Finite Element Analysis of a Shaft-Rotor System

Phillips, Donald Andrew

14 March 2001

The United States Air Force is in the process of developing a more electric aircraft. The development of an aircraft Integrated Power Unit and an Internal Starter/Generator will be instrumental in producing sufficient electrical power to run all non propulsive systems. Iron-cobalt alloys, such as Hiperco alloy 50HS, are high temperature, high strength magnetic materials ideal for these power applications. Design requirements and previous studies indicate that these materials need to survive in temperatures up to 1000F (810K), rotation speeds of about 55,000 rpm, and have strengths in excess of 80 ksi. Research conducted by Fingers provided the material and creep properties used in the analysis presented in this report. The finite element method was used to analyze a spinning rotor mounted to a circular shaft via an interference fit subjected to various operating environments. The power law creep model defined by Fingers was used to analyze three distinct rotor configurations. The first configuration was a constant temperature single lamina, mounted to a shaft of equal thickness, subject to temperatures between 727K and 780K, rotation speeds between 35,000 rpm and 60,000 rpm, and two different interference fits: 0.0015 inches and 0.003 inches. The results yield conservative predictions that indicate that these models could not survive the required operating conditions. The second configuration was a linear radial variation in temperature single lamina, mounted to a shaft of equal thickness, subjected to three temperature ranges, rotation speeds between 30,000 rpm and 55,000 rpm, and two different interference fits; 0.0015 inches and 0.003 inches. These results represent a more realistic model, which indicate that the "cooler" inner portions of the rotor restrict the creep deformations of the "hotter" outer portions resulting in higher possible operating temperatures and rotation speeds very near the required operating conditions. The third configuration was a lamina stack comprised of two rotor lamina, with a Coulomb friction surface interaction, and held together by a compressive axial force. These models represent a first step towards understanding the behavior of the entire rotor stack. / Master of Science

Finite element method

Rotor

High Temperature

More Electric Aircraft

High Stress

Steady State Creep

Prediction of surge in centrifugal compressors using steady-state CFD

Malmsten, Jakob

January 2024

The centrifugal compressor is a central part of the turbocharger on a truck. It compresses the air which allows for a larger intake of gas into the cylinders. This raises the amount of oxygen available for combustion which increases the efficiency of the engine. However, the operating range of a compressor is limited. If the mass flow through the compressor gets too low, it can start to surge. The surging phenomenon for centrifugal compressors is characterized by axial oscillations in the mass flow which can cause a backflow of air through the compressor. This can result in structural damage on the compressor. It is therefore important to understand under which conditions surge occurs. When it comes to the development and design of compressors, Computational Fluid Dynamics (CFD) is a valuable tool. It enables us to simulate the performance of compressors without the costly process of building a prototype and testing it. Even simpler steady-state simulations can give valuable insight on the performance. However, since surge is a dynamic phenomenon, it is not readily accessible through one of these steady-state simulations, where the sought solution is a flow field constant in time. The aim of this thesis is to capture the surge phenomenon in a steady-state simulation and develop a method for predicting when the compressor surges. This is done by looking at oscillations in the solver for the total pressure at a cross-sectional plane upstream of the compressor wheel. We find that the amplitude of these oscillations increases when the compressor is approaching surge. From this we define a surge criterion and fit the model parameters to an experimentally determined surge line. We then predict the location of the surge line for the same compressor, now equipped with a ported shroud (a geometry feature with the intention of mitigating surge). With this ported shroud, we expect the compressor’s operating range to be widened, which is also what the model predicts. However, this prediction needs to be compared with real data in order to see if the method accurately captures the location of the surge line.

CFD

surge

centrifugal compressor

turbocharger

steady-state

Fluid Mechanics and Acoustics

Strömningsmekanik och akustik

Investigation of Acceleration Dependent Nonlinear Lubricated Friction in Hydraulic Actuation Systems

