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Impact of AASHTO LRFD specifications on the design of precast, pretensioned u-beam bridgesAdnan, Mohsin 12 April 2006 (has links)
Texas Department of Transportation (TxDOT) is currently designing its highway
bridge structures using the AASHTO Standard Specifications for Highway Bridges, and
it is expected that TxDOT will make transition to the use of the AASHTO LRFD Bridge
Design Specifications before 2007. The objectives of this portion of the study are to
evaluate the current LRFD Specifications to assess the calibration of the code with
respect to typical Texas U54 bridge girders, to perform a critical review of the major
changes when transitioning to LRFD design, and to recommend guidelines to assist
TxDOT in implementing the LRFD Specifications. This study focused only on the
service and ultimate limit states and additional limit states were not evaluated.
The available literature was reviewed to document the background research
relevant to the development of the LRFD Specifications, such that it can aid in meeting
the research objectives. Two detailed design examples, for Texas U54 beams using the
LRFD and Standard Specifications, were developed as a reference for TxDOT bridge
design engineers. A parametric study was conducted for Texas U54 beams to perform an
in-depth analysis of the differences between designs using both specifications. Major
parameters considered in the parametric study included span length, girder spacing,
strand diameter and skew angle. Based on the parametric study supplemented by the
literature review, several conclusions were drawn and recommendations were made. The
most crucial design issues were significantly restrictive debonding percentages and the
limitations of approximate method of load distribution.The current LRFD provisions of debonding percentage of 25 percent per section
and 40 percent per row will pose serious restrictions on the design of Texas U54 bridges.
This will limit the span capability for the designs incorporating normal strength
concretes. Based on previous research and successful past practice by TxDOT, it was
recommended that up to 75% of the strands may be debonded, if certain conditions are
met.
The provisions given in the LRFD Specifications for the approximate load
distribution are subject to certain limitations of span length, edge distance parameter (de)
and number of beams. If these limitations are violated, the actual load distribution should
be determined by refined analysis methods. During the parametric study, several of these
limitations were found to be restrictive for typical Texas U54 beam bridges. Two cases
with span lengths of 140 ft. and 150 ft., and a 60 degree skew were investigated by
grillage analysis method.
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Using finite element analysis of retroreflective raised pavement markers to recommend testing procedures for simulating their field performanceAgrawal, Ravi Prakash 16 August 2006 (has links)
Retroreflective Raised Pavement Markers (RRPMs) supplement other pavement
markings to provide guidance to road users. Previous research concerning durability of
the RRPMs suggests that their performance has been degrading over the years. One of
the main causes for underperformance of the RRPMs is the lack of appropriate
laboratory testing standards that can test the adequacy of the RRPMs to perform in field
conditions. There is a need to modify the existing standards or develop new testing
procedures that can better simulate field conditions. This requires identifying critical
locations and magnitudes of stresses inside the markers during the tire-marker impacts
that happen on roads.
The goal of this research was to identify critical magnitudes and locations of the
stresses in RRPMs during the tire-marker impacts by doing the finite element modeling
and simulation of the impacts, and use the information to recommend laboratory testing
procedures that could simulate real-world conditions. The researcher modeled and
simulated the tire-marker impacts using the finite element tools Hypermesh and LS DYNA. He calibrated the material properties of the marker models to improve the tiremarker
model.
Based on the tire-marker impact simulations, the researcher concluded that the
critical compressive stresses during impacts are located at the edge contacts of
retroreflective sides with the top surface. The critical stresses may also occur at lower
and upper corners of the marker. The other areas, especially the lower half of the marker,
had tensile stresses. Angle of impact was found to be a critical external variable that
affected the stresses inside the markers and the marker-pavement interface forces.
The researcher then modeled and simulated a few laboratory-testing procedures
that could simulate the field performance of the RRPMs. Based on these simulations, the
researcher recommended that the ASTM compression test for evaluation of RRPMs be
continued or a similar test be developed. He suggested development of one new test
(named as offset compression test) that could better replicate the field conditions. He
also recommended having a review of the ASTM flexural test.
