Global ETD Search

51	Μη καταστροφικός έλεγχος για τη μελέτη της συσσώρευσης βλάβης σε σύνθετα υλικά ενισχυμένα με ίνες γυαλιού, με και χωρίς την παρουσία νανοσωληνίσκων άνθρακα Σωτηριάδης, Γεώργιος 22 December 2009 (has links) Τα σύνθετα υλικά οργανικής μήτρας ενισχυμένα με ίνες γυαλιού είναι μια κατηγορία υλικών που έχει υψηλό τεχνολογικό ενδιαφέρον τις τελευταίες δεκαετίες με πληθώρα εφαρμογών στην αεροπορική και διαστημική βιομηχανία, στην αυτοκινητοβιομηχανία, στη formula 1, στα σπορ και γενικότερα όπου οι απαιτήσεις για υψηλή επίδοση των υλικών συνδυάζονται με την απαίτηση για χαμηλό βάρος. Στην κατεύθυνση αυτή έχει συντελέσει και το διαρκώς μειούμενο κόστος παραγωγής των υλικών αυτών μέσω της χρήσης καινοτόμων τεχνικών. Η συνεχής εξέλιξη των υλικών αυτών οδηγεί σε βελτιωμένα υλικά ενισχυτικής και μητρικής φάσης αλλά και εντελώς καινούρια υλικά και προσεγγίσεις όπως είναι ενισχυτικές φάσεις στη νανοκλίμακα (nanofibers, nanotubes). Η εισαγωγή τέτοιων υλικών στη μήτρα συνθέτων υλικών αλλάζει τις μηχανικές και φυσικές τους ιδιότητες με τρόπο πολλές φορές ολοκληρωτικό. Είναι προφανές ότι η τεκμηριωμένη γνώση και ανάπτυξη μεθόδων μη καταστροφικού ελέγχου της δομικής ακεραιότητας αλλά και η γνώση της μηχανικής συμπεριφοράς μέσω της διαδικασίας εξέλιξης της βλάβης σε μια κατηγορία υλικών με τόσο σημαντικές εφαρμογές είναι ζητούμενο από την ερευνητική κοινότητα παγκοσμίως. Προς αυτήν την κατεύθυνση είναι και η συμβολή της παρούσας διατριβής. Μη καταστροφικές μέθοδοι και δοκιμές εφαρμόζονται εδώ και πολλά χρόνια σε σύνθετα υλικά οργανικής μήτρας με επιτυχία παρά την εγγενή ανομοιογένεια και ανισοτροπία που παρουσιάζουν. Ωστόσο πάντα παραμένει ισχυρή η ζήτηση για μεθόδους που θα βοηθήσουν προς την κατεύθυνση της αύξησης της αξιόπιστης χρήσης των υλικών αυτών μέσω της διαρκούς αποτίμησης και γνώσης της φέρουσας ικανότητάς τους. Η συσσώρευση της βλάβης σε σύνθετα υλικά οργανικής μήτρας που υπόκεινται σε μηχανική φόρτιση είναι ένα ζήτημα που έχει διερευνηθεί εκτενώς μέχρι σήμερα. Ωστόσο, η εισαγωγή ενίσχυσης (carbon nanotubes, CNT) στη μήτρα αλλάζει τους μηχανισμούς δημιουργίας και εξέλιξής της. Επίσης προστίθεται η δυνατότητα της μέτρησης μιας ιδιότητας που εμφανίζεται ως αποτέλεσμα της εισαγωγής αυτής και η οποία είναι η ηλεκτρική αγωγιμότητα. Ο βασικός λοιπόν σκοπός της εργασίας αυτής είναι η μελέτη της χρήσης μη καταστροφικών ελέγχων κατά τη διάρκεια μηχανικών δοκιμών συσσώρευσης βλάβης στα υλικά αυτά, καθώς επίσης και η εισαγωγή της μέτρησης της ηλεκτρικής αντίστασης τους ως ικανής μεθόδου παρακολούθησης και ποσοτικοποίησης της βλάβης αυτής. Η διερεύνηση της επιβελτίωσης των μηχανικών ιδιοτήτων λόγω της εισαγωγής των CNT στα υλικά αυτά μέσω της σύγκρισης με τις ιδιότητες που έχουν χωρίς την προσθήκη αυτή. Αναλυτικότερα οι στόχοι που επιδιώξαμε να πετύχουμε στα πλαίσια της διατριβής είναι οι ακόλουθοι: • Μελέτη της διεθνούς βιβλιογραφίας στα συγκεκριμένα θέματα. • Εκτέλεση ειδικά επιλεγμένων μηχανικών δοκιμών σε σύνθετα υλικά Glass/vinylester και Glass/vinylester με CNT (κυκλικά πειράματα φόρτισης – αποφόρτισης – επαναφόρτισης). • Χρήση εξελιγμένων μη καταστροφικών μεθόδων όπως η χρήση δεδομένων ταχύτητας διάδοσης υπερηχητικών ελαστικών κυμάτων (UT) και η ακουστική εκπομπή (AE) για την παρακολούθηση της βλάβης κατά τη διάρκεια των μηχανικών δοκιμών. • Διερεύνηση καταγραφών ηλεκτρικής αντίστασης ως δείκτη βλάβης του υλικού. • Δοκιμές θραυστομηχανικής συμπεριφοράς για την εκτίμηση της βελτίωσης των επιδόσεων του υλικού παρουσία των CNT. / Multi wall carbon nanotubes were used as an additive in the matrix of glass / vinylester composites, in order to improve their damage tolerance and provide a means for their damage assessment at any stage of their loading history. The improvement of the damage tolerance is expected to stem from the incorporation of an additional interfacial area that activates energy dissipation mechanisms such as interfacial sliding, fibre pull out and bridging as well as crack bifurcation and arrest; all these mechanisms are active at the