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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Quasi-Static and Fatigue Evaluation of Pultruded Vinyl Ester/E-Glass Composites

Phifer, Stephan Paul 02 February 1999 (has links)
The quasi-static strength, stiffness, and fatigue properties of cross-ply, angle-ply, and quasi-isotropic vinyl ester/E-glass non-woven tricot stitched fabric composite laminates fabricated from the Continuous Resin Transfer Molding (CRTM) pultrusion process were the focus of this research. The tricot stitch and the 6% vinyl ester matrix cure shrinkage were found to play key roles in the quasi-static and fatigue strength and stiffness properties of these laminates. Laminates tested transverse to the pultrusion axis had greater fiber undulation and maximum of 44% quasi-static strength reduction and 8% stiffness reduction compared with axially tested specimens. While the matrix failure strain was 1.9%, failure strain of these laminates range over 1.91 to 2.08% when tested along the pultrusion axis and as low as 1.29% transverse to the pultrusion axis. Fatigue evaluation, in load control mode, evaluated laminate S-N, stiffness reduction, and residual strength. Measured S-N curves and residual strength curves compared with literature were found most like woven fabric laminates, well below aerospace grade laminates. Residual strength and life analysis using Reifsnider's methodology [43], revealed that the choice of quasi-static strength and stiffness, S-N curve, laminate stiffness reduction, and residual strength shape parameter, J, strongly affect predicted life. Predictions at high fatigue stress/low cycle were more exact than at low stress; the S-N curve was steep initially but at low stress/high cycle was nearly horizontal. The best predictions utilized separate off-axis stiffness reductions of E2 obtained from cross-ply and G12 from angle-ply laminates, the quasi-static strength and stiffness of the laminate predicted, and the average S-N and residual strength curves. / Master of Science
2

Effect of reinforcement corrosion on structural concrete ductility

Du, Yingang January 2001 (has links)
This thesis presents the experimental and analytical results to investigate the effect of corrosion on the mechanical properties of reinforcing bars and concrete beams, with particular reference to their ductility. In the experimental works, specimens were electrochemically corroded, before they were loaded to failure. In the finite element analysis, the corrosion of reinforcement was modelled as either internal pressure or radial expansion around corroded bars. The study indicates that the amount of corrosion to cause cracking at the bar and concrete surfaces almost linearly increased with the bar diameter and ratio of cover to diameter, respectively. No matter whether concrete cover c increased or bar distance S decreased, once the ratio of S / c became less than 2.5, corrosion cracks first propagated internally between the bars and caused delamination. Although corrosion did not alter the shape of force-extension curves substantially, it decreased bar strength and, especially, ductility greatly. Furthermore, although the reductions of strengths were identical, the ductility of bars corroded in concrete decreased more rapidly than that of bare corroded bars. Corrosion decreased beam strength and altered its ductility and failure mode. When the cracking of compressive concrete or the reduction of tensile bar area dominated beam response, corrosion increased beam ductility and caused a beam to fail in a less brittle and even ductile manner. When the deterioration of bond strength or the reduction of steel ductility controlled beam behaviour, however, corrosion decreased beam ductility and led the beam to fail in a less ductile and even brittle manner. There is a concern regarding the ductility of reinforcing bars and under-reinforced beams if the amount of corrosion exceeds 100/0, since bar ultimate strain decreased below the minimum requirements prescribed in the Model Code 90 for situations requiring high ductility.
3

