic fractures using the NOM. The phase field's nonlocal weak and associated strong forms are derived from a variational principle. The NOM requires only the definition of energy. We present both a nonlocal implicit phase field model and a nonlocal explicit phase field model for fracture; the first approach is better suited for quasi-static fracture problems, while the key application of the latter one is dynamic fracture. To demonstrate the performance of the underlying approach, several benchmark examples for quasi-static and dynamic fracture are solved. T3 - ISM-Bericht // Institut für Strukturmechanik, Bauhaus-Universität Weimar - 2022,9 KW - Variationsprinzip KW - Partial Differential Equations KW - Taylor Series Expansion KW - Peridynamics KW - Variational principle KW - Phase field method KW - Peridynamik KW - Phasenfeldmodell KW - Partielle Differentialgleichung KW - Nichtlokale Operatormethode Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20221026-47321 ER - TY - THES A1 - Hollberg, Alexander T1 - A parametric method for building design optimization based on Life Cycle Assessment N2 - The building sector is responsible for a large share of human environmental impacts. Architects and planners are the key players for reducing the environmental impacts of buildings, as they define them to a large extent. Life Cycle Assessment (LCA) allows for the holistic environmental analysis of a building. However, it is currently not employed to improve the environmental performance of buildings during the design process, although the potential for optimization is greatest there. One main reason is the lack of an adequate means of applying LCA in the architectural design process. As such, the main objective of this thesis is to develop a method for environmental building design optimization that is applicable in the design process. The key concept proposed in this thesis is to combine LCA with parametric design, because it proved to have a high potential for design optimization. The research approach includes the analysis of the characteristics of LCA for buildings and the architectural design stages to identify the research gap, the establishment of a requirement catalogue, the development of a method based on a digital, parametric model, and an evaluation of the method. An analysis of currently available approaches for LCA of buildings indicates that they are either holistic but very complex or simple but not holistic. Furthermore, none of them provide the opportunity for optimization in the architectural design process, which is the main research gap. The requirements derived from the analysis have been summarized in the form of a catalogue. This catalogue can be used to evaluate both existing approaches and potential methods developed in the future. In this thesis, it served as guideline for the development of the parametric method – Parametric Life Cycle Assessment (PLCA). The unique main feature of PLCA is that embodied and operational environmental impact are calculated together. In combination with the self-contained workflow of the method, this provides the basis for holistic, time-efficient environmental design optimization. The application of PLCA to three examples indicated that all established mandatory requirements are met. In all cases, environmental impact could be significantly reduced. In comparison to conventional approaches, PLCA was shown to be much more time-efficient. PLCA allows architects to focus on their main task of designing the building, and finally makes LCA practically useful as one of several criteria for design optimization. With PLCA, the building design can be time-efficiently optimized from the beginning of the most influential early design stages, which has not been possible until now. PLCA provides a good starting point for further research. In the future, it could be extended by integrating the social and economic aspects of sustainability. T3 - bauhaus.ifex research series - 4 KW - Bauentwurf KW - Architektur KW - Bauökologie KW - Nachhaltigkeit KW - Life Cycle Assessment KW - Parametric Design KW - Building Information Modelling KW - BIM KW - Optimization Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20180928-38000 ER - TY - THES A1 - Hollberg, Alexander T1 - A parametric method for building design optimization based on Life Cycle Assessment - Appendix T2 - A parametric method for building design optimization based on Life Cycle Assessment N2 - The building sector is responsible for a large share of human environmental impacts, over which architects and planners have a major influence. The main objective of this thesis is to develop a method for environmental building design optimization based on Life Cycle Assessment (LCA) that is applicable as part of the design process. The research approach includes a thorough analysis of LCA for buildings in relation to the architectural design stages and the establishment of a requirement catalogue. The key concept of the novel method called Parametric Life Cycle Assessment(PLCA) is to combine LCA with parametric design. The application of this method to three examples shows that building designs can be