Tesis sobre el tema "Thermomechanical Analysi"
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TERNER, MATHIEU. "Innovative materials for high temperature structural applications: 3rd Generation γ-TiAl fabricated by Electron Beam Melting". Doctoral thesis, Politecnico di Torino, 2014. http://hdl.handle.net/11583/2527509.
Texto completoLe, Gall Carole A. "Thermomechanical stress analysis of flip chip packages". Thesis, Georgia Institute of Technology, 1996. http://hdl.handle.net/1853/16002.
Texto completoJiang, Jian. "Nonlinear thermomechanical analysis of structures using OpenSees". Thesis, University of Edinburgh, 2013. http://hdl.handle.net/1842/7749.
Texto completo), Lerch Andrew (Andrew J. "Thermomechanical analysis of innovative nuclear fuel pin designs". Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/58460.
Texto completoCataloged from PDF version of thesis.
Includes bibliographical references (p. 152-154).
One way to increase the power of a nuclear reactor is to change the solid cylindrical fuel to Internally and Externally Cooled (I&EC) annular fuel, and adjust the flow and the core inlet coolant temperature. The switch to annular fuel allows for a 20% increase in core power density without changing the assembly size or the control rod placement. Such an approach is being considered for the Korean reactor OPR1400. The analysis of I&EC fuel with a modified version of FRAPCON-3.3 revealed that an uneven heat flux split between the outer and inner surfaces may develop which does not yield an optimal design. After optimization, it is found that excessive cladding oxidation on the inner channel of the hottest fuel pin may occur due to excessive internal heat flux, which is controlled by the gap conductance. As the gaps close asymmetrically, the MDNBR limit of 1.3 could also be violated. At the uprated power, control of the gap sizes is needed in order to satisfy the thermal-hydraulic requirements. One solution is to increase the flow rate to increase the MDNBR and to reduce the coolant temperature to decrease the cladding oxidation. Reduced-moderation Water Reactor (RMWR) is a boiling water reactor proposed to operate with mixed oxide fuel and, a harder neutron spectrum and higher local fuel burnup compared to the traditional Light Water Reactors. The fissile content of the fuel is concentrated in two pancake like regions in the core separated by a blanket (fertile-only) region.
(cont.) The FRAPCON fuel performance code has been modified to assess the behavior of the RMWR fuel pins. Properties were modified to allow for a higher concentration of plutonium oxide. A new mechanistic model was adopted to simulate the fission gas release and swelling behavior of the fuel. The gas bubble swelling at the grain edges and grain faces were modeled separately. In addition, solid fission product swelling model was modified and the effect of axial migration of the volatile fission product behavior on fuel performance was also analyzed. Specifically, the cesium migrates axially based on the evaporation/condensation mechanism. Cesium precipitation at the fuel blanket interface and the resulting excessive swelling of the fuel pin at these locations could potentially be a major source of local stresses. Furthermore, as-fabricated porosity migration, central void formation, and hot-pressing of the fuel pellet were also modeled. Finally, axial variation of the material properties was allowed to represent the active fuel region and the blanket regions. The updated version of FRAPCON (called FRAPCON-EP) was checked against experiments then used to analyze the RMWR fuel behavior to optimize various parameters such the fuel pellet smear density, plenum height, and achievable peak burnup in order to achieve performance that could satisfy the NRC requirements for fuel pins.
by Andrew Lerch.
S.M.
Brevus, Vitaly. "Analysis of structural elements' integrity after thermomechanical loading". Thesis, Clermont-Ferrand 2, 2014. http://www.theses.fr/2014CLF22443.
Texto completoThis thesis was performed under the cotutelle agreement between Ternopil Ivan Pul’uj National Technical University (TNTU, Ukraine) and Blaise Pascal University (Clermont Ferrand, France). The thesis was carried out within Pascal Institute of the Blaise Pascal University - Clermont II, the IFMA and the CNRS, in the Scientific Theme “Active and Smart Materials and Multiscale Modeling” of the Mechanics, Materials and Structures Department, and within the French Institute for Advanced Mechanics. The presented thesis belongs to the scientific field of fracture mechanics and material science. The aim of the thesis is to develop the analytical and experimental methodology for the residual lifetime estimation of the superheater collectors at thermal power stations (TPS), taking into account the operational features of thermomechanical loading. Prediction of lifetime is crucial task for continuous operation of heavy loaded structural elements and is a part of a broader problem, covered in the research of the strength and durability of high temperature structural elements in power-generating equipment. The thesis describes the influence of operating temperature on the fatigue crack growth rate and fracture micromechanisms in the material of the superheater collector
Zhang, Chunbo. "A Thermomechanical Analysis of An Ultrasonic Bonding Mechanism". DigitalCommons@USU, 2011. https://digitalcommons.usu.edu/etd/1021.