Numerical Analysis of Residual Strength in AS-4/PEEK Composite Laminates

Lee, Chin-Fa 24 June 2001 (has links)
The purpose of thesis is aimed to predict the residual stiffness and residual strength of a composite laminate by adopting the method of cumulative damage theories numerically. In association with the experimental work the numerical result can be verified in comparison. The fatigue data in composites are well known more scattered than those in conventional metals, because the material properties are complicated due to nonhomogeneity and anisotropy. Until now there exists very few unified theories to model composite fatigue properties. Most of them are semi-empirical expressions fitted by selecting material characteristic values. This work tries to make a precise prediction with hopefully saving time, money and manpower in future experiments. On the aspect of numerical analysis, we employ finite element method incorporated with the software of ANSYS to generate 3-D finite element model and obtain the ultimate stress of cross-ply [0/90]4s and quasi-isotropic [0/+45/90/-45] laminates by Tsai-Wu failure criterion. It is assumed that the damage due to fatigue cycles is equal to the damage of stiffness and strength, in association with Miner¡¦s Rule and cumulative damage theories we obtain the residual stiffness and strength. The numerical result in comparison with the available empirical data is found acceptably well. Finally, this study can be concluded as follows. The error of ultimate stress is 3.84 % in cross-ply[0/90]4s , and 8.38 % in quasi-isotropic[0/45/90/-45]2s laminates. The error of ultimate stress in centrally notched cross-ply[0/90]4s is 0.4 %, and 22.4 % in centrally notched quasi-isotropic laminates. As the fatigue cycles increasing, the residual stiffness and residual strength of the laminates are all decreasing. The decreasing rate is very slight at first and intermediate stages, whilst it is much faster near the last stage. It is found that the prediction of residual strength is more accurate in the case of maximum stress of 60% ultimate stress than that of 80% ultimate stress.
4

Fire performance of unprotected and protected concrete filled steel hollow structural sections

Rush, David Ian January 2013 (has links)
Concrete filled steel hollow structural (CFS) sections are increasingly used to support large compressive loads in buildings, with the concrete infill and the steel tube working together to yield several benefits both at ambient temperature and during a fire. These members are now widely applied in the design of highly optimized multi-storey and high rise buildings where fire resistance ratings of two or more hours may be required. Whilst the response and design of these sections at ambient temperatures is reasonably well understood, their response in fire, and thus their fire resistance design, is less well established. Structural fire resistance design guidance is available but has been developed based on tests of predominantly short, concentrically-loaded, small-diameter columns in braced frames using normal strength concrete. The current prescriptive guidance is limited and the design of CFS columns is thus often based on a detailed performance based approach, which can be time consuming and expensive and which is generally not well supported by a deep understanding of CFS columns’ behaviour in real fires. This thesis aims to understand the fundamental thermal and mechanical factors at play within these sections so as to provide guidance on how to improve their design for fire resistance when applied either as unprotected or protected sections. A meta-analysis of available furnace test data is used to demonstrate that current guidance fails to capture the relevant mechanics and thus poorly predicts fire resistance. It is also demonstrated that the predictive abilities of the available design standards vary with physical characteristics of the CFS section such as shape and size. A factor which has been observed in furnace tests on CFS sections but which is not accounted for in available guidance is the formation of an air gap between the steel tube and the concrete core due to differential expansion; this affects their structural response in fire. The insulating effect of air gap formation has not previously been addressed in literature and an experimental program is presented to systematically assess the effects of a gap on the heat transfer through the section; showing that the presence of even a 1 mm gap is important. To explicitly assess the heat transfer response within both unprotected and fire protected (i.e. insulated) CFS sections, 34 large scale standard furnace tests were performed in partnership with an industry sponsor. Fourteen tests on large scale unloaded unprotected CFS sections are presented to assess current capability to predict the thermal response and to assess the effects of different sectional and material parameters on heating. New best practice thermal modelling guidance is suggested based on comparison between the models and observed temperatures from the tests. Twenty CFS specimens of varying size and shape, protected with different types and thicknesses of intumescent paint fire insulation, were also tested unloaded in a furnace to understand the thermal evolution within protected CFS sections and to develop design guidance to support application of intumescent coatings in performance based fire resistance design of CFS sections. These tests demonstrate that the intumescent coatings were far more effective than expected when applied to CFS sections, and that current methods of designing the coatings’ thickness are overly conservative. The reason for this appears to be that the calculation of effective section factor which is used in the prescription of intumescent coating thicknesses is based on the thermal response of unprotected CFS sections which display fundamentally different heating characteristics from protected sections due to the development of a thermal gradient in the concrete core. It is also demonstrated (by calculation supported by the testing presented herein) that the steel failure temperature (i.e. limiting temperature) of an unprotected CFS column in fire is significantly higher than one which is protected; procedures to determine the limiting temperature of protected sections are suggested. Finally, the residual strength of fire-exposed CFS columns is examined through structural testing of 19 of the 34 fire tested columns along with unheated control specimens. The results provide insights into the residual response of unprotected and protected CFS section exposed to fire, and demonstrate a reasonable ability to calculate their residual structural capacity. The work presented in this thesis has shed light on the ability of available guidance to rationally predict the thermal and structural response to fire of CFS columns, has improved the understanding of the thermal evolution within protected and unprotected CFS sections in fire, has provided best-practice guidance and material input parameters for both thermal and structural modelling of CFS sections, and has improved understanding of the residual capacity of CFS sections after a fire.
5