optimized time-efficiently and holistically from the beginning of the most influential early design stages, an achievement which has not been possible until now. KW - Ökobilanz Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20161101-26884 ER - TY - THES A1 - Mizrak Bilen, Burcin T1 - A Power-Centered Approach to the Capitalization of Climate Change in Property Sector and Strategic Limitation N2 - The capitalization of ‘certified’ sustainable building sector will be investigated over the power theory of value approach of Jonathan Nitzan and Shimshon Bichler. The study will be initiated by questioning why the environment problems are one of the first items on the agenda and by sharing the ideas of scholars who approaches the subject skeptically, because the predominant literature underlying the necessity and prominence of the topic is already well-known and adapted by the majority. Over the theory developed by Nitzan and Bichler, the concepts of capitalization, strategic sabotage, power, legitimacy, and obedience will be discussed. The hypothesis of “the absentee owners of the construction sector, holding the whip hand and capitalizing the ecology, control the growth and the creativity of green building production and make it carbon-dependent, in order to increase their profit margin” will be questioned. To strengthen the arguments in the hypothesis, the factors, the institutional arrangements, value measurement methods, which affect directly the net present value, will be investigated both in corporation and in building scale in detail, because net present value/ capitalization is asserted as the most important criteria by Nitzan and Bichler to make the investment decisions in the capitalist economic system. To trace the implications of power and the strategic sabotage that power caused, as the empirical dimension of this dissertation, an interface exploring the correlational ties between the climate responsive architecture and the ever changing political, economical, and social contexts and building economics praxis by decades will be developed and the expert interviews will be conducted with the design teams and the appraisers. N2 - Die Kapitalisierung des "zertifizierten" nachhaltigen Gebäudesektors wird im Rahmen des Ansatzes der Machttheorie des Wertes von Jonathan Nitzan und Shimshon Bichler untersucht. Die Studie wird mit der Frage beginnen, warum die Umweltprobleme zu den ersten Punkten auf der Tagesordnung gehören und mit der Teilung von Ideen von Gelehrten, die sich dem Thema skeptisch nähern. Denn die vorherrschende Literatur, die der Notwendigkeit und Bedeutung des Themas zugrunde liegt, ist bereits von der Mehrheit bekannt und angewandt. Über die von Nitzan und Bichler entwickelte Theorie werden die Begriffe Kapitalisierung, strategische Sabotage, Macht, Legitimität und Gehorsam diskutiert. Die Hypothese "Die abwesenden Eigentümer des Bausektors, die die Peitsche halten und die Ökologie kapitalisieren, kontrollieren das Wachstum und die Kreativität der grünen Gebäudeproduktion und machen sie CO2-abhängig, um ihre Gewinnspanne zu erhöhen" wird in Frage gestellt. Um die Argumente in der Hypothese zu stärken, werden die Faktoren, institutionellen Arrangements und Wertmessmethoden, die sich direkt auf den Kapitalwert auswirken, sowohl im Unternehmens- als auch im Gebäudebereich detailliert untersucht. Denn der Barwert/die Kapitalisierung wird von Nitzan und Bichler als wichtigstes Kriterium für die Investitionsentscheidungen im kapitalistischen Wirtschaftssystem herangezogen. Nach der Vorbereitung einer Schnittstelle, die die historische Entwicklung der nachhaltigen Architektur in Verbindung mit dem sich ständig verändernden politisch-ökonomischen System und mit den sich ständig ändernden Prioritäten der Bauökonomie, Architektur-, Umwelt- und Sozialwissenschaften darstellt, wurden die halbstrukturierten Tiefeninterviews mit Experten - Architekten, Immobiliengutachtern, einem Mitarbeiter einer Investmentbank und einem CEO, aus aller Welt, durchgeführt um die wahrscheinlichen restriktiven und begrenzenden Auswirkungen der institutionellen Macht, ihres Netzes von Machtverhältnissen, ihrer Kontrollmechanismen, die im Streben nach unterschiedlichem Gewinnwachstum eingesetzt werden, und ihrer Gründe hinter dieser institutionellen Kontrolle auf dem zertifizierten Markt für umweltfreundliches Bauen und den damit verbundenen Materialien und Energiemärkte zu erforschen. Die Interviews sind in vier Titel unterteilt: die Vorteile (warum), die Kontrollmechanismen (wie), die Machtverhältnisse (wer) und die strategische Sabotage (was). Dies dient dazu, um einen Beitrag zur Lesbarkeit von Macht im zertifizierten für umweltfreundliches Bauen zu leisten. KW - Klimaänderung KW - Machttheorie KW - Kapitalisierung KW - capitalization KW - power theory of value KW - climate change KW - property sector KW - strategic limitation Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20190107-38406 ER - TY - THES A1 - Fauth, Judith T1 - A process-oriented decision model for determining the permitability of construction projects N2 - In recent years, the discussion of digitalization has arrived in the