nanoscale. The life monitoring is performed via the electrical resistance changes in the conductive carbon nanotube network within the composite matrix; this network follows any deformation of the composite providing real time strain monitoring and, at the same time, pinpoints all loci of failure through the local breach of the conductive path that lead to a monotonic increase in the overall resistance. The experimental findings verify both the increased damage tolerance of the doped composites and the reliable damage assessment of the composite at all stages of its loading history. Other Non - Destructive Techniques were utilized in order to detect and quantify the accumulating damage. Inverse scattering theory and phase velocity data were used in order to determine the elastic constants of the stifness matrix of the anisotropic material. Fracture toughness and fatigue life behaviour were investigated for both the material systems. Υπέρηχοι Μητρώο δυσκαμψίας 620.192 042 Glass-fiber reinforced polymers Carbon Nanotubes Non destructive testing Ultrasonic Inverse scattering Stiffness matrix
52	Performance evaluation of RC flexural elements strengthened by advanced composites Andreou, Eftychia January 2002 (has links) The flexural performance of composite systems made of reinforced concrete, Fibre Reinforced Polymers (FRPs) and adhesives was studied during the current research. The experimental investigation was principally concentrated on the potential use of Kevlar® 49 (aramid fibre) for RC beam strengthening. The main aims of research have been; (a) to investigate the relative merits of using Aramids in comparison to other FRPs, (b) strength optimisation of systems to prevent excessive losses of ductility, (c) to examine the failure mode and crack patterns, together with salient strength factors at ultimate limit state and (d) to carry out analytical modelling using a commercial FE package. The experimental investigation comprised of testing 55 simply supported RC beams of either 1.5m or 2.6m length. In addition to the parametric studies included in points (a)-(d) above (to assess the section characteristics), further experimentation was conducted to investigate the beam performance by varying the factors of; (e) beam shear span, (f) FRP anchorage length, (g) concrete surface preparation, (h) FRP end-anchoring, (i) beam precracking, (j) introduction of air-voids within the bond line of FRP/concrete, (k) influence of cyclic loading and, (1) exposure to aggressive environment. The results from current tests confirm elements of reports from other researchers (by thorough review of literature) that all FRPs have great potential for flexural strengthening of RC members. This is valid even in cases where additional environmental degradation and/or cracking (due to serviceability loads), had taken place. Aramid fibres were found to result in favourable outcomes concerning both strength and ductility enhancements. It was determined, both from experiments and non-linear modelling, that the amount of FRP fibre content is an important factor in every strengthening application. Experimentation showed that depending on the existing condition of the structure (concrete strength, internal reinforcement ratio, section dimensions, degradation level and load configuration), there seems to be a unique level of optimum fibre content. The FRP levels in excess of the optimum were seen to lead to premature brittle tearing-off failure modes. It was also found that to prevent premature beam failure (due to incompatibility of stress at concrete and FRP interface), a maximum possible anchorage length should be considered in order to deliver an optimum section performance. The results from the analytical modelling indicated a most satisfactory agreement with the experimental data after the initial mechanical properties were calibrated. It was found that actual representation of material properties (e.g. steel constitutive law) are of great significance, for an accurate modelling of RC element loaded behaviour. The bond developed between the FRP and concrete is one of the key parameters for achieving good performance of the systems. It was determined that concrete surface preparation and priming is beneficial, while the introduction of air-voids due to poor workmanship can reduce the section load bearing capabilities. Cyclic loading on FRP strengthened sections was found to curtail the full rotational capacity utilisation of the beam. However, even the above mentioned curtailed behaviour was more advantageous than cyclically loaded beam performance without FRP strengthening. 668.9