The Experimental Investingation of Residual Strength and Stiffness in Carbon/PEEK APC-2 Composite Laminates

Wu, Chang-He 27 June 2001 (has links)
ABSTRACT AS-4 carbon fibers reinforced polyetheretherketone (PEEK) composite materials have been widely used in aerospace industry because of longer fatigue life, high specific stiffness and strength. The thesis is aimed to investigate the residual strength, residual stiffness and mechanical properties of thermoplastic AS-4/PEEK composite laminates subjected to tension-tension (T-T) cyclic loading at room temperature. We adopt modified diaphragm forming method by controlling temperature, pressure, vacuum and time conditions according to the obtained beast curing process to form composite laminates of low crystallinity, transcrystallinity and good fiber / matrix interfaces. Two common type of laminates are used, such as cross-ply [0/90]4S and quasi-isotropic [0/+45/90/-45]2S. Static tension test is performed to measure the elastic modulus and ultimate strength. And T-T fatigue test is conducted with maximum stress of 60% and 80% ultimate strength to find the residual strength and stiffness. Then, through the observation of failure surfaces of composite laminates we understand the failure initiation and mechanism by Scanning Electron Microscope (SEM). The results of experiment can be concluded as follows. The ultimate strength, elastic modulus and fatigue strength of cross-ply composite laminates are larger than those of quasi-isotropic. As centrally notched, the net area of the specimen is reduced, the ultimate strength and fatigue strength of composite materials are lower. The residual strength, adopted to describe the damage process, is monotonically decreasing with increasing of applied cycles. It is found that the residual strength of cross-ply laminates is larger than that of quasi-isotropic laminates. However, the residual stiffness has little change with increasing of applied cycles.
6

Εναπομένουσα αντοχή και πρόβλεψη ζωής σε σύνθετα υλικά μετά από κόπωση / Residual strength and life prediction of composites after fatigue