Texto completoPACHECO, PEDRO MANUEL CALAS LOPES. "ANALYSIS OF THE THERMOMECHANICAL COUPLING IN ELASTIC-VISCOPLASTIC MATERIALS". PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 1994. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=33223@1.
Texto completoA modelagem do acoplamento entre os fenômenos mecânicos e térmicos em sólidos inelásticos é considerada neste trabalho. O acoplamento termomecânico é importante em determinadas situações, como por exemplo, no estudo de problemas envolvendo deformações inelásticas cíclicas em estruturas metálicas. Um procedimento sistemático para obtenção de equações constitutivas termodinamicamente admissíveis é apresentado. Através deste procedimento, baseado na Termodinâmica dos Processos Irreversíveis, foi possível obter uma teoria constitutiva para modelar o comportamento anisotérmico de metais e ligas metálicas. Dois tipos de acoplamentos termomecânicos foram identificados: o acoplamento interno, associado à dissipação interna do processo mecânico, e o térmico, associado à dependência dos parâmetros das equações constitutivas com a temperatura. A teoria foi particularizada para materiais elasto-viscoplásticos. Simulações com barras foram realizadas para estudar fenômenos como o aquecimento de metais provocado por solicitações mecânicas complexas e o comportamento de metais submetidos a grandes gradientes de temperatura. Uma variável de dano foi incorporada ao modelo, permitindo estudar a influência do acoplamento termodinâmico em processos de degradação do material como fadiga de baixo ciclo.
The present work is concerned with the modeling of the coupling between mechanical and termal phenomena. The thermomechanical coupling is important in some problems like those involving inelastic cyclic deformation in metallic structures. A systematic procedure to obtain thermodynamically admissible constitutive equations is presented. Such procedure has a strong thermodynamic basis and is used to obtain a constant theory to model the anisothermal behavior of metals and alloys. Two kinds of thermomechanical couplings can be identified: the internal coupling, related with the internal dissipation in the mechanical process and the thermal coupling, related with the dependence of the material parameters in the constitutive equations on temperature. The theory is particularized to elasto-viscoplastic materials. Uniaxial simulations were performed to study the heating of metals due to complex mechanical loadings and the behavior of metals subjected to high temperature gradients. A damage variable is introduced in the model to study the influence of the thermomechanical coupling in processes involving the degradation of the material like in low-cycle fatigue.
Bola, Inês Carlos Ramos Almeida. "Development and numerical thermomechanical analysis of an atmospheric burner". Master's thesis, Universidade de Aveiro, 2017. http://hdl.handle.net/10773/23416.
Texto completoAtualmente, a simulação numérica de processos tecnológicos tem cada vez mais importância e é cada vez mais utilizada permitindo não só reproduzir as condições de funcionamento de determinado processo como também possibilita a previsão de possíveis falhas nos materiais. Assim, surgiu o presente trabalho para dar resposta à necessidade de conseguir caracterizar comportamentos mecânicos como a uência e a fadiga, presentes na superfície de alumínio de um queimador atmosférico, e o impacto que podem ter. Para tal, através do software de simulação numérica ANSYS, realizou-se uma análise termomecânica da respetiva superfície de queima. Em primeiro lugar, selecionou-se o modelo numérico de Norton e procedeu-se à identi cação dos respetivos parâmetros com base em duas análises distintas: uma análise analítica, com base apenas em curvas experimentais e relações analíticas; e uma análise numérica, com recurso ao módulo de otimização do ANSYS, em que os parâmetros foram iterativamente de nidos. Posteriormente, as condições fronteiras do problema foram de nidas e foi realizado um estudo de convergência da malha a usar nas simulações. Deste modo, foram obtidos os per s de temperatura, tensão e deformação ao longo da superfície de queima. Por m, considerando os fenómenos de fadiga e de uência, o tempo de vida da superfície do queimador foi estimado com base em métodos de previsão.