53	Estudo de colunas curtas de concreto confinadas / Study of confined concrete short columns Rivetti, Marianna Luna Sousa 27 June 2013 (has links) The confinement of concrete structures has been used for reinforcement and rehabilitation of compressed structural elements, with the objective of increasing their strength capacity and ductility. Various types of reinforcement are used: metal pipes, fiber reinforced polymers, transverse reinforcement, among others. Understanding the stress-strain behavior of confined concrete columns is an important aspect to be considered in the design of these structural elements. This work presents a study of short columns of concrete confined by transverse reinforcement and fiber reinforced polymers subjected to the centered load, employing a nonlinear theoretical model that allows obtaining the stress-strain curves. Concrete columns with various strength levels and different cross-sectional shapes are considered. The employed model is modified according with the type of analyzed problem and a comparative analysis is carried out to verify the performance of the models, considering the experimental results from several examples of short columns confined available in the literature. / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / O confinamento de estruturas de concreto vem sendo utilizado no reforço e reabilitação de peças comprimidas, com o objetivo de aumentar sua capacidade resistente e dutilidade. Vários tipos de reforços são usados: tubos metálicos, polímeros reforçados com fibras, armaduras transversais, entre outros. A compreensão do comportamento tensão-deformação de colunas de concreto confinadas é um aspecto importante a considerar para um projeto confiável desses elementos estruturais. Este trabalho apresenta um estudo de colunas curtas de concreto confinadas por armadura transversal e polímeros reforçados com fibras submetidas à carga centrada, empregando um modelo teórico não linear que permite a obtenção das curvas tensão-deformação. São considerados concretos de variadas resistências e diferentes formas de seção transversal. O modelo empregado é modificado se adequando aos diversos casos analisados, e para verificação do desempenho deste é realizada uma análise comparativa considerando os resultados experimentais provenientes de vários exemplos de colunas curtas confinadas disponíveis na literatura. Estruturas de concreto – Confinamento Colunas de concreto – Resistência Concreto – Armadura transversal Polímeros reforçados com fibras Modelagem estrutural Concrete Structures – Confinement Concrete Columns – Resistance Concrete – Transverse reinforcement Fiber reinforced polymers Structural Modeling CNPQ::ENGENHARIAS::ENGENHARIA CIVIL
54	Aerodynamic Load Characteristics Evaluation and Tri-Axial Performance Testing on Fiber Reinforced Polymer Connections and Metal Fasteners to Promote Hurricane Damage Mitigation Canino-Vazquez, Iván R. 13 November 2009 (has links) Damages during extreme wind events highlight the weaknesses of mechanical fasteners at the roof-to-wall connections in residential timber frame buildings. The allowable capacity of the metal fasteners is based on results of unidirectional component testing that do not simulate realistic tri-axial aerodynamic loading effects. The first objective of this research was to simulate hurricane effects and study hurricane-structure interaction at full-scale, facilitating