Πασιπουλαρίδης, Ευάγγελος 12 December 2008 (has links)
Θέμα της παρούσας διατριβής είναι η μελέτη του φαινομένου απομείωσης της στατικής αντοχής των συνθέτων υλικών (FRP) λόγω κόπωσης και η εφαρμογή των αποτελεσμάτων σε διαδικασίες δομικού σχεδιασμού. Στο πρώτο μέρος της εργασίας παρουσιάζονται διάφορα δημοσιευμένα φαινομενολογικά πρότυπα εναπομένουσας αντοχής, μερικά των οποίων έχουν τροποποιηθεί για να γενικευθούν οι προβλέψεις τους, καθώς και μια νέα μεθοδολογία για παραγωγή προβλέψεων εναπομένουσας αντοχής συγκεκριμένης αξιοπιστίας. Τα πρότυπα αυτά εφαρμόζονται τόσο σε νέα όσο και σε δημοσιευμένα πειραματικά δεδομένα, που αφορούν ένα μεγάλο εύρος συνθέτων υλικών και διαστρωματώσεων. Οι διαδικασίες για την εφαρμογή κάθε προτύπου επιλέγονται με βάση την απλότητα και την ευκολία στην υλοποίηση, έτσι ώστε να μην απαιτείται μεγάλος αριθμός πειραματικών δεδομένων για την εφαρμογή τους. Οι προβλέψεις των προτύπων, τόσο όσον αφορά τις ντετερμινιστικές καμπύλες απομείωσης της στατικής αντοχής όσο και την πρόβλεψη των στατιστικών χαρακτηριστικών της εναπομένουσας αντοχής, αξιολογούνται με στόχο την επιλογή συγκεκριμένων διαδικασιών, εφαρμόσιμων στον σχεδιασμό κατασκευών από σύνθετα υλικά που υφίστανται κοπωτικά φορτία. Μετά την επιλογή ενός αριθμού αξιόπιστων προτύπων από αυτά που παρουσιάστηκαν στο πρώτο μέρος της διατριβής, η εναπομένουσα αντοχή ενσωματώνεται σε μεθοδολογίες πρόβλεψης κοπωτικής ζωής υπό κυκλικά φορτία μεταβλητού εύρους τάσης, Variable Amplitude (VA). Η επίδραση καθενός από τα αυτόνομα στάδια που συνθέτουν τέτοιες μεθοδολογίες, δηλαδή η μέθοδος μέτρησης κύκλων (Cycle Counting) και το διάγραμμα σταθερής ζωής (Constant Life Diagram, CLD), εξετάζεται λεπτομερώς παράλληλα με το ενδεχόμενο αντικατάστασης του κανόνα Palmgren-Miner, σαν μέτρο συσσώρευσης βλάβης, από μεθόδους που βασίζονται στην εναπομένουσα αντοχή. Οι παραγόμενες προβλέψεις αξιολογούνται μέσω πειραμάτων σε πολύστρωτες διατάξεις [04]T και [±45]S υπό την επίδραση τριών διαφορετικών κοπωτικών φασμάτων που έχουν προκύψει είτε μέσω της επεξεργασίας μετρήσεων φόρτισης πτερυγίων σε λειτουργία (WISPER και NEW WISPER) είτε από αριθμητική αερο-ελαστική προσομοίωση (MWIND). Το τελευταίο βήμα περιλαμβάνει τη συμβολή στην ανάπτυξη και υλοποίηση του αλγόριθμου FADAS (FAtigue DAmage Simulator) σε περιβάλλον MATLAB. Ο αλγόριθμος υπολογίζει την επίπεδη εντατική κατάσταση που αναπτύσσεται σε κάθε στρώση της πλάκας κατά την κόπωση, μέσω θεωρίας πολυστρώτων πλακών (Classical Lamination Theory, CLT), προσομοιώνει την υποβάθμιση της αντοχής και της δυσκαμψίας και εφαρμόζει αρχές προοδευτικής βλάβης (progressive damage), βάσει του κριτηρίου αστοχίας του Puck, για την πρόβλεψη της αστοχίας πολυστρώτων διατάξεων υπό οποιαδήποτε κοπωτική φόρτιση. Προβλέψεις του αλγόριθμου FADAS, μετά την ρύθμιση των παραμέτρων βάσει του υλικού αναφοράς, συγκρίνονται με πειράματα κόπωσης σταθερού εύρους πάνω σε τρεις τύπους δοκιμίων. Ο πρώτος είναι μια πολύστρωτη διάταξη [(±45/0)4/±45]T υπό κόπωση σε λόγο τάσεων R=0.1 και R=-1 και οι άλλοι δύο είναι δοκίμια κομμένα υπό γωνία 10° και 60° από την ίδια πολύστρωτη, που υποβάλλονται σε εναλλασσόμενη κόπωση (R=-1), έτσι ώστε ο αλγόριθμος να αξιολογηθεί για διάφορους συνδυασμούς επιβαλλόμενων φορτίσεων και τύπων βλάβης (damage modes). / Subject of this dissertation is the investigation of the static strength degradation phenomenon caused by fatigue in FRP composite materials and its integration to structural design procedures. In the first part of the study, several phenomenological residual strength models from literature, some of them modified to enhance their performance, along with a newly proposed methodology for reliability based residual strength prediction, are implemented to both the experimental data produced as well as to published data referring to a wider range of materials and lay-ups. The implementation procedures proposed are oriented towards simplicity and minimization of the required experimental effort. Models predictions, regarding both deterministic strength degradation behavior and statistical characteristics of residual strength, are assessed in order to clarify the predictive ability of each method and propose specific engineering solutions for the prediction of residual strength after fatigue. Once concluded on a number of efficient engineering models, in the second part of this work, residual strength is integrated in life and residual strength prediction methodologies. As a first step, fatigue life prediction of macroscopically studied composite laminates under variable amplitude (VA) loading is attempted. The effect of each module of the state-of-the-art life prediction schemes, i.e. the counting method and constant life diagram (CLD) is investigated along with the possible benefits from incorporating residual strength as damage accumulation metric instead of the commonly used Palmgren-Miner rule. Predictions are evaluated through tests performed on [04]T and [±45]S laminates of the reference material, under three different loading spectra extracted either from processing strain measurements on operating Wind Turbine Rotor Blades (WISPER and NEW WISPER) or from aero-elastic simulations (MWIND). As a subsequent step, the FADAS (FAtigue DAmage Simulator) life prediction methodology is developed and implemented in computer code. The algorithm, takes into account the plane stress conditions developing into each ply during fatigue by means of classical lamination theory, models the ply-by-ply degradation of strength and stiffness and implements progressive damage principles, based on Puck failure criterion, to predict failure of a laminate after arbitrary cyclic loading. Predictions of the FADAS algorithm, once its parameters are tuned accordingly for the reference UD material, are compared with constant amplitude (CA) fatigue tests performed on three types of specimens: The first consist of a multidirectional (MD) laminate of [(±45/0)4,±45]T lay-up under R=0.1 and R=-1 cyclic loads and the other two are 10° and 60° off-axis coupons cut from the same laminate under R=-1, in an effort to validate the algorithm under various combinations of imposed stresses and induced damage modes.
7