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Modeling of crack tip high inertia zone in dynamic brittle fractureKaredla-Ravi, Shankar 17 September 2007 (has links)
A phenomenological cohesive term is proposed and added to an existing
cohesive constitutive law (by Roy and Dodds) to model the crack tip high inertia region
proposed by Gao. The new term is attributed to fracture mechanisms that result in high
energy dissipation around the crack tip and is assumed to be a function of external
energy per volume input into the system. Finite element analysis is performed on
PMMA with constant velocity boundary conditions and mesh discretization based on the
work of Xu and Needleman. The cohesive model with the proposed dissipative term is
only applied in the high inertia zone i.e., to cohesive elements very close to the crack tip
and the traditional Roy and Dodds model is applied on cohesive elements in the rest of
the domain. It was observed that crack propagated in three phases with a speed of 0.35cR
before branching, which are in good agreement with experimental observations. Thus,
modeling of high inertia zone is one of the key aspects to understanding brittle fracture.
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Modeling and Control of Non-contacting Steel Plate Conveyance SystemLin, Sheng-Yang 25 August 2009 (has links)
A non-contacting steel plate conveyance system based on the linear induction motor scheme, which can provide lift and propulsive forces simultaneously, is proposed. It has the features of high power density, direct drive, simple mechanical structure, and being able to reduce the operation noise. A magnetic equivalent circuit method and electromagnetic theory incorporating with 3-D finite element analysis are involved to investigate the static and quasi-dynamic properties and confirm the electrical and mechanical designs. To realize the dynamic behavior and develop the closed-loop control, a proper stationary reference frame transformation of the system voltage equations is also introduced. By considering the practical operational environment, a fuzzy-based control structure integrated with remote optical measurement system has been established and implemented by a DSP-based controller combined with required peripheral circuits. The experimental results show the applicability of such control strategies. With the systematic procedures for design, analysis, and control provided in this dissertation, implementation feasibility of the proposed system can be conveniently demonstrated.
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Finite element simulation of crack depth measurements in concrete using diffuse ultrasoundSeher, Matthias Eugen 24 August 2011 (has links)
Surface-breaking cracks pose a serious threat to the service life of concrete structures and health monitoring is presently conducted by a visual inspection method, yielding a potential risk to safety. Diffuse ultrasonic techniques have shown their potential as an ultrasonic technique for measuring crack depth in concrete and are currently under development. In this research, the finite element method (FEM) is employed to model the ultrasound diffusion in a concrete specimen. The objectives are to use the commercial finite element (FE) tool Ansys to develop the finite element model of a concrete specimen and verify the applicability of the model by comparing with an analytic solution and experiment data. Further, various crack types are analyzed with the FE model in order to gain physical insight into the interpretation of experimental measurements.
The results of this research suggest that a preliminary knowledge of the cracking process is required to correctly interpret the measured impulse responses for an unknown crack geometry, as the impulse response expresses the response of the shortest path through a system of cracks between source and receiver. Moreover, the impulse response can carry some ambiguity, as certain crack types are not uniquely determined.
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Designing Microfluidic Control ComponentsWijngaart, Wouter van der January 2002 (has links)
No description available.
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Acoustic Emission in Composite Laminates - Numerical Simulations and Experimental CharacterizationJohnson, Mikael January 2002 (has links)
No description available.