media, at conferences, and in committees of the construction and real estate industry. While some areas are producing innovations and some contributors can be described as pioneers, other topics still show deficits with regard to digital transformation. The building permit process can also be counted in this category. Regardless of how architects and engineers in planning offices rely on innovative methods, building documents have so far remained in paper form in too many cases, or are printed out after electronic submission to the authority. Existing resources – for example in the form of a building information model, which could provide support in the building permit process – are not being taken advantage of. In order to use digital tools to support decision-making by the building permit authorities, it is necessary to understand the current situation and to question conditions before pursuing the overall automation of internal authority processes as the sole solution. With a substantive-organizational consideration of the relevant areas that influence building permit determination, an improvement of the building permit procedure within authorities is proposed. Complex areas – such as legal situations, the use of technology, as well as the subjective alternative action – are determined and structured. With the development of a model for the determination of building permitability, both an understanding of influencing factors is conveyed and an increase in transparency for all parties involved is created. In addition to an international literature review, an empirical study served as the research method. The empirical study was conducted in the form of qualitative expert interviews in order to determine the current state in the field of building permit procedures. The collected data material was processed and subsequently subjected to a software-supported content analysis. The results were processed, in combination with findings from the literature review, in various analyses to form the basis for a proposed model. The result of the study is a decision model that closes the gap between the current processes within the building authorities and an overall automation of the building permit review process. The model offers support to examiners and applicants in determining building permit eligibility, through its process-oriented structuring of decision-relevant facts. The theoretical model could be transferred into practice in the form of a web application. KW - Baugenehmigung KW - Entscheidungsmodell KW - Bauantrag KW - Prozessmanagement KW - Projektmanagement KW - Building permit KW - Building application KW - Decision-making KW - Process management KW - Project management Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20220309-46020 UR - https://e-pub.uni-weimar.de/opus4/frontdoor/index/index/docId/4509 N1 - This work is a translation of the original dissertation (German language) which is accessible at: https://doi.org/10.25643/bauhaus-universitaet.4509 and deposited here as URL link. ER - TY - THES A1 - Sowoidnich, Thomas T1 - A Study of Retarding Effects on Cement and Tricalcium Silicate Hydration induced by Superplasticizers N2 - Fließmittel werden in Betonen verwendet, um deren Fließeigenschaften während der Verarbeitung zu verbessern und Wasser einzusparen. Beide Faktoren beeinflussen nicht nur den Frischbeton, sondern auch signifikant die Festbetoneigenschaften. Nachteilig wirken sich Fließmittel auf die Festigkeitsentwicklung aus, die z.T. sehr stark verzögert wird. Dies ist vor allem bei Bauteilen, die im Rahmen eines Vorfertigungsprozesses hergestellt werden, ein ökonomischer Nachteil. Die vorliegende Arbeit widmet sich den Ursachen für die Verzögerung der Portlandzementhydratation bei Verwendung von Fließmitteln. Um die komplexen Reaktionen, die während der Portlandzementhydratation auftreten, zu vereinfachen, betrachtet ein überwiegender Teil der Arbeit die Wechselwirkung Fließmittel-Tricalciumsilikat (Abk. Ca3SiO5 oder C3S, Hauptbestandteil von Portlandzementklinker). Die Untersuchungen werden in drei Hauptteilen durchgeführt, wobei Methoden wie u.a. isotherme Wärmeflusskalorimetrie, Elektrische Leitfähigkeit, Elektronenmikroskopie, ICP-OES, TOC als auch Analytische Ultrazentrifugation Anwendung finden. Basierend auf der Wechselwirkung von Kationen mit anionischen Ladungsträgern von Polymeren wird die Interaktion von Calcium mit Fließmitteln im ersten Teil der Arbeit untersucht. Dabei kommt es überwiegend zur Komplexierung von Calciumionen durch die funktionellen Gruppen der Plymere (Carboxyl- bzw. Sulfonguppen), die in zementären Umgebungen sowohl gelöst in der wässrigen Phase als auch als Bestandteil von Partikelgrenzflächen vorhanden sind. Neben diesen Effekten kann auch gezeigt werden, dass Fließmittel die Bildung von nanoskaligen Partikeln hervorrufen, die infolge der sterischen Wirkung von Fließmitteln dispergiert in der wässrigen Phase vorliegen (Clusterbildung). Analog zu neuesten Erkenntnissen aus dem Bereich der Biomineralisation ist daher davon auszugehen, dass diese Nanopartikel durch Agglomeration das Kristallwachtsum beeinflussen. Ausgehend von der