better understanding of the combined impacts of wind, rain, and debris on inter-component connections at spatial and temporal scales. The second objective was to evaluate the performance of a non-intrusive roof-to-wall connection system using fiber reinforced polymer (FRP) materials and compare its load capacity to the capacity of an existing metal fastener under simulated aerodynamic loads. The Wall of Wind (WoW) testing performed using FRP connections on a one-story gable-roof timber structure instrumented with a variety of sensors, was used to create a database on aerodynamic and aero-hydrodynamic loading on roof-to-wall connections tested under several parameters: angles of attack, wind-turbulence content, internal pressure conditions, with and without effects of rain. Based on the aerodynamic loading results obtained from WoW tests, sets of three force components (tri-axial mean loads) were combined into a series of resultant mean forces, which were used to test the FRP and metal connections in the structures laboratory up to failure. A new component testing system and test protocol were developed for testing fasteners under simulated tri-axial loading as opposed to uni-axial loading. The tri-axial and uni-axial test results were compared for hurricane clips. Also, comparison was made between tri-axial load capacity of FRP and metal connections. The research findings demonstrate that the FRP connection is a viable option for use in timber roof-to-wall connection system. Findings also confirm that current testing methods of mechanical fasteners tend to overestimate the actual load capacities of a connector. Additionally, the research also contributes to the development a new testing protocol for fasteners using tri-axial simultaneous loads based on the aerodynamic database obtained from the WoW testing. Roof-to-Wall Connections Timber Connections Fiber Reinforced Polymers Tri-Axial Performance Testing Hurricane Simulation Hurricane Clips Hurricane Damage Mitigation Tropical Cyclone Simulation Continuous Load Path
55	Modellierung des schädigungsbehafteten inelastischen Materialverhaltens von Faser-Kunststoff-Verbunden Müller, Sebastian 23 January 2015 (has links) Die Arbeit beschreibt eine Modellierung des Materialverhaltens von Faser-Kunststoff-Verbunden unter Berücksichtigung der lokalen Materialstruktur, den konstitutiven Eigenschaften der Verbundbestandteile sowie charakteristischer Schädigungsphönomene. Die Diskretisierung eines repräsentativen Ausschnitts der Materialstruktur erfolgt unter Verwendung der erweiterten Finiten-Elemente-Methode (XFEM). Sie ermöglicht die effiziente Modellierung des Steifigkeitssprunges an den inneren Materialgrenzen und deren Versagen. Der Verlauf der Elementgrenzen muss dabei nicht an die Materialstruktur angepasst werden. Für die Beschreibung der Dehnratenabhängigkeit der polymeren Matrix wird ein Modell der nichtlinearen fraktionalen Viskoelastizität angewendet. Die Kombination mit einem nichtlokalen Kontinuumsschädigungsmodell ermöglicht weiterhin die Modellierung einer verzerrungsgesteuerten Schädigung des Matrixwerkstoffs. Die Parametrisierung, Validierung des Gesamtmodells erfolgt anhand ausgewählter experimenteller Untersuchungen an einem unidirektional verstärkten Glasfaser-Polypropylen-Verbund. / The thesis addresses the modelling of the material behavior of fibre reinforced polymers. It systematically includes the influence of the local material structure, the mechanical behaviour of the consituents and characteristic damage phenomena. The diskretisation of a representative volume element of the material structure is based on the extended finite element method (XFEM). It allows for an efficient modelling of the stiffness jump at internal material boundaries as well as their damage. With the XFEM, the element boundaries are no longer required to coincide with the material structure. The approximation of the strain rate dependence of the polymeric matrix is based on a nonlinear, fractional viscoelasticity approach. Its combination with a nonlocal strain driven continuum damage modell allows for the modelling of damage effects. The parametrisation and validation of the overall approach is based on a comparison with experimental results for a unidirectional reinforced glass-fibre-polypropylene composite. info:eu-repo/classification/ddc/620 ddc:620