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Joining of Carbon Fibre Reinforced Plastics for Automotive ApplicationsKelly, Gordon January 2004 (has links)
<p>The introduction of carbon-fibre reinforced plastics in loadbearing automotive structures provides a great potential toreduce vehicle weight and fuel consumption. To enable themanufacture and assembly of composite structural parts,reliable and cost-effective joining technologies must bedeveloped. This thesis addresses several aspects of joining andload introduction in carbon-fibre reinforced plastics based onnon-crimp fabric reinforcement.</p><p>The bearing strength of carbon fibre/epoxy laminates wasinvestigated considering the effects of bolt-hole clearance.The laminate failure modes and ultimate bearing strength werefound to be significantly dependent upon the laminate stackingsequence, geometry and lateral clamping load. Significantreduction in bearing strength at 4% hole deformation was foundfor both pin-loaded and clamped laminates. The ultimatestrength of the joints was found to be independent of theinitial bolt-hole clearance.</p><p>The behaviour of hybrid (bolted/bonded) joints wasinvestigated both numerically and experimentally. Athree-dimensional non-linear finite element model was developedto predict the load transfer distribution in the joints. Theeffect of the joint geometry and adhesive material propertieson the load transfer was determined through a parameter study.An experimental investigation was undertaken to determine thestrength, failure mechanisms and fatigue life of hybrid joints.The joints were shown to have greater strength, stiffness andfatigue life in comparison to adhesive bonded joints. However,the benefits were only observed in joint designs which allowedfor load sharing between the adhesive and the bolt.</p><p>The effect of the environment on the durability of bondedand hybrid joints was investigated. The strength and fatiguelife of the joints was found to decrease significantly withincreased ageing time. Hybrid joints demonstrated increasedfatigue life in comparison to adhesive bonded joints afterageing in a cyclic freeze/thaw environment.</p><p>The strength and failure mechanisms of composite laminatessubject to localised transverse loading were investigatedconsidering the effect of the specimen size, stacking sequenceand material system. Damage was found to initiate in thelaminates at low load levels, typically 20-30% of the ultimatefailure load. The dominant initial failure mode wasintralaminar shear failure, which occurred in sub-surfaceplies. Two different macromechanical failure modes wereidentified, fastener pull-through failure and global collapseof the laminate. The damage patterns and ultimate failure modewere found to depend upon the laminate stacking sequence andresin system. Finite element analysis was used to analyse thestress distribution within the laminates and predict first-plyfailure.</p><p><b>Keywords:</b>Composite, laminate, bearing strength,joining, load introduction, hybrid joint, finite elementanalysis, mechanical testing.</p>
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THERMAL, MAGNETIC, AND MECHANICAL STRESSES AND STRAINS IN COPPER/CYANATE ESTER CYLINDRICAL COILS – EFFECTS OF VARIATIONS IN FIBER VOLUME FRACTIONDonahue, Chance Thomas 01 August 2010 (has links)
Several problems must be solved in the construction, design, and operation of a nuclear fusion reactor. One of the chief problems in the manufacture of high-powered copper/polymer composite magnets is the difficulty to precisely control the fiber volume fraction. In this thesis, the effect of variations in fiber volume fraction on thermal stresses in copper/cyanate ester composite cylinders is investigated. The cylinder is a composite that uses copper wires that run longitudinally in a cyanate ester resin specifically developed by Composite Technology Development, Inc. This composite cylinder design is commonly used in magnets for nuclear fusion reactors. The application of this research is for magnets that use cylindrical coil geometry such as the Mega Amp Spherical Tokamak (MAST) in the UK. However, most stellarator magnet designs use complex geometries including the National Compact Stellarator Experiment (NCSX), and the Quasi-Poloidal Stellarator (QPS). Even though the actual stresses calculated for the cylindrical geometry may not be directly applicable to these projects, the relationship between fiber volume fraction and stresses will be useful for any geometry. The effect of fiber volume fraction on stresses produced by mechanical, thermal and magnetic loads on cylindrical magnet coils is studied using micromechanics with laminate plate theory (LPT) and finite element analysis (FEA).Based on the findings of this research, variations in volume fraction do significantly affect the stress experienced by the composite cylinder. Over a range of volume fractions from 0.3 to 0.5, the LPT results demonstrate that thermally induced stresses vary approximately 30% while stresses due to pressure vary negligibly. The FEA shows that magnetic stresses vary much less at around only 5%. FEA results seem to confirm the LPT model. It was also concluded that the stress in the insulation layers due to all types of loadings is significant and must be considered when using this system in fusion applications.
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Handy wheelchair helping people with disability get into car : None / Handy rullstol hjälpa människor med funktionshinder hamnar i bil : NoneZhang, Tianqi, Xu, Weilong January 2015 (has links)
Nowadays, almost all existing wheelchairs have the problem that they only satisfy the disabled people to use for normal moving and transportation. A new wheelchair with a gear system guide rail which installed in the car is presented in this paper. The gear guide rail system will transport the whole wheelchair and person on it into the car. This wheelchair system will help people with disability whatever passengers or drivers to get into cars automatically. In this paper, the operation and the strength will be analysed through 3D model and theoretical calculations. Surveying to Swedish market, Volvo XC60 and V60 is chosen to design the size of the wheelchair. Besides, this new wheelchair system also can be suitable for the cars which are larger than those two car models.
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