Annahme, dass die Auflösungs- und/ oder Fällungskinetik durch die Wirkung von Fließmitteln behindert und damit für den Verzögerungseffekt der Fließmittel während der komplexen Hydratationsreaktion verantwortlich seien können, werden die zugrundeliegenden Vorgänge im zweiten Abschnitt getrennt voneinander untersucht. Es wird anhand von Lösungsuntersuchungen an C-S-H Phasen und Portlandit herausgestellt, dass die Komplexierung von gelösten Calciumionen durch funktionelle Gruppen der Polymere die Löslichkeit von Portlandit erhöht. Im Gegensatz führt die Komplexierung von Calciumionen in der wässrigen Phase zu einer Verringerung der Calciumionenkonzentration in der wässrigen Phase. Diese Effekte werden auf die unterschiedlich starke Adsorptionsneigung der Polymere an C-S-H-Phasen und Portlandit zurückgeführt. Es wird davon ausgegangen, dass die Adsorption aufgrund der größeren spezifischen Oberfläche stärker an den C-S-H-Phasen als am Portlandit auftritt. Demnach stellt sich dar, dass die Polymere erst nachdem die funktionellen Gruppen Calciumionen aus der wässrigen Phase komplexiert haben an den C-S-H-Phasen adsorbieren. Weiterhin kann gezeigt werden, dass die freie C3S Auflösungsrate in Anwesenheit von Fließmitteln keinen direkten Zusammenhang zur Verzögerung erkennen lässt. Teilweise kommt es zu einer in Bezug zur Kontrollprobe ohne Fließmittel erhöhten sowie auch verringerten Auflösungsrate. Wird das Komplexierungsvemögen der Fließmittel berücksichtigt, so kann durchaus eine verlangsamte freie Auflösungsrate ermittelt werden. Doch auch Calcit zeigt einen verzögernden Einfluss auf die freie C3S Auflösung, obwohl es den Gesamtprozess der Hydratation signifikant beschleunigt. Somit kann die behinderte Auflösung als mögliche Ursache für die verzögernde Wirkung während der Zementhydratation weder bestätigt noch widerlegt werden. Dieser Punkt sollte in zukünftigen Arbeiten weiter untersucht werden. Im letzten Schritt dieses Untersuchungsabschnitts wird die reine Kristallisation von C-S-H-Phasen und Portlandit untersucht. Es stellt sich heraus, dass Fließmittel insbesondere durch die Wirkung der Komplexierung von Ionen in der wässrigen Phase sowohl die Induktionszeit verlängern als auch die Kristallwachstumsrate verändern. Dies allein kann aber nicht die komplette Verzögerungswirkung erklären. Ein wichtiger Verzögerungsfaktor ist die Adsorption der Polymere an Kristalloberflächen als auch eine fließmittelbedingte Dispergierung von nanoskaligen Einzelpartikeln, die deren Agglomeration zu Kristallen behindert. Im letzten Hauptuntersuchungsabschnitt werden die gewonnenen Erkenntnisse auf die während der Zement- und Tricalciumsilikathydratation parallel ablaufenden Reaktionen analysiert. Dabei wird insbesondere die ionische Zusammensetzung der wässrigen Phase von C3S Pasten und Suspensionen untersucht, um Hinweise für eine kinetische Hemmung der Hydratationsreaktion zu identifizieren. Zusammenfassend wird festgestellt, dass die Ursachen der verzögernden Wirkung von Fließmitteln auf die Hydratation von C3S auf die starke Verzögerung der Kristallisation von Hydratphasen zurückzuführen ist. Dabei kommt den zwei Faktoren Komplexierung von Calciumionen an Oberflächen und Stabilisierung von nanoskaligen Partikeln eine zentrale Bedeutung zu. Diese Effekte können durch die Wirkung als Templat als auch durch Erhöhung der Löslichkeit infolge Komplexierung freier/gelöster Ionen teilkompensiert werden. Dass die Auflösungsreaktion durch die Anwesenheit von Fließmitteln behindert wird, kann nur indirekt anhand der Entwicklung von Ionenkonzentrationen festgestellt werden. Ob dieser Vorgang die Ursache oder die Folge des Lösungs-Fällungs-Mechanismus der Hydratation ist und damit die verzögernde Wirkung durch behinderte Auflösung des Edukts hervorgerufen wird, bleibt Gegenstand weiterer Untersuchungen. Im Rahmen der Arbeit kann auch gezeigt werden, dass Fließmittel chemisch als Inhibitoren wirken indem sie den Frequenzfaktor verringern. Darüber hinaus wird erstmalig eine Methode entwickelt, die die Bestimmung der Ionenkonzentration in Pasten in-situ erlaubt. Mit deren Hilfe wird dargestellt, dass die Entwicklung der Ionenkonzentration als auch die allgemein verwendete Wärmefreisetzungsrate (Kalorimetrie) miteinander korrespondiert. Darüber hinaus erlaubt die entwickelte Methode die weitere Differenzierung der Accelerationsperiode in drei Stadien. Die Kristallisation von C-S-H-Phasen und Portlandit ist für den Beginn der Haupthydratationsperiode entscheidend. N2 - Superplasticizers are utilized both to improve the fluidity during the placement and to reduce the water content of concretes. Both effects have also an impact on the properties of the hardened concrete. As a side effect the presence of superplasticizers affects the strength development of concretes that is strongly retarded. This may lead to an ecomomical drawback of the concrete manufacturing. The present work is aimed at gaining insights on the causes of the retarding effect of superplasticizers on the hydration of Portland cement. In order to simplify the complex interactions occurring during the hydration of Portland cement the majority of the work focuses