56	An Alternative Strengthening Technique using a Combination of FRP Sheets and Rods to Improve Flexural Performance of Continuous RC Slabs Syed Shah, Taqiuddin Q. January 2016 (has links) No description available. Engineering Polymers Civil Engineering
57	Navrhování konstrukcí s FRP výztuží / Design of structures with FRP reinforcement Matušíková, Anna January 2012 (has links) This diploma thesis presents available FRP software for calculating load bearing capacity of the structures reinforced with FRP and compares them between each other. Furthermore theory and algorithm of my own software is presented here. Load bearing capacity of structures which are reinforced with non-metallic reinforcement and loaded by combination of normal force and bending moment can be solved by my programme. Effects of high temperatures on the concrete structures can be included in the calculation. In the second part of the thesis is calculated load-bearing capacity and deflection of the real beam reinforced with FRP reinforcement and load-bearing capacity of member with FRP reinforcement with effect of elevated temperature. This has been done using my software. Comparison of results from hand calculation and laboratory load-bearing testing is done at the end. This laboratory testing was accomplished by Institute of Concrete and Mansory Structures at our faculty.
58	Projeto de estruturas de concreto armado reforçadas com compósitos FRP: dimensionamento à flexão e à força cortante. / Reforced concrete structures strengthened with FRP: bending and shear design criteria. Orlando, Igor Del Gaudio 04 April 2019 (has links) Esta dissertação contempla o estudo sobre os principais aspectos que norteiam as propostas normativas com critérios de dimensionamento de estruturas de concreto armado reforçadas com Polímeros Reforçados com Fibras (FRP). Este trabalho procura avaliar e discutir as metodologias de cálculo sugeridas pelas publicações American Concrete Institute (ACI) \"Committee 440\" e Fédération Internationale du béton (FIB) e propor um procedimento para a análise e dimensionamento do reforço aos esforços de flexão e discutir a importância do esforço cortante com relação à flexão. Primeiramente, efetuou-se uma revisão bibliográfica sobre o estado da arte no que concerne ao dimensionamento de reforços com materiais compósitos de FRP. Em seguida, apresentou-se a análise da verificação de segurança de elementos reforçados à flexão segundo a perspectiva das publicações acima mencionadas: ACI440.2R (2017) e FIB Model Code (2010). Posteriormente, estabeleceu-se um estudo de análise comparativa entre os resultados experimentais encontrados na bibliografia, os previstos pelos referidos manuais para os modelos aqui estudados. Os valores máximos da capacidade resistente dos modelos serão confrontados e a importância do conhecimento das características dos materiais discutidos. Com tais informações sistematizaram-se os procedimentos de cálculo a se adotar em um projeto de reforço estrutural com sistemas compósitos de FRP, respeitando as propostas normativas que mais se adequam ao Brasil. / The present dissertation results from a study concerning the main design criteria for reinforced concrete structures through externally bonding Fibre-Reinforced Polymer (FRP) systems. This paper tries to evaluate and discuss the design methodologies proposed by the guidelines publications American Concrete Institute (ACI) \"Committee 440\" and Fédération Internationale du béton (FIB) and seek to propose a procedure for the analysis and design of FRP strengthened RC elements in bending and discuss the importance of shear stress regarding the bending efforts. Initially, a