腐食鋼板の圧縮強度の簡易評価法に関する検討

NAGATA, Kazutoshi, NOGAMI, Kuniei, FUJII, Katashi, ITOH, Yoshito, WATANABE, Eiichi, TAMURA, Isao, SUGIURA, Kunitomo, 永田, 和寿, 野上, 邦栄, 藤井, 堅, 伊藤, 義人, 渡邊, 英一, 田村, 功, 杉浦, 邦征 19 January 2007 (has links)
No description available.
8

An Experimental Study of the Dynamic Behavior of Slickensided Surfaces

Meehan, Christopher Lee 08 February 2006 (has links)
When a clay soil is sheared, clay particles along the shear plane become aligned in the direction of shear, forming "slickensided" surfaces. Slickensided surfaces are often observed along the sliding plane in field landslides. Because the clay particles along a slickensided surface are already aligned in the direction of shear, the available shear resistance is significantly less than that of the surrounding soil. During an earthquake, ground shaking often causes landslide movement. For existing landslides or repaired landslides that contain slickensided rupture surfaces, it is reasonable to expect that the movement will occur along the existing slickensided surfaces, because they are weaker than the surrounding soil. The amount of movement that occurs is controlled by the dynamic resistance that can be mobilized along the slickensided surfaces. The objective of this study was to investigate, through laboratory strength tests and centrifuge model tests, the shearing resistance that can be mobilized on slickensided rupture surfaces in clay slopes during earthquakes. A method was developed for preparing slickensided rupture surfaces in the laboratory, and a series of ring shear tests, direct shear tests, and triaxial tests was conducted to study the static and cyclic shear resistance of slickensided surfaces. Two dynamic centrifuge tests were also performed to study the dynamic shear behavior of slickensided clay slopes. Newmark's method was used to back-calculate cyclic strengths from the centrifuge data. Test results show that the cyclic shear resistance that can be mobilized along slickensided surfaces is higher than the drained shear resistance that is applicable for static loading conditions. These results, coupled with a review of existing literature, provide justification for using cyclic strengths that are at least 20% larger than the drained residual shear strength for analyses of seismic stability of slickensided clay slopes. This represents a departure from the current state of practice, which is to use the drained residual shear strength as a "first-order approximation of the residual strength friction angle under undrained and rapid loading conditions" (Blake et al., 2002). / Ph. D.
9

Residual strength of a high-strength concrete subjected to triaxial pre-stress

Vankirk, George Harlan 25 November 2020 (has links)
Simplified mechanical loading paths, which represent more complex loading paths observed during penetration, were investigated using a triaxial chamber and a high-strength concrete. Objectives were to determine the effects that stress/strain (load) paths had on the material’s unconfined (UC) residual strength. The loading paths included hydrostatic compression (HC), uniaxial strain in compression (UX), and uniaxial strain load biaxial strain unload (UXBX). The experiments indicate that load paths associated with non-visible microstructural damage were HC and UX, which produced minimal impact on the residual UC strength (<30%), while the load paths associated with visible macro-structural damage were UXBX, which significantly reduced the UC strength (>90%). The simplified loading paths were also investigated using a material model driver code that was fit to a widely used Department of Defense material model. Virtual experiment data revealed that the material model investigated overestimated material damage and produced poor results when compared to experimental data.
10

RESIDUAL STRENGTH OF STEEL COUPONS AND PLATES SUBJECTED TO CORROSION DAMAGE

Pawar, Umang 06 June 2018 (has links)
No description available.

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