Nowadays, the numerical simulation of technological processes is increasingly important and used, allowing to reproduce the operation conditions of a given process and to predict possible failures in materials. Thereby, the present work emerged, to answer the need to characterize mechanical behaviors such as creep and fatigue that are present on the aluminum surface of an atmospheric burner and to understand the impact they can have. For this purpose, the FEA program ANSYS was used to perform a thermomechanical analysis of the respective surface. Firstly, the Norton's numerical model was selected, and the respective parameters were identi ed based on two di erent analyses: an analytical analysis, based only on experimental curves and analytical relationships; and a numerical analysis using the ANSYS optimization module, in which the parameters were iteratively de ned. Then, the boundary conditions of the problem were de ned, and a mesh sensitivity study was carried out. Therefore, the temperature, stress and strain pro les were obtained along the surface. Considering the fatigue and creep phenomena, the lifetime of the burner surface was estimated based on prediction methods.
Arqam, Mohammad. "Thermomechanical analysis of compact high-performance electric swashplate compressor". Thesis, Griffith University, 2021. http://hdl.handle.net/10072/410159.
Texto completoThesis (PhD Doctorate)
Doctor of Philosophy (PhD)
School of Eng & Built Env
Science, Environment, Engineering and Technology
Full Text
Ismail, Dahman y Alexis Andrei. "Thermomechanical stress analysis of the main insulation system of traction electrical machines". Thesis, Blekinge Tekniska Högskola, Institutionen för maskinteknik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-20305.
Texto completoMer effektiva tunga fordon utvecklas med högre räckvidd, uppdaterade elektroniska och mekaniska delar. Bränsleeffektiviteten och föroreningen av koldioxid måste vara lägre för att uppnå nya EU-förordningar. Antalet tunga fordon ökar i takt med att den globala befolkningen ökar, detta leder i sin tur till ökad utsläpp av bland annat koldioxid. Genom att ta de elektriska och mekaniska delarna till nästa steg kan de globala utsläppsproblemen minskas massivt. Elektriska maskiner för framdrivning är nästa steg mot en renare framtid. Studiens huvudmål för att undersöka den elektriska maskinens isoleringssystem. Termomekaniska påfrestningar på grund av termisk cykling påverkar de elektriska maskinerna och dess delkomponenter. Genom att använda en FEM-applikation med förenklade modeller av den elektriska maskinen erhålls och diskuteras resultat. Specifikt om 2D-modeller är tillräckliga för att representera en 3D-modell. Hur tillräckligt de olika 2D-modeller kan representera 3D-modellen jämförs och diskuteras i denna studie. Ett fysiskt experiment utförs för att validera och kalibrera FEA-modellerna. Vilken av de mindre frekventa cykler med högre amplitud eller mer frekventa cyckler med lägre amplitud påverkar isoleringssystemet mest har undersökts. Simuleringarna kan göras med antingen, temperatur kopplad förskjutnings analys eller sekventiellt kopplad analys. Temperatur kopplad kopplad förskjutning är den snabbaste metoden att använda i simuleringsmodellerna. En 3D-modell är det bästa sättet att beskriva ett objekt och har därför implementerats. Ytterligare två, 2Dmodeller är framtagna i FEM-miljö för snabbare beräkning och för att undersöka om 2D-modellerna kan representera den tredimensionella geometrin. Samtliga tre modeller har specifika randvillkor för att förenkla modellerna. Känslighetsstudier görs för att bestämma vilken parameter som påverkar de inducerade termomekaniska spänningarna mest. Ett fysiskt experiment har utförsts för att validera och kalibrera simuleringsmodellerna. Resultatet visar att 3D-modellen representerar ett tre dimensonellt objekt bäst. Simuleringsresultat har visat att epoxy, som är en av huvudkomponenterna i isoleringssystemet, är mest kritisk när det gäller att först nå brott- och sträckgräns, följt av pappersisolering och koppar beläggningen. Detta är ett typiskt resultat av alla tre simuleringsmodeller. Slutsatsen visar att vissa 2D-modeller kan presentera 3D-modellen, andra kan inte. Den beroende faktorn beror på ur vilket tvärsnitt man tittar på den elektriska maskinen. Det fysiska experimentet visar liknande resultat jämfört med simuleringen när det gäller belastning vid en lägre temperatur, och avvikelsen blir större när temperaturen ökar. 3D-modellen, är den modell som har den bästa representationen av en riktig elektrisk maskin eftersom den inkluderar normal- och skjuvspänningskomponenter i alla riktningar. Anledningen är att den har bättre randvillkor jämfört med 2Dmodellerna. 2D-modellen i XY-planet har visat liknande resultat som 3D-modellen. En av huvudkomponenterna i isoleringssystemet, epoxy, utsätts för de högsta spänningarna jämfört med dess sträck- och den brottgräns, följt av pappersisolering och koppar beläggning. Känslighetsstudien har kommit fram till att statorns axiella längd inte påverkar spänningsamplituderna. Den mest kritiska parametern som påverkar de termomekaniska spänningarna är temperatur amplituden, materialens CTE och tjockleken på det skarvade skiktet. Alla maximala spänningsamplituder för samtliga tre komponenter är belägna i den fria änden.