on the interaction of superplasticizer and tricalcium silicate (Ca3SiO5 or C3S, the main compound of Portland cement clinker). The tests are performed in three main parts accompanied by methods as for example isothermal conduction calorimetry, electrical conductivity, Electron Microscopy, ICP-OES, TOC, as well as Analytical Ultracentrifugation. In the first main part and based on the interaction of cations and anionic charges of polymers, the interactions between calcium ions and superplasticizers are investigated. As a main effect calcium ions are complexed by the functional groups of the polymers (carboxy, sulfonic). Calcium ions may be both dissolved in the aqueous phase and a constitute of particle interfaces. Besides these effects it is furthermore shown that superplasticizers induce the formation of nanoscaled particles which are dispersed in the aqueous phase (cluster formation). Analogous to recent findings in the field of biomineralization, it is reasonable to assume that these nanoparticles influence the crystal growth by their assembly process. Based on the assumption that superplasticizers hinder either or both dissolution and precipitation and by that retard the cement hydration, the impact on separate reactions is investigated. On experiments that address the solubility of C-S-H phases and portlandite, it is shown that complexation of calcium ions in the aqueous phase by functional groups of polymers increases the solubility of portlandite. Contrary, in case of C-S-H solubility the complexation of calcium ions in solution leads to decrease of the calcium ion concentration in the aqueous phase. These effects are explained by differences in adsorption of polymers on C-S-H phases and portlandite. It is proposed that adsorption is stronger on C-S-H phases compared to portlandite due to the increased specific surface area of C-S-H phases. Following that, it is claimed that before polymers are able to adsorb on C-S-H phases the functional groups must be screened by calcium ions in the aqueous phase. It is further shown that data regarding the impact of superplasticizers on the unconstrained dissolution rate of C3S does not provide a clear relation to the overall retarding effect occurring during the hydration of C3S. Both increased and decreased dissolution rate with respect to the reference sample are detected. If the complexation capability of the superplasticizers is considered then also a reduced dissolution rate of C3S is determined. Despite the fact that the global hydration process is accelerated, the addition of calcite leads to a slower dissolution rate. Thus, a hindered unconstrained dissolution of C3S as possibly cause for the retarding effect still remains open for discussion. In the last section of this part, the pure crystallization of hydrate phases (C-S-H phases, portlandite) is fathomed. Results clearly show that superplasticizers prolong the induction time and modify the rate of crystal growth during pure crystallization in particular due to the complexation of ions in solution. But this effect is insufficient to account for the overall retarding effect. Further important factors are the blocking of crystal growth faces by adsorbed polymers and the dispersion of nanoscaled particles which hinders their agglomeration in order to build up crystals. In the last main part of the work, the previously gathered results are utilized in order to investigate hydration kinetics. During hydration, dissolution and precipitation occur in parallel. Thereby, special attention is laid on the ion composition of the aqueous phase of C3S pastes and suspensions in order to determine the rate limiting step. All in all it is concluded that the retarding effect of superplasticizers on the hydration of tricalcium silicate is based on the retardation of crystallization of hydrate phases (C-S-H phases and portlandite). Thereby, the two effects complexation of calcium ions on surfaces and stabilization of nanoscaled particles are of major importance. These mechanisms may partly be compensated by template performance and increase in solubility by complexation of ions in solution. The decreased dissolution rate of C3S by the presence of superplasticizers during the in parallel occuring hydration process can only be assessed indirectly by means of the development of the ion concentrations in the aqueous phase (reaction path). Whether this observation is the cause or the consequence within the dissolution-precipitation process and therefore accounts for the retarding effect remains a topic for further investigations. Besides these results it is shown that superplasticizers can be associated chemically with inhibitors because they reduce the frequency factor to end the induction period. Because the activation energy is widely unaffected it is shown that the basic reaction mechanism sustain. Furthermore, a method was developed which permits for the first time the determination of ion concentrations in the aqueous phase of C3S pastes in-situ. It is shown that during the C3S hydration the ion concentration in the aqueous phase is developed correspondingly to the heat release rate (calorimetry). The