2016 January 1900

Lubricated friction issues are central to all hydraulic actuation systems undergoing motion and any in-depth understanding of the nature of lubricated friction will advance future component design. The classic friction models of hydraulic actuation systems under steady state conditions and their dependency on velocity and temperature have been studied extensively over the past years. A model which is commonly employed to represent the characteristics of friction is that of Stribeck in which the dependency of the friction force is based on velocity alone. However, experimentally, it has been found that lubricated friction is dependent on acceleration. Thus, the Stribeck model can be considered as a subset of a dynamic friction model in which acceleration is zero. Thus, it can be concluded that the Stribeck model is best applied to cases when the change rate of the velocities is very small. This thesis considers the dependency of lubricated friction on acceleration when pressure and temperature changes are relatively constant. As such, the basic hypothesis for this study was proposed as follows: “Lubricated friction in hydraulic actuation systems is not only a function of velocity, but is also a function of both velocity and acceleration”. In this thesis several terms are defined which facilitate the description under which friction models are developed. For example, the term non-steady state friction is used to account for the effect of acceleration on lubricated friction force while in motion. Further, the lubricated friction models are divided into two groups: steady state friction models and non-steady state friction models. Nonlinear friction modeling and measuring methods are reviewed in this dissertation. This review also includes nonlinear lubricated friction modeling in hydraulic actuation systems. A conclusion from this review was that limited research has been done in documenting and explicitly demonstrating the role of acceleration on lubricated friction. The research first introduced a methodology to experimentally measure friction as a function of acceleration and to demonstrate this dependency in the form of a three dimensional graph. A novel technique to experimentally obtain data for the lubricated friction model was introduced. This allowed the lubricated friction forces to be measured as a function of velocity in a continuous manner, but with acceleration being held constant as a family parameter. Two different valve controlled hydraulic actuation systems (VCHAS) were studied under a wide variety of accelerations at constant temperature and pressure. To enable repeatable data collection for the different friction conditions and to accommodate for the effect of hysteresis, a periodic parabolic displacement waveform was chosen which enabled the acceleration to be a family parameter. The second phase of the research introduced a method of representing the data (lubricated friction model) in a lookup table form. The relationship of lubricated friction (in this work, pressure differential, ΔP across the actuator) as a function of velocity and acceleration was presented in a unique semi-empirical 2D lookup table (2D LUT). Limitations of this experimental approach were identified, but the dependency on acceleration was clearly established. The last phase of the study implemented this 2D LUT model into a practical software model of an actuator and demonstrated its accuracy when compared to its experimental counterpart. The semi-empirical model (2D LUT) was experimentally verified by implementing the semi-empirical and Stribeck models into a real time simulation of an actuator and by comparing the experimental outputs against simulated outputs for a common sinusoidal input. A sinusoidal actuator displacement input was chosen to test the simulations as it was not used in the collection of the original data. The output of the simulation was compared to the experimental results and it was evident that for the range in which data could be collected in developing the model, the proposed 2D LUT model predicted an output that was superior to a model which used a standard Stribeck model. It was concluded that the semi-empirical model could be integrated into a simulation environment and predict outputs in a superior fashion when compared to the Stribeck friction model. Thus it was concluded that the stated hypothesis is consistent with the experimental evidence shown by all hydraulic actuators considered. Further, it was also observed that the traditional Stribeck form (steady state dynamic friction) does change with increasing acceleration to the point that the standard breakaway friction almost disappears. It is evident that the 2D LUT is a viable tool for modeling the non-steady state friction of hydraulic actuation systems. The semi-empirical 2D LUT model so developed is a more global representation of hydraulic actuator lubricated friction. In this research, only linear hydraulic actuators were considered; however, the novel nonlinear semi-empirical 2D LUT lubricated friction model can be applied to any actuator (linear and rotary) and provides a new way in which the dynamic friction can be viewed and modeled.

Nonlinear Lubricated Friction

Stribeck

Acceleration Dependent

Hydraulic Actuation Systems

EHA

VCHAS

Parabolic

Differential Pressure

Steady State Friction

Non-Steady State Friction

Hysteresis

Modeling and Simulation

Semi-empirical Model

2D LUT

Precessão Livre no Estado Estacionário com alternância de fase para RMN em alta e baixa resolução / Steady state free precession with phase alternation for NMR in high and low resolution.