Devarajan, Balakrishnan. "Thermomechanical and Vibration Analysis of Stiffened Unitized Structures and Threaded Fasteners". Diss., Virginia Tech, 2019. http://hdl.handle.net/10919/99425.
Texto completoPHD
Jongchansitto, Pawarut. "Mechanical analysis of 2D composite granular materials : thermomechanical experiments and numerical simulations". Thesis, Clermont-Ferrand 2, 2015. http://www.theses.fr/2015CLF22592/document.
Texto completoThe main objective of our dissertation is to analyze the mechanical behavior of two-dimensional composite granular materials through the granular textures. Thermoelatic stress analysis experiments and molecular dynamics simulations are used for this purpose. The composite granular systems are prepared from polyoxymethylene (POM) and high-density polyethylene (HDPE) cylinders with a stiffness ratio of about 4 between them. Different configurations in terms of ratios of diameter size and ratio of particle numbers are systematically investigated. Experimental and numerical results are good correlated at the macroscopic scale. In particular the strong network, which is here characterized by hydrostatic stresses higher than the mean value, consists of less than 50% of all particles, and exhibits an exponential decay whatever the type of particles considered for the analysis (soft, stiff, or both types). In addition, the contact distributions between stiff particles (POM-POM contacts) is anisotropic with an effort to arrange parallel to the direction of the external applied load, whereas the other types of contacts just act to sustain the granular system in equilibrium
Sikorski, Mathew E. "Thermomechanical analysis of polymeric fibres : instrument development and preliminary results". Thesis, University of Manchester, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.292787.
Texto completoMartinez, Cano Pablo. "Thermomechanical Design and Analysis of the Lisa Phase Measurement System". Thesis, Luleå tekniska universitet, Institutionen för system- och rymdteknik, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-76509.
Texto completoTurner, Travis Lee. "Thermomechanical Response of Shape Memory Alloy Hybrid Composites". Diss., Virginia Tech, 2000. http://hdl.handle.net/10919/29771.
Texto completoPh. D.
Khazaeinejad, Payam. "Fundamental solutions for beams, plates, and shells under thermomechanical actions". Thesis, University of Edinburgh, 2016. http://hdl.handle.net/1842/19575.
Texto completoHyde, Chase Kennedy. "Critical analysis of simulated thermomechanical processing of aluminium can body stock". Master's thesis, University of Cape Town, 2015. http://hdl.handle.net/11427/15749.
Texto completoLiu, Deqi. "Thermomechanical modeling of the solidification process of an aqueous urea solution". Thesis, Lyon, 2019. http://www.theses.fr/2019LYSEI029.