method permits the differentiation of the acceleration period in three stages. It is emphasized that crystallization of the product phases of C3S hydration, namely C-S-H phases and portlandite, are responsible for the end of the induction period. KW - Cement KW - Tricalcium silicate KW - Superplasticizer KW - Complexation KW - Retardation Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20160224-25444 SN - 978-3-00-052204-8 ER - TY - THES A1 - Winkel, Benjamin T1 - A three-dimensional model of skeletal muscle for physiological, pathological and experimental mechanical simulations T1 - Ein dreidimensionales Skelettmuskel-Modell für physiologische, pathologische und experimentelle mechanische Simulationen N2 - In recent decades, a multitude of concepts and models were developed to understand, assess and predict muscular mechanics in the context of physiological and pathological events. Most of these models are highly specialized and designed to selectively address fields in, e.g., medicine, sports science, forensics, product design or CGI; their data are often not transferable to other ranges of application. A single universal model, which covers the details of biochemical and neural processes, as well as the development of internal and external force and motion patterns and appearance could not be practical with regard to the diversity of the questions to be investigated and the task to find answers efficiently. With reasonable limitations though, a generalized approach is feasible. The objective of the work at hand was to develop a model for muscle simulation which covers the phenomenological aspects, and thus is universally applicable in domains where up until now specialized models were utilized. This includes investigations on active and passive motion, structural interaction of muscles within the body and with external elements, for example in crash scenarios, but also research topics like the verification of in vivo experiments and parameter identification. For this purpose, elements for the simulation of incompressible deformations were studied, adapted and implemented into the finite element code SLang. Various anisotropic, visco-elastic muscle models were developed or enhanced. The applicability was demonstrated on the base of several examples, and a general base for the implementation of further material models was developed and elaborated. T3 - ISM-Bericht // Institut für Strukturmechanik, Bauhaus-Universität Weimar - 2020,3 KW - Biomechanik KW - Nichtlineare Finite-Elemente-Methode KW - Muskel KW - Brustkorb KW - Muscle model KW - FEM KW - Biomechanics KW - Incompressibility KW - Thorax Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20201211-43002 ER - TY - THES A1 - Borth, Olaf T1 - Abschätzung der Tragfähigkeit von Queranschlüssen an Trägern aus Voll- und Brett-schichtholz im Rahmen der Linear-Elastischen Bruchmechanik T1 - Estimation of the load-carrying capacity of perpendicular-to-grain connections in timber and glulam by fracture criterion in the framework of LEFM N2 - In der Arbeit werden Möglichkeiten aufgezeigt, die Tragfähigkeit von Queranschlüssen an Trägern aus Voll- und Brettschichtholz abzuschätzen. Die Tragfähigkeit dieser Anschlüsse wird nicht allein durch die Tragfähigkeit der mechanischen Verbindungsmittel selbst begrenzt. Die Tragfähigkeit der Verbindungsmittel wird in dieser Arbeit a priori als hinreichend betrachtet. Sie kann z. B. nach der Theorie von JOHANSEN bestimmt werden. Insbesondere bei solchen Anschlüssen, welche unterhalb der Schwerachse von Trägern angeordnet sind, erzeugen die durch die Verbindungsmittel eingeleiteten Lasten Beanspruchungen, welche die Tragfähigkeiten dieser Anschlüsse bestimmen. Die Abschätzung der Tragfähigkeit auf der Basis von Spannungen hat bei dieser Problemstellung methodische Schwächen. Bauteile aus Holz können unter Gebrauchsbedingungen rißbehaftet sein. Mit den Methoden der Linear-Elastischen Bruchmechanik kann die Tragfähigkeit von rißbehafteten Bauteilen beurteilt werden. Es werden wegen der Vielzahl möglicher Ausführungvarianten lediglich Anschlüsse betrachtet, welche mit stiftförmigen Verbindungsmitteln hergestellt werden. Zur Bestimmung bruchmechanischer Kennwerte werden numerische Methoden angewendet. Es werden wichtige Parameter dieser Anschlüsse untersucht und hinsichtlich ihrer Berücksichtigung im Rechenmodell bewertet. Zur Verifizierung des Rechenmodells werden Vergleiche mit experimentellen Untersuchungen anderer Wissenschaftler angestellt. Der Einsatz verschiedener Versagenskriterien wird diskutiert. Schließlich wird ein formaler Zusammenhang zur Abschätzung der Tragfähigkeit für einzelne Verbindungsmittel hergestellt. Weiterhin wird die Tragfähigkeit von praxisüblichen Anschlüssen anhand einfacher Zusammenhänge aufgezeigt. N2 - The load-carrying capacity of bolted and nailed joints under lateral force perpendicular to grain not only depends on the bearing capacity of the fastener itself. Especially for hangers below the gravity axis the load-carrying capacity is limited by stresses in the structural mem-ber caused by force transfer of the joint. For dowel-type fasteners there is a good estimation