Moraes, Tiago Bueno de

19 May 2016

A aplicação de uma sequência de pulsos com tempo de repetição muito menor que os tempos de relaxação Tp << T2; T1, faz com que a magnetização atinja um estado estacionário descrito por H.Y. Carr como Estado Estacionário em Precessão Livre, Steady State Free Precession (SSFP). Nessa condição, o sinal é composto pela complexa sobreposição das componentes FID e eco. Sequências tipo SSFP são utilizadas na aquisição rápida de sinais, resultando em uma boa razão sinal ruído (s/r) em curto intervalo de tempo, porém introduzem fortes anomalias de fase e amplitude devido a complexa interação das componentes que formam o estado estacionário. Neste trabalho, desenvolvemos sequências de pulsos tipo SSFP para RMN em alta e baixa resolução com alternância e incremento de fase. Em alta resolução desenvolvemos as sequências SSFPdx e SSFPdxdt com incremento de fase linear e quadrático respectivamente. Os resultados mostram que espectros de núcleos com baixa sensibilidade podem ser obtidos com mesma razão s/r em menor tempo experimental e as sequências desenvolvidas removem as anomalias espectrais. Em baixa resolução, os resultados mostram que a introdução de alternâncias de fase na Continuous Wave Free Precession (CWFP) possibilita a remoção da dependência da sequência com o offset de frequência e com o tempo entre pulsos. Além disso, mostramos que a sequência CP-CWFPx-x com ângulo de refocalização pequeno (5&deg; a 10&deg;) possibilita a estimativa rápida do tempos de relaxação longitudinal. Apresentamos também resultados dos estudos e desenvolvidos no estágio de pesquisa no exterior, onde as sequências de pulsos no estado estacionário &ndash; DECPMG e Split 180&deg; &ndash; foram estudas numericamente e implementadas nos sistemas magnéticos compactos: mini-Halbach e MOUSE-NMR. Por fim, são apresentados resultados com os métodos de processamento de dados Krylov Basis Diagonalization Method (KBDM) e a Transformada Inversa de Laplace aplicados na análise de sinais SSFP. Resultados mostram que KBDM é uma ferramenta útil no processamento de dados em alta e baixa resolução, tanto na obtenção de espectros como na determinação da distribuição dos tempos de relaxação. / The application of a pulse sequence with repetition time much smaller than the relaxation times, Tp << T2; T1, causes the magnetization to reach a steady state, described by H. Y. Carr as a Steady State Free Precession (SSFP). In this condition, the signal is composed of the complex overlapping of the FID and eco components. SSFP type sequences are used in fast acquisition of NMR signals, resulting in a good signal to noise ratio (s/r) in a short time interval, however, they introduce phase and amplitude anomalies due to the complex interaction between the components of the steady state. In this work, we develop SSFP type pulse sequences for NMR in high and low resolution, with alternation and increment of phase. In high resolution, we develop SSFPdx and SSFPdxdt sequences, with linear and quadratic phase increment respectively. Results show that the low sensitivity nuclei spectra can be obtained with the same s/r ratio in smaller experimental time, about an order of magnitude, and the developed sequences can remove the spectral anomalies. In low resolution, the results show that the introduction of a phase alternation in the Continuous Wave Free Precession (CWFP) allows the elimination of the dependence of the sequence with the offset frequency and the time between pulses. Besides, we show that the CP-CWFPx-x sequence with a small refocalization angle (5° to 10°) allows the fast estimative of the longitudinal relaxation time in a single experiment. The results of the studies conducted during an international research internship are also presented. Steady state pulse sequences &ndash; DECPMG and Split 180° &ndash; were studied and implemented in compact magnetic systems: mini-Halbach and MOUSE-NMR. Finally, the results of the application of the Krylov Basis Diagonalization Method (KBDM) and the Inverse Laplace Transform for the analysis of SSFP signals are presented. The results show that KBDM is a useful tool in data processing for low and high resolution, both for obtaining spectra and determining the relaxation times distribution.