Texto completoMany liquids involve a change in volume when they freeze. For water and some aqueous solutions, the volumetric expansion during solidification may invoke a series of mechanical issues. In automobile industries, the security of tanks installed in vehicles is challenged by the Phase-Change Expansion (PCE) of the freezing liquid in cold conditions. One of the most problematic issues is the expansion of Aqueous Urea Solution (AUS) in the SCR tank of diesel vehicles. As the liquid freezes, interior components may be deformed under the stress or pressure of the expanding AUS, potentially leading to failures of the storage tank. In the product center, a numerical method is of high demand to perform thermo-mechanical analysis to predict the temperature and stress distribution during a liquid solidification process in their tanks. In this work, a bibliographic study is carried out first on the basic knowledge of the ice and AUS. Due to the very limited information on urea solution in the literature, the structure and behaviors of freshwater ice are mainly reviewed. The grain orientation preference at the growth interface of polycrystalline ice provides the evidence of non-isotropic PCE for the solidification problem. A series of mechanical tests have been performed to characterize the basic properties of the solidified AUS at different temperatures. The density evolution is measured using a volume-difference method. Then, both thermal and mechanical analytical studies are performed. The classical thermal Stefan problem is reviewed and a finite-difference scheme is proposed to calculate the interface position and temperature profiles of a spherical solidification model. Mechanically, a similar spherical model is established based on the non-isotropic PCE phenomenon of ice growth. The solutions of stress distribution and liquid pressure evolution are given as a function of the solidification interface position. Finally, an efficient thermo-mechanical FEM is proposed to evaluate the thermal stress, strain, displacement and pressure in solidification problems with highly nonlinear relations. Three particular methods for treating the liquid phase with fixed-grid approaches are introduced. The thermal stress is computed at each integration point by integrating the elasto-viscoplastic constitutive equations with non-isotropic PCE. Then, the boundary value problem is solved using the full Newton-Raphson method. This procedure is implemented into the FE package Abaqus via a UMAT subroutine. The numerical model is validated first for the algorithmic aspect by the analytical solutions, and then for the parametric calibration by a series of benchmark tests. In the end, a realistic study case on a real-size AUS storage tank is introduced. Advantages and limitations of the numerical method in the application are evaluated
Barua, Ananda. "Mesoscale computational prediction and quantification of thermomechanical ignition behavior of polymer-bonded explosives (PBXs)". Diss., Georgia Institute of Technology, 2013. http://hdl.handle.net/1853/49028.
Texto completoRoos, Hannelie. "Thermomechanical analysis of raw materials used in the production of Soderberg electrode paste / Roos H". Thesis, North-West University, 2011. http://hdl.handle.net/10394/7576.
Texto completoThesis (M.Ing. (Chemical Engineering))--North-West University, Potchefstroom Campus, 2012.
Timgren, Marcus. "Coupled CFD and thermomechanical analysis of cooling in a die quenching tool". Thesis, Linköpings universitet, Mekanisk värmeteori och strömningslära, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-110073.
Texto completoChoi, Joonho. "Concurrent fire dynamic models and thermomechanical analysis of steel and concrete structures". Diss., Atlanta, Ga. : Georgia Institute of Technology, 2008. http://hdl.handle.net/1853/26679.
Texto completoNehr, Jonas Christian. "Damping and Thermomechanical behaviour of CFRP laminates modified with rubbery nanofibers". Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020. http://amslaurea.unibo.it/21702/.
Texto completoTiikkaja, E. (Esa). "Konenäköä soveltavan kuituanalysaattorin ja virtauskenttäfraktionaattorin mittausten yhteydet kuumahierteen paperiteknisiin ominaisuuksiin:kokeellinen tutkimus". Doctoral thesis, University of Oulu, 2007. http://urn.fi/urn:isbn:9789514286391.