of the load-carrying by applying JOHANSEN’s theory. In this examination the strength of the fasteners is recognized as satisfied by this theory. For this reason the paper only deals with the estimation of the load-carrying capacity by consideration of uniaxial stresses due to lateral forces. An estimation of the ultimate load based on nominal stresses according to the theory of elasticity is quite difficult. The reason is the inaccuracy in determining maximum finite or area averaged stress values as well as the formulation of suitable failure criterions. Because of the local force concentration those areas have high stress gradients therefore a high sensibility of global failure strength in respect to the fracture toughness can also be assumed. Fracture toughness is the critical material parameter of linear-elastic fracture me-chanics. The calculation model which is presented in this paper is based on the numerical methods of the LEFM in order to estimate the ultimate limit state of wooden members under local loads perpendicular to the grain, like e.g. of mechanical joints with dowel-type fa-steners. Beside the short presentation of the basic finite element formulation of the LEFM, the influences of structural modeling, material- and structural depended parameters on the results of the strength simulation are presented. For several examples the results of the calculations are compared with the experimental ones published in scientific literature. Fi-nally the application of several fracture criterions will be discussed in order to derivate a simple design formula to predict the limit state strength of perpendicular-to-grain bolted timber connections. The solution will be compared with generally known approaches for this problem. KW - Träger KW - Brettschichtholz KW - Vollholz KW - Holzverbindung KW - Tragfähigkeit KW - Linearelastische Bruchmechanik KW - Holz KW - Queranschluß KW - Spannungsintensitätsfaktor KW - Bruchzähigkeit KW - Mixed Mode KW - Timber KW - Perpendicular-to-grain loaded Connections KW - Stress Intensity Factor KW - Fracture Toughness KW - Mixed Mode Y1 - 2002 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20040212-250 ER - TY - THES A1 - Luther, Torsten T1 - Adaptation of atomistic and continuum methods for multiscale simulation of quasi-brittle intergranular damage N2 - The numerical simulation of damage using phenomenological models on the macroscale was state of the art for many decades. However, such models are not able to capture the complex nature of damage, which simultaneously proceeds on multiple length scales. Furthermore, these phenomenological models usually contain damage parameters, which are physically not interpretable. Consequently, a reasonable experimental determination of these parameters is often impossible. In the last twenty years, the ongoing advance in computational capacities provided new opportunities for more and more detailed studies of the microstructural damage behavior. Today, multiphase models with several million degrees of freedom enable for the numerical simulation of micro-damage phenomena in naturally heterogeneous materials. Therewith, the application of multiscale concepts for the numerical investigation of the complex nature of damage can be realized. The presented thesis contributes to a hierarchical multiscale strategy for the simulation of brittle intergranular damage in polycrystalline materials, for example aluminum. The numerical investigation of physical damage phenomena on an atomistic microscale and the integration of these physically based information into damage models on the continuum meso- and macroscale is intended. Therefore, numerical methods for the damage analysis on the micro- and mesoscale including the scale transfer are presented and the transition to the macroscale is discussed. The investigation of brittle intergranular damage on the microscale is realized by the application of the nonlocal Quasicontinuum method, which fully describes the material behavior by atomistic potential functions, but reduces the number of atomic degrees of freedom by introducing kinematic couplings. Since this promising method is applied only by a limited group of researchers for special problems, necessary improvements have been realized in an own parallelized implementation of the 3D nonlocal Quasicontinuum method. The aim of this implementation was to develop and combine robust and efficient algorithms for a general use of the Quasicontinuum method, and therewith to allow for the atomistic damage analysis in arbitrary grain boundary configurations. The implementation is applied in analyses of brittle intergranular damage in ideal and nonideal grain boundary models of FCC aluminum, considering arbitrary misorientations. From the microscale simulations traction separation laws are derived, which describe grain boundary decohesion on the mesoscale. Traction separation laws are part of cohesive zone models to simulate the brittle interface decohesion in heterogeneous polycrystal structures. 