Continuous wave free precession

Continuous wave free precession

CWFP

CWFP

Inverse Laplace transform

KBDM

KBDM

Nuclear magnetic resonance

Ressonância magnética nuclear

SSFP

SSFP

Steady state free precession

Steady state free precession

Transformada inversa de Laplace

Fraktionierte Magnetresonanzelastographie am menschlichen Herzen

Rump, Jens

23 September 2008

Zu den wichtigsten Werkzeugen in der medizinischen Diagnostik gehören bildgebende Verfahren, wie die Magnetresonanztomographie. Ein weiteres diagnostisches Hilfsmittel ist die Palpation, die es erlaubt, Veränderungen oberflächennaher Organe qualitativ zu erfassen. Die Magnetresonanzelastographie (MRE) stellt eine Kombination dieser Techniken dar. Das Prinzip der MRE besteht darin Gewebedeformationen aufgrund extern induzierter Scherwellen mittels bewegungssensitiver MR-Bildgebung darzustellen und über die Art der Deformation auf die Elastizität des Gewebes zu schließen. Einen großen Anteil schwerwiegender Erkrankungen bilden Störungen des Herz-Kreislaufsystems. Das Ziel dieser Arbeit war es, eine Methode zu entwickeln, die in-vivo MRE am menschlichen Herzen ermöglicht. Die Weiterentwicklung der mechanischen Anregungseinheit ergab mit Einführung eines Audio-Lautsprechers das nötige Instrument, Vibrationen in innere Organe zu übertragen. Der entscheidende Faktor bei der Herz-MRE war die Geschwindigkeit der Aufnahme, die zur Entwicklung der ''fraktionierten MRE'' führte. Die Basis waren schnelle Herzbildgebungstechniken, wie die balancierte Steady-State- (bSSFP) und Spoiled Steady-State-Technik (SPGRE). Die Einführung eines unbalancierten Phasenpräparationsgradienten in der bSSFP-Aufnahmetechnik lieferte ein verbessertes SNR und zusammen mit der SPGRE-MRE-Aufnahmetechnik ließen sich damit MRE-Studien auch am menschlichen Herzen durchführen. Es gelang erstmals, extern induzierte mechanische Schwingungen in das Herz zu koppeln und mittels fraktionierter MRE mit hoher zeitlicher Auflösung zu detektieren. Die in 6 gesunden Probanden beobachtete Modulation der Scherwellenamplituden innerhalb des Myokards korrelierte sehr gut mit den Kontraktionszuständen des Herzens. Die entwickelten Techniken und Methoden sind ein Schritt hin zur routinemäßigen klinischen Anwendung der MRE am Herzen und deuten auf ein hohes Potential im Bereich der Diagnostik kardialer Erkrankungen hin. / Imaging techniques, including magnetic resonance imaging, belong to the most important tools in modern medical diagnostics. Another diagnostic aid is palpation, which is suitable for the qualitative characterization of pathological changes in organs near the surface. Magnetic resonance elastography (MRE) is a combination of these techniques. In principle, MRE uses motion-sensitive MR-imaging to depict tissue deformation caused by externally induced shear waves. The type of deformation supply useful information about the elasticity of the tissue. Cardiac disorders are among the most common diseases. The goal of this study was to develop a method of applying in-vivo MRE to the human heart. The development of the mechanical stimulus, ultimately resulting in the introduction of an audio speaker as the source of vibration, provided the necessary means to introduce vibrations into inner organs. A crucial factor in applying MRE to the heart is the speed of the recording, which led to the development of "fractional MRE". The currently conventional fast heart imaging techniques were used as a starting point. The use of an unbalanced phase preparation gradient in the balanced steady-state imaging technique resulted in an improved phase-to-noise ratio. Along with the spoiled steady-state MRE imaging technique, initial MRE-studies on the human heart were performed. For the first time, externally induced mechanical vibrations were successfully introduced into the heart and were detected using fractional MRE with a high temporal resolution. The modulation of the shear wave amplitudes observed in the myocard of 6 healthy subjects correlated with the phases of the cardiac cycle. The techniques and methods developed here are a step toward routine clinical application of MRE of the heart and indicate high potential in the area of early diagnosis of cardiac disease.

Herz-MRE

Elastographie

Fraktionierte Kodierung

Steady-State-MRE

Herzbildgebung

Phasenpräparation

MRE

heart-MRE

elastography

fraktional encoding

steady-state MRE

heart-imaging

phasepräparation

MRE

530 Physik

29 Physik, Astronomie

ddc:530

Auditory Steady-State Responses (ASSR) und transiente auditorische Hirnstammpotenziale: Evaluation und Hörschwellenvergleich an Mausmodellen der sensorineuralen Schwerhörigkeit / Auditory Steady-State Responses (ASSR) and transient auditory brainstem responses: evaluation and comparison of hearing thresholds based on mouse models of sensorineural hearing loss

Pauli-Magnus, Dania

01 March 2011

No description available.