Texto completoTiivistelmä Kuumahierteen laadunvalvonnan tavoitteena on luotettava ja monipuolinen on-line-mittauksiin perustuva laadunohjaus. Tehtävään on kehitetty mallipohjaisia järjestelmiä, mutta ne eivät ole olleet aina riittävän suorituskykyisiä. Tässä tutkimuksessa selvitettiin konenäköön perustuvien kuituanalysaattoreiden soveltuvuutta kuumahierteen laadunohjauksen tarpeisiin. Sekä analysaattoreiden tuottamaa valmista mittaustietoa, että niiden kuitukohtaisia mittaustuloksia ja kuvamateriaalia tutkittiin. Tutkimuksessa käsiteltiin kahta erillistä koesarjaa. Ensimmäinen sarja sisälsi 24 koepistettä erään TMP-laitoksen koeajosta. Nämä näytteet muodostivat pääosan testimateriaalista. Toinen sarja koostui erään toisen tehtaan tuotantomassoista otetuista 13 näytepisteestä. Tässä sarjassa laatumuutokset olivat huomattavasti vähäisempiä kuin edellisessä sarjassa. Kuidunkokoanalyysit tehtiin konenäköä soveltavalla, yksittäisiä kuituja mittaavalla laitteella. Tutkimuksessa selvitettiin kuidunpituuden, kuidun leveyden, seinämävahvuuden, pituusmassan, hienoaineen, kuidun kiharuuden ja kuidun ulkoisen fibrillaation vaikutusta kuumahierteen laatuun. Näytekohtaisten keskiarvojen lisäksi myös kuitukohtaiset tiedot analysoitiin. Virtauskenttäfraktionaattorilla tutkittiin kuitujen optisia ominaisuuksia lajittelutapahtuman aikana. Mittaustuloksista käsiteltiin sekä valmiit jaetulokset että mittaussignaalien jakautumat lajittelutapahtuman ajalta. Molempien laitteiden tallettamia kuitukuvia analysoitiin niiden mahdollisesti sisältämän mutta vielä hyödyntämättömän informaation selvittämiseksi. Analyysityökaluina käytettiin korrelaatioanalyysiä ja pääkomponenttianalyysiä. Konenäköön perustuvan kuituanalysaattorin antamista tuloksista kuidun kiharuus ja kuidun leveys osoittautuivat luotettavimmiksi laatupotentiaalin indikaattoreiksi. Selitysasteet suurimmalle osalle mitattuja massan lujuus- ja arkkiominaisuuksia olivat yli 70 %. Virtauskenttäfraktionaattorin tuloksissa pitkäkuituosuutta vastaavat signaalijakeet antoivat samaten yli 70 %:n selitysasteet suotautuvuuden, sidoslujuuden, karheuden ja huokoisuuden arvioinnille. Kuituanalysaattorin kuidunkokoarvojen ja virtauskenttäfraktionaattorin signaalijakeiden ja -jakautuma-arvojen sekä kuvapiirteiden avulla lasketut kahden muuttujan mallit toivat useimpien käsiteltyjen laatumuuttujien estimaattien selitysarvoihin merkittävää parannusta. Tärkeimmät muuttujat kuumahierteen laatupotentiaalin arvioinnissa olivat kuidun kiharuus ja kuidun leveys sekä virtauskenttäfraktionaattorin signaalijakeet. Konenäköä soveltava kuituanalysaattori ja virtauskenttäfraktionaattori soveltuvat hyvin kuumahierteen laadun valvonta- ja ohjausmallin pohjaksi
Wosnitza, Elmar M. "Mountains of wax continental collision in scaled thermomechanical analogue experiments and data analysis /". [S.l. : s.n.], 2001. http://www.freidok.uni-freiburg.de/volltexte/329.
Texto completoDelhelay, Davinder Singh. "Nonlinear finite element analysis of the coupled thermomechanical behaviour of turbine disc assemblies". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape8/PQDD_0001/MQ46072.pdf.
Texto completoMenezes, Alexandre Jorge Rocha. "Analysis of the behavior of concrete thermomechanical of low resistance in low ages". Universidade Federal do CearÃ, 2015. http://www.teses.ufc.br/tde_busca/arquivo.php?codArquivo=16161.
Texto completoGreat works of infrastructure such as hydroelectric plants require, in it building, large concrete volumes classified as mass concrete structures. These works of power generation are strategic and fundamental for the development of a nation. However, during construction and throughout its life they may have pathological manifestations that compromise its stability. One of the most common problems in this type of structure is cracking caused by heat generated due to the exothermic reaction of cement hydration. Therefore, we had to analyze the thermal behavior of concrete, concrete with similar consistency and resistance like the concrete utilized in construction dam, and analyze how the type of cement utilized and its contents affects these parameters. In addition, we studied the evolution of compressive strength and dynamic modulus of elasticity as the cement hydrates. Finally, we compared the thermal performance of concretes produced with the results obtained from a commercial software. To carry out the experiment, concrete blocks were produced of 1,5m with cements CP II E 32 RS and CP IV 32 with consumption 241,2 kg/m and 330,0 kg/m for thermal analysis, besides cylindrical specimens for the remaining analyzes. The results showed that the thermal behavior of concrete has a small dependence on the type of cement, however the cement content affects too much this behavior, and the cement CP IV 32 showed higher thermal variations. It was also observed that the development of compressive strength is strongly dependent on the cement content, but it has low dependency on the type of cement. Computer modeling presented satisfactory results when it was compared to results of the thermal evolution blocks.