state-of-art concerning design criterias on the use of FRP composites is presented. Then, the analysis and procedures of the safety concept is exposed from the perspective of the publications: ACI440.2R (2017) and FIB Model Code 2010. After, it established a study of comparative analysis between the experimental results found in the bibliography and the ones predicted by international guidelines for beams and slabs. The maximum ultimate capacity of the strengthened element will be compared and confronted and the importance of the knowledge of the characteristics of the materials discussed. Finally, conclusions are drawn out and recommendations concerning the design and safety concepts are presented, respecting the guidelines proposals that are most appropriate to Brazil. ACI-440.2R (2017) ACI-440.2R (2017) Estrutura de concreto armado FIB Model Code 2010 FIB Model Code 2010 FIB Model Code 2020 FIB Model Code 2020 Fiber-reinforced polymers Flexural reinforcement Polimeros (Materiais) Polímeros reforçados com fibras Reforço à flexão Regulamentação no Brasil Regulation in Brazil
59	Untersuchung zur Schweißbarkeit bei der Herstellung von Hybridbauteilen aus naturfaser-, holzfaser- und polymerfaserverstärkten Kunststoffen in Abhängigkeit von Rezeptur und äußeren Einflussfaktoren / Investigation of weldability in production of hybrid components consisting of natural and synthetic reinforced polymers as a function of formulation and outer influencing factors Nendel, Klaus, Heim, Hans-Peter, Schubert, Christine, Rüppel, Annette, Clauß, Brit 18 September 2014 (has links) (PDF) Das Forschungsvorhaben liefert einen Beitrag zum Schweißen von Gleich- und Mischmaterialverbindungen aus Naturfaserverstärkten Kunststoffen (NFK) sowie deren Verarbeitung im Compoundieren und Spritzguss. Es wurde holzfasergefülltes (WPC) und flachsfasergefülltes (FFC) Polypropylen (PP) mit unterschiedlichen Füllgraden verwendet. Der Einsatz synthetisch-organsicher Fasern (PET-Fasern) im Compound zielte darauf ab, besonders die Schlagzähigkeit zu verbessern. Im Bereich des Urformens wurden Aussagen zur Verarbeitbarkeit, zu rezepturabhängigen Kurz- und Langzeiteigenschaften sowie Aussagen zur Dauergebrauchsfähigkeit erarbeitet. Die Anwendbarkeit der Fügeverfahren Heizelement- (HE-Schweißen) und Vibrationsschweißen (VIB-Schweißen) konnte für Gleich- und Mischmaterialverbindungen sowohl ohne als auch mit angepasster Energieeinbringung nachgewiesen werden. In diesem Zusammenhang können Aussagen zur Rezepturabhängigkeit, Verfahrensführung, Parameterauswahl, Prüfkriterien sowie den technischen Grenzen der Schweißverbindung unter kurzzeitmechanischer Beanspruchung getroffen werden. Weiterhin wird ein Beitrag zur Dauergebrauchsfähigkeit unter UV-Globalbewitterung und thermischer Alterung sowie zu langzeitmechanischen Eigenschaften von NFK-Schweißverbindungen geliefert. Compoundieren Hybridwerkstoff Holz-Kunststoff-Verbund (WPC) Flachsfasergefüllter Kunststoff (FFC) naturfaserverstärkte Kunststoffe (NFK) Gleichmaterialverbindung Mischmaterialverbindung Alterung Heizelementschweißen Vibrationsschweißen Compound hybrid components Wood Plastic Composite (WPC) Flax Fiber Composite (FFC) natural reinforces polymers mixed material joints same material joints aging hot plate welding vibration welding ddc:620 Schweißbarkeit Alterung
60	Zesílení ŽB oblouku pomocí kompozitní výztuže / Reinforced concrete load-bearing construction Tmej, Patrik January 2016 (has links) The aim of the thesis is the strengthening and resistance of concrete construction. At the beginning is described composite reinforcement and their specific properties. The thesis specifically follows behavior concrete vault and the effects of load. Resistance vault is calculated by S&T model – strut and tie. Finally, the thesis contain strengthening construction by composite reinforcement. Strengthening is considered by two ways - strengthening by cohesive reinforcement and strengthening by incoherent reinforcement (wrapping).

Search results