610 Medizin, Gesundheit

Medicine

Kochlea

Haarzelle

Synapse

senorineurale Schwerhörigkeit

Hörschwelle

Auditory Steady-State Response (ASSR)

Cochlea

haircell

synpase

senorineural hearing loss

hearing threshold

Auditory Steady-State Response (ASSR)

44.94

Med 510

Sobre a Geometria de Imersões Riemannianas

Santos, Fábio Reis dos Santos

26 May 2015

Submitted by Maike Costa (maiksebas@gmail.com) on 2016-03-23T11:16:42Z No. of bitstreams: 1 arquivototal.pdf: 1343904 bytes, checksum: dfca90c2164204a1513fc4a55eca4527 (MD5) / Made available in DSpace on 2016-03-23T11:16:43Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1343904 bytes, checksum: dfca90c2164204a1513fc4a55eca4527 (MD5) Previous issue date: 2015-05-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Our purpose is to study the geometry of Riemannian immersions in certain semi- Riemannian manifolds. Initially, considering linearWeingarten hypersurfaces immersed in locally symmetric manifolds and, imposing suitable constraints on the scalar curvature, we guarantee that such a hypersurface is either totally umbilical or isometric to a isoparametric hypersurface with two distinct principal curvatures, one of them being simple. In higher codimension, we use a Simons type formula to obtain new characterizations of hyperbolic cylinders through the study of submanifolds having parallel normalized mean curvature vector field in a semi-Riemannian space form. Finally, we investigate the rigidity of complete spacelike hypersurfaces immersed in the steady state space via applications of some maximum principles. / Nos propomos estudar a geometria de imersões Riemannianas em certas variedades semi-Riemannianas. Inicialmente, consideramos hipersuperfícies Weingarten lineares imersas em variedades localmente simétricas e, impondo restrições apropriadas à curvatura escalar, garantimos que uma tal hipersuperfície é totalmente umbílica ou isométrica a uma hipersuperfície isoparamétrica com duas curvaturas principais distintas, sendo uma destas simples. Em codimensão alta, usamos uma fórmula do tipo Simons para obter novas caracterizações de cilindros hiperbólicos a partir do estudo de subvariedades com vetor curvatura média normalizado paralelo em uma forma espacial semi-Riemanniana. Finalmente, investigamos a rigidez de hipersuperfícies tipo-espaço completas imersas no steady state space via aplicações de alguns princípios do máximo.

Variedades localmente simétrica

Subvariedades Weingarten lineares

Hipersuperfícies totalmente umbílicas

Hipersuperfícies isoparamétricas

Subvariedades tipo-espaço

Steady state space

Linear Weingarten submanifold

Totally umbilical hypersurfaces

Isoparametric hypersurfaces

Spacelike submanifolds

Steady state space

Locally symmetric manifolds

CIENCIAS EXATAS E DA TERRA::MATEMATICA

Validade de limiares anaeróbicos derivados do teste incremental de corrida intemitente (TCAR) como preditores do máximo steady-state de lactato em jogadores de futsal / Validity of anaerobic threshold derived from the incremental test of intermittent run (TCAR) as predictors of maximal lactate steady-state in futsal players