As grandes obras de infraestrutura como as centrais hidroelÃtricas requerem na sua construÃÃo grandes volumes de concreto, sendo classificadas como estruturas de concreto massa. Essas obras de geraÃÃo de energia sÃo estratÃgicas e fundamentais para o desenvolvimento de uma naÃÃo. Entretanto, durante sua construÃÃo e ao longo de sua vida Ãtil estas podem apresentar manifestaÃÃes patolÃgicas que comprometem sua estabilidade. Um dos problemas mais comuns nesse tipo de estrutura à a fissuraÃÃo causada pela energia tÃrmica gerada devido à reaÃÃo exotÃrmica de hidrataÃÃo do cimento. Diante disso, buscou-se analisar como se dà o comportamento tÃrmico de concretos utilizados para a construÃÃo de corpo de barragem, alÃm de analisar como o tipo de cimento utilizado e o seu teor afetam a variaÃÃo de temperatura da massa de concreto e os problemas causados por essa variaÃÃo. Buscou-se ainda analisar a evoluÃÃo da resistÃncia à compressÃo e do mÃdulo de elasticidade dinÃmico à medida que o cimento se hidratava. Por fim, comparou-se o comportamento tÃrmico dos concretos produzidos com os resultados obtidos por meio de um software comercial. Para a realizaÃÃo da parte experimental produziu-se blocos de concretos de 1,5 metros cÃbicos com cimentos CP II-E 32 RS e CP IV 32 com consumo de 241,2 kg/m e 330,0 kg/m para anÃlise tÃrmica, alÃm da moldagem de corpos de prova cilÃndricos para as demais anÃlises. Os resultados apontaram que o comportamento tÃrmico do concreto apresenta uma pequena dependÃncia do tipo de cimento. Entretanto, o teor de cimento afeta fortemente esse comportamento, sendo o cimento CP IV 32 o que apresentou maiores variaÃÃes tÃrmicas. Observou-se tambÃm que a evoluÃÃo da resistÃncia à compressÃo à fortemente dependente da quantidade de cimento, mas apresenta baixa dependÃncia do tipo de cimento. A modelagem computacional apresentou resultados satisfatÃrios quando comparado aos resultados da evoluÃÃo tÃrmica dos blocos produzidos.
Capron, Adélie. "Towards the predictive FE analysis of a metal/composite booster casing’s thermomechanical integrity". Doctoral thesis, Universite Libre de Bruxelles, 2020. https://dipot.ulb.ac.be/dspace/bitstream/2013/314767/5/contratAC.pdf.
Texto completoDoctorat en Sciences de l'ingénieur et technologie
info:eu-repo/semantics/nonPublished
Basaran, Cemalettin. "Finite element thermomechanical analysis of electronic packaging problems using disturbed state constitutive models". Diss., The University of Arizona, 1994. http://hdl.handle.net/10150/186961.
Texto completoAronson, Joshua Boyer. "The Synthesis and Characterization of Energetic Materials From Sodium Azide". Diss., Georgia Institute of Technology, 2004. http://hdl.handle.net/1853/7597.
Texto completoBerg, Jan-Erik. "Wood and fibre mechanics related to the thermomechanical pulping process". Doctoral thesis, Mittuniversitetet, Institutionen för naturvetenskap, teknik och matematik, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-6725.
Texto completoWaddad, Yassine. "Multiscale thermomechanical strategies for rough contact modeling : application to braking systems". Thesis, Lille 1, 2017. http://www.theses.fr/2017LIL10049/document.