2D and 3D mesoscale models are presented, which are able to reproduce crack initiation and propagation along cohesive interfaces in polycrystals. An improved Voronoi algorithm is developed in 2D to generate polycrystal material structures based on arbitrary distribution functions of grain size. The new model is more flexible in representing realistic grain size distributions. Further improvements of the 2D model are realized by the implementation and application of an orthotropic material model with Hill plasticity criterion to grains. The 2D and 3D polycrystal models are applied to analyze crack initiation and propagation in statically loaded samples of aluminum on the mesoscale without the necessity of initial damage definition. N2 - Strukturmechanische Ermüdungs- und Lebensdaueranalysen basieren meist auf der Anwendung phänomenologischer Modelle der Schädigungs- und Bruchmechanik zur numerischen Simulationen des makroskopischen Schädigungsverhaltens. Ausgehend von einer definierten Anfangsschädigung sind diese Modelle nicht in der Lage, die tatsächlichen Vorgänge der Rissinitiierung und unterschiedlichen Rissausbreitung zu erfassen. Eine physikalische Interpretation der phänomenologisch eingeführten Schädigungsparameter ist oftmals nicht möglich und deren experimentelle Bestimmung schwierig. Die Berücksichtigung des mikrostrukturellen Aufbaus von Materialien in numerischen Modellen der Schädigungs- und Bruchmechanik bietet neue Möglichkeiten, die für die Rissinitiierung und Rissausbreitung ursächlichen physikalischen Phänomene abzubilden. Zunehmende Erkenntnisse über gleichzeitig auftretende Mikro- und Makroschädigungsvorgänge resultieren in verbesserten numerischen Modellen, mit denen aufwändige und kostenintensive Experimente in der Materialentwicklung zum Teil ersetzt werden können. In Kenntnis einer Vielfalt von unterschiedlichen Schädigungsphänomenen in technischen Materialien fokussiert die vorliegende Dissertation auf die Entwicklung und Verbesserung numerischer Methoden der Atomistik und der Kontinuumsmechanik zur Mehrskalenuntersuchung quasi-spröder Korngrenzenschädigung in polykristallinen Werkstoffen, z.B. Aluminium. Die kombinierte Anwendung dieser Methoden ist Teil eines hierarchischen Mehrskalenansatzes zur Integration des physikalisch beschriebenen Materialverhaltens der Atomistik in ein ingenieurmäßiges Kontinuumsschädigungsmodell. Ziel der Dissertation ist die Entwicklung einer Methodik, die es erlaubt, den Verlust atomarer Bindungen als physikalische Ursache spröder Schädigung zu simulieren und Ergebnisse aus diesen atomistischen Mikroskalen-Simulationen zur Parametrisierung von kohäsiven Materialmodellen der Kontinuumsmechanik zu nutzen. Diese beschreiben den intergranularen Sprödbruch in heterogenen Polykristallmodellen der Mesoskala. Der Einfluss der Heterogenität wird in nichtlinearen Finite-Elemente-Simulationen durch explizite Abbildung der Kornstruktur im mesoskopischen Polykristallmodell berücksichtigt. Durch den Einsatz des kohäsiven Interface-Gesetzes erlaubt das auf der Mesoskala angewandte Kontinuumsmodell die Simulation spröder Korngrenzenschädigung in statisch belasteten 2D und 3D Modellen ohne die Notwendigkeit der Definition einer Anfangsschädigung, wie dies in klassischen Modellen der linear-elastischen Bruchmechanik notwendig ist. Zur effizienten Realisierung der atomistischen Mikroskalen-Simulationen wird eine Implementation der nichtlokalen 3D Quasikontinuumsmethode angewandt. Diese Methode basiert auf einem atomistischen Ansatz und beschreibt das Materialverhalten auf Grundlage atomarer Bindungskräfte. In Modellgebieten mit gleichmäßigem Verformungsfeld werden kinematische Kopplungen atomarer Freiheitsgrade eingeführt, sodass sich die Zahl unabhängiger Freiheitsgrade stark reduziert. Deren effizienter Einsatz erlaubt Simulationen an größeren Modellen ohne Kopplung mit kontinuumsmechanischen Methoden. Eine verbesserte Vernetzung, ein robuster Optimierungsalgorithmus und die vorgenommene Parallelisierung machen die implementierte nichtlokale 3D Quasikontinuumsmethode zu einem effizienten Werkzeug für die robuste Simulation von physikalischen Schädigungsphänomenen in beliebigen atomistischen Konfigurationen. In quasistatischen Simulationen wird eine deutliche Beschleunigung gegenüber der Methode der Gitterstatik bei vergleichbarer Qualität der Ergebnisse erreicht. T2 - Weiterentwicklung numerischer Methoden der Atomistik und Kontinuumsmechanik zur Multiskalen-Simulation quasi-spröder intergranularer Schädigung T3 - ISM-Bericht // Institut für Strukturmechanik, Bauhaus-Universität Weimar - 2010,2 KW - Mechanik KW - Computersimulation KW - Mikro-Scale KW - Meso-Scale KW - Polykristall KW - intergranular damage KW - atomistic simulation methods KW - continuum mechanics KW - quasicontinuum method KW - scale transition Y1 - 2010 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20101101-15245 ER - TY - THES A1 - Tietz, Robert T1 - Adaptierte und objektivierte Minderkostenberechnung bei unwesentlichen Mängeln in Shoppingcentern N2 - Minderkostenberechnung bei unwesentlichen Mängeln KW - Vergabe- und Vertragsordnung für Bauleistungen KW - Mangel KW - Schaden KW - Minderung KW - Mängel KW - Minderkostenberechnung Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20160425-25674 ER -