Carminatti, Lorival José

15 December 2006

Made available in DSpace on 2016-12-06T17:07:10Z (GMT). No. of bitstreams: 1 DISSERTACAO_CARMINATTI.pdf: 1003035 bytes, checksum: 8564e54c742b47d3e336ac8bdd87e443 (MD5) Previous issue date: 2006-12-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Anaerobic threshold (LAn) obtained during an incremental test with continuous effort, presumably indicate the workload corresponding to maximal lactate steady state (MSSL). Based on this present theoretical model, several non-invasive LAn derived from TCAR have been used as predictors of MSSL. Among them, the HR thresholds identified by visual inspection (PDv) and by the mathematical method (Dmáx), predicted Dmáx (Dmáxpred) and threshold velocity of 4 mmol·l-1 predicted (V4pred). The purpose of the present investigation was to ascertain the validity of these thresholds as predictors of MSSL in Futsal. Eight Futsal players (21.3 ± 3.1 years; 177.4 ± 7.7 cm; 79.4 ± 21.2 kg; 13.2 ± 5,7 % of fat) were submitted to the following field tests: 1) Incremental test of intermittent run (TCAR) performed in the shuttle run system, constituted of repetitions of 12 second runs interpolated by 6 seconds of walk, with initial speed of 9 Km·h-1 and increased of 0.6 Km·h-1 every 90 seconds until voluntary exhaustion. Variables identified in the TCAR: velocity (V) and HR of several predictors LAn; 2) Constant workload test, with duration of 32 minutes divided in 4 series of 8 minutes of intermittent run (same system applied in TCAR), with passive interval of 1 minute to collect 25 &#956;L of blood samples and measure the HR. MSSL was defined as being the highest speed where the lactate steady-state occurred (increase not superior to 1.2 mmol·l-1 between the 8th and 32nd minute). The first constant workload test of 32 minutes was conducted with 100% of the speed of Dmáx (VDmáx) and following constant load tests were performed and speed increased 0.6 km·h-1 after each constant load test until the MSSL was attained. Variables identified in the test: velocity and HR corresponding to MSSL (VMSSL and HRMSSL). The results obtained to velocity and HR of predictor s LAn were: VPDv (13.0 ± 1.5 km·h-1), VDmáx (12.2 ± 1.4 km·h-1), VDmáxpred (12.4 ± 1.2 km·h-1), V4pred (13.3 ± 0.8 km·h-1) and HRPDv (186 ± 11 bpm), HRDmáx (178 ± 10 bpm), HRDmáxpred (183 ± 8 bpm), when compared to VMSSL (12.5 ± 1.6 km·h-1) and HRMSSL (182 ± 4 bpm) respectively, didn t show differences (p>0.05). The correlations found were significant, specially VDmáx (r = 0.98) and HRDmáx (r = 0.88), with exceptions for HRDmáxpred (r = 0.53) and V4pred (r = 0.70), both not significant. The values found in the concentration of lactate in MSSL were 4.2 ± 1.8 mmol·l-1 (1.4 to 6.7). Therefore, the conclusion is that LAn derived from TCAR are valid as predictors of MSSL in Futsal players and that the physiological responses verified in this intermittent running were similar to the present theoretical model, suggesting a generalizable model. / O Limiar anaeróbio (Lan) obtido durante um teste incremental em esforço contínuo, presumivelmente indica a carga de trabalho correspondente ao máximo steady-state de lactato (MSSL). Com base nesse modelo teórico vigente, diversos LAn não-invasivos derivados do TCAR têm sido utilizados como preditores do MSSL. Entre eles, os limiares de freqüência cardíaca identificados por inspeção visual (PDv) e pelo método matemático (Dmáx), o Dmáx predito (Dmáxpred) e a velocidade de limiar de 4 mmol·l-1 predita (V4pred). O objetivo da presente investigação foi verificar a validade desses Lan como preditores do MSSL na modalidade de Futsal. Oito jogadores de Futsal (21,3 ± 3,1 anos; 177,4 ± 7,7 cm; 79,4 ± 21,2 kg; 13,2 ± 5,7 %gordura) foram submetidos aos seguintes testes de campo: 1) Teste incremental de corrida intermitente (TCAR) realizado em sistema de "ida-e-volta", constituído de repetições de 12 segundos de corrida intercaladas por 6 segundos de caminhada, com velocidade inicial de 9 km·h-1 e incrementos de 0,6 km·h-1 a cada 90 segundos até a exaustão voluntária. Variáveis identificadas no TCAR: velocidade (V) e freqüência cardíaca (FC) dos diversos Lan preditores; 2) Teste de carga constante (TCC) com duração de 32 minutos divididos em 4 séries de 8 minutos de corrida intermitente (mesmo sistema aplicado no TCAR), com intervalo passivo de 1 minuto para coletar amostras de 25 µL de sangue e mensurar a FC. O MSSL foi definido como sendo a maior velocidade onde ocorreu steady-state de lactato (aumento não superior a 1,2 mmol·l-1 entre o 8º e 32º minuto). O primeiro TCC foi realizado com 100% da velocidade do Dmáx (VDmáx) e subsequentes TCC foram aplicados e a velocidade incrementada em 0,6 km·h-1 após cada TCC até que o MSSL foi verificado. Variáveis identificadas no TCC: V e FC correspondentes ao MSSL (VMSSL e FCMSSL). Os resultados obtidos para V e FC dos Lan preditores foram: VPDv (13,0 ± 1,5 km·h-1), VDmáx (12,2 ± 1,4 km·h-1), VDmáxpred (12,4 ± 1,2 km·h-1), V4pred (13,3 ± 0,8 km·h-1) e FCPDv (186 ± 11 bpm), FCDmáx (178 ± 10 bpm), FCDmáxpred (183 ± 8 bpm), respectivamente. Quando foram comparadas com a VMSSL (12,5 ± 1,6 km·h-1) e FCMSSL (182 ± 4 bpm), não apresentaram diferenças (p>0,05). As correlações encontradas foram significantes, com destaque para a VDmáx (r = 0,98) e FCDmáx (r = 0,88), com exceções para FCDmáxpred (r = 0,53) e V4pred (r = 0,70), ambas não significantes. Os valores encontrados de concentração de lactato no MSSL foram 4,2 ± 1,8 mmol·l-1 (1,4 a 6,7). Assim, concluiu-se que os Lan derivados do TCAR são válidos como preditores do MSSL em jogadores de Futsal e que, as respostas fisiológicas verificadas nesse sistema de corrida intermitente foram similares ao modelo teórico vigente, sugerindo um modelo generalizável.

Limiar anaeróbio

máximo steady-state de lactato

teste intermitente de campo

futsal

exercícios aeróbicos

Anaerobic threshold

maximal lactate steady-state

intermittent test of field

futsal

aerobic exercises

CNPQ::CIENCIAS DA SAUDE::EDUCACAO FISICA

Precessão Livre no Estado Estacionário com alternância de fase para RMN em alta e baixa resolução / Steady state free precession with phase alternation for NMR in high and low resolution.

Tiago Bueno de Moraes

19 May 2016

A aplicação de uma sequência de pulsos com tempo de repetição muito menor que os tempos de relaxação Tp << T2; T1, faz com que a magnetização atinja um estado estacionário descrito por H.Y. Carr como Estado Estacionário em Precessão Livre, Steady State Free Precession (SSFP). Nessa condição, o sinal é composto pela complexa sobreposição das componentes FID e eco. Sequências tipo SSFP são utilizadas na aquisição rápida de sinais, resultando em uma boa razão sinal ruído (s/r) em curto intervalo de tempo, porém introduzem fortes anomalias de fase e amplitude devido a complexa interação das componentes que formam o estado estacionário. Neste trabalho, desenvolvemos sequências de pulsos tipo SSFP para RMN em alta e baixa resolução com alternância e incremento de fase. Em alta resolução desenvolvemos as sequências SSFPdx e SSFPdxdt com incremento de fase linear e quadrático respectivamente. Os resultados mostram que espectros de núcleos com baixa sensibilidade podem ser obtidos com mesma razão s/r em menor tempo experimental e as sequências desenvolvidas removem as anomalias espectrais. Em baixa resolução, os resultados mostram que a introdução de alternâncias de fase na Continuous Wave Free Precession (CWFP) possibilita a remoção da dependência da sequência com o offset de frequência e com o tempo entre pulsos. Além disso, mostramos que a sequência CP-CWFPx-x com ângulo de refocalização pequeno (5&deg; a 10&deg;) possibilita a estimativa rápida do tempos de relaxação longitudinal. Apresentamos também resultados dos estudos e desenvolvidos no estágio de pesquisa no exterior, onde as sequências de pulsos no estado estacionário &ndash; DECPMG e Split 180&deg; &ndash; foram estudas numericamente e implementadas nos sistemas magnéticos compactos: mini-Halbach e MOUSE-NMR. Por fim, são apresentados resultados com os métodos de processamento de dados Krylov Basis Diagonalization Method (KBDM) e a Transformada Inversa de Laplace aplicados na análise de sinais SSFP. Resultados mostram que KBDM é uma ferramenta útil no processamento de dados em alta e baixa resolução, tanto na obtenção de espectros como na determinação da distribuição dos tempos de relaxação. / The application of a pulse sequence with repetition time much smaller than the relaxation times, Tp << T2; T1, causes the magnetization to reach a steady state, described by H. Y. Carr as a Steady State Free Precession (SSFP). In this condition, the signal is composed of the complex overlapping of the FID and eco components. SSFP type sequences are used in fast acquisition of NMR signals, resulting in a good signal to noise ratio (s/r) in a short time interval, however, they introduce phase and amplitude anomalies due to the complex interaction between the components of the steady state. In this work, we develop SSFP type pulse sequences for NMR in high and low resolution, with alternation and increment of phase. In high resolution, we develop SSFPdx and SSFPdxdt sequences, with linear and quadratic phase increment respectively. Results show that the low sensitivity nuclei spectra can be obtained with the same s/r ratio in smaller experimental time, about an order of magnitude, and the developed sequences can remove the spectral anomalies. In low resolution, the results show that the introduction of a phase alternation in the Continuous Wave Free Precession (CWFP) allows the elimination of the dependence of the sequence with the offset frequency and the time between pulses. Besides, we show that the CP-CWFPx-x sequence with a small refocalization angle (5° to 10°) allows the fast estimative of the longitudinal relaxation time in a single experiment. The results of the studies conducted during an international research internship are also presented. Steady state pulse sequences &ndash; DECPMG and Split 180° &ndash; were studied and implemented in compact magnetic systems: mini-Halbach and MOUSE-NMR. Finally, the results of the application of the Krylov Basis Diagonalization Method (KBDM) and the Inverse Laplace Transform for the analysis of SSFP signals are presented. The results show that KBDM is a useful tool in data processing for low and high resolution, both for obtaining spectra and determining the relaxation times distribution.

Continuous wave free precession

CWFP

KBDM

Ressonância magnética nuclear

SSFP

Steady state free precession

Transformada inversa de Laplace

Continuous wave free precession

CWFP

Inverse Laplace transform

KBDM

Nuclear magnetic resonance

SSFP

Steady state free precession

Modélisation du roulement d'un pneumatique d'avion / Modeling of aircraft tire rolling

Kongo Konde, Ange

13 January 2011

Ce travail de thèse présente la démarche utilisée pour construire un modèle éléments finis en statique ou en dynamique d'un pneumatique d'avion gros porteur prenant en compte la géométrie, la structure matérielle complexe, les différents matériaux et leurs propriétés ainsi que les interactions entre le pneumatique et le sol (contact, frottement et couplage thermomécanique). Des essais ont été effectués afin d'identifier les paramètres géométriques et matériaux.Ces simulations utilisant une approche Lagrangienne et une approche mixte Eulérienne/Lagrangienne ont été réalisées sur le modèle proposé. La seconde approche qui réduit considérablement le temps de calcul a été validée pour simuler le roulement en dérapage du pneumatique. Le modèle permet ainsi d'estimer le torseur des efforts dans le contact pneumatique /sol. Nous montrons l'influence des paramètres de chargement (charge verticale, pression de gonflage et vitesse de roulage) et de l'angle de dérapage sur le moment d'autoalignement (MZ) et sur le potentiel d'adhérence (µY) correspondant au rapport entre l'effort latéral et l'effort vertical dû au poids de l'avion. Nous présentons aussi une étude de sensibilité aux paramètres géométriques et matériels.Des essais de Coulomb et de diffusion thermique ont permis d'identifier la loi d'évolution du coefficient de frottement en fonction de la température (béton, asphalte) et l'évolution de la température dans l'épaisseur du pneumatique. Ceci a permis de prendre en compte les effets thermiques dans le modèle et de proposer un modèle de couplage thermomécanique qui met en évidence la décroissance de µY et la chute rapide de MZ vers des valeurs négatives au-delà d'un angle de dérapage critique βmax variant avec les conditions de chargement du pneumatique. Ces variations sont observées expérimentalement. / This PhD Thesis presents the approach adopted for the setting of numerical model based on Finite Element Method for jumbo-jet tire. The model takes into account the real geometry, the complex material structure, the various materials and their properties as well as the interactions between the tire and the ground (contact, friction and thermal-mechanical coupling due to friction). Tests are performed in order to identify geometrical and material parameters.Static and dynamic simulations using a Lagragian approach and an Eulerian/ Lagrangian mixed approach were performed on this proposed model. This second approach which significantly reduces the computational cost time was validated for cornering tire simulation. The model allows thereby to estimate the forces in the tire/ ground contact patch. We show the influency of loading parameters (vertical load, inflating pressure and rolling velocity) and of the slip angle on the self aligning torque (MZ) and on the lateral friction coefficient (µY) corresponding on the ratio between lateral force and vertical load due to the aircraft weight. We also present a sensitivity study on geometrical and material parameters.Coulomb's and thermal diffusion tests were performed in order to identify the friction coefficient law as function of temperature (on concrete and asphalte surfaces) and the temperature evolution in the aircraft tire thickness. These tests allowed to take into account thermal effects in the model and to propose a thermal-mechanical coupling model which emphasized the decreasing of µY and the rapid vanishing of MZ towards zero beyond a critical slip angle βmax varying with the tire loading conditions. These variations were observed experimentally

Pneumatique d'avion gros porteur

Modélisation par éléments finis

Contact avec frottement

Non-linéarités matérielles

Couplage thermomécanique

Roulement en Steady State

Abaqus.

Aircraft Tire

Finite Element Modeling

Contact with friction

Material non-linearities

Thermal-mechanical Analysis

Steady State rolling

Abaqus.