Texto completoContact phenomena (roughness, friction, wear, etc.) are central to friction brake functioning as they lead to the modification of surface and material properties which may affect the braking performances. To address these issues, the manufacturers use an experimental approach based on feedback tests which is expensive and inefficient against the current requirements.The objective of this work is to propose an alternative based on numerical modeling of applications like brakes with realistic assumptions at the contact interface level, unlike the classical approaches that assume a perfect contact. This challenge has been overcome by building a numerical methodology associating a large scale model of the system and several micro scale models of contact phenomena. The micro scale contact modeling has been performed with thermal and mechanical models considering roughness. The problem is solved by means of constrained quadratic programming. A normal gradient of material properties and wear have also been considered. From this analysis, surface parameters (pressure, temperature,etc.) are analyzed depending on roughness and material properties. Thereafter, a Finite Element large scale model is embedded with these parameters while the surface is flat at this scale. With this technique, the CPU time is considerably reduced and the precision is maintained in comparison to classical Finite Element calculations. This multi-scale methodology has been used for dynamic and thermo-mechanical analyses of braking systems. The results of numerical simulations highlight the impact of the contact interface and its evolution on the system behavior, and vice versa
Sharma, Bed Prasad. "Effect of sonication on thermal, mechanical, and thermomechanical properties of epoxy resin". OpenSIUC, 2009. https://opensiuc.lib.siu.edu/theses/113.
Texto completoKuriakose, Sunil. "Analysis of damage in composite laminates under bending". Diss., Georgia Institute of Technology, 2002. http://hdl.handle.net/1853/12054.
Texto completoArnaud, Émeline. "Caractérisation du comportement thermique et de la tenue à l'ablation de matériaux composites pour protection thermique : Influence du renfort, de la matrice et de la porosité". Thesis, Chasseneuil-du-Poitou, Ecole nationale supérieure de mécanique et d'aérotechnique, 2019. http://www.theses.fr/2019ESMA0005.
Texto completoAblative thermal protection systems, commonly used in space industry, are usually made of composite materials. The degradation of these materials in surface allows to protect essential parts against severe aerothermal fluxes. In the literature, lots of different systems are described they are constituted of different type of matrix and reinforced by several kind of fibers. The diversity of the existing thermal protection systems raises the question of the influence of the composition of the materials on the thermal and ablative performances. The developed scientific approach is based on an experimental procedure coupled with the development of a numerical simulation. The material characterization is based on three experimental steps : the thermo-chemical behavior of the materials is investigated with TGA, TMA and DSC experiments, the thermal behavior under a severe flux is evaluated by an experimental bench equipped with an oxyacetylenic torch ; finally, the ablative behavior is characterized with a small jet-nozzle impacting the sample with a severe aerothermal flux. In parallel to the experimental characterization, a numerical simulation modeling of the ablative and thermal behavior of composite materials is developed. Links existing between the thermal behavior and the ablation resistance have been demonstrated. Degradation scenarios have been proposed thanks to the combined analysis of the experimental results at each stage of the characterization. Parameters controlling the ablation have been identified, the major impact of the porosity has been particularly demonstrated
Slade, J. Morgan. "Thermomechanical strain analysis of electronic packages using Moiré interferometry by computational and manual fringe reduction". Thesis, Massachusetts Institute of Technology, 1996. http://hdl.handle.net/1721.1/40221.
Texto completoRech, Bryan Andrew. "Thermomechanical analysis of a novel directionally reinforced shape-memory polymer for minimally invasive surgical devices". Connect to online resource, 2008. http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&res_dat=xri:pqdiss&rft_dat=xri:pqdiss:1453562.
Texto completoCATANZARO, Ilenia. "Development and application of multiscale procedures for the thermomechanical analysis of the DEMO Water-Cooled Lithium Lead Breeding Blanket". Doctoral thesis, Università degli Studi di Palermo, 2022. https://hdl.handle.net/10447/560500.
Texto completoBARBOSA, JOSÉ MARIA ANDRADE. "ANALYSIS OF THE INFLUENCE OF THERMOMECHANICAL COUPLING IN WAVE PROPAGATION IN ELASTIC-VISCOPLÁSTICAS BARS WITH DAMAGE". PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 1998. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=26522@1.
Texto completoÉ considerado neste trabalho um modelo mecânico para simulação do comportamento anisotérmico de materiais inelásticos submetidos a carregamentos dinâmicos. O trabalho tem como motivação o estudo, através de simulações numéricas, dos efeitos da propagação da onda de tensão no meio, e de fenômenos como o aquecimento e a degradação local induzida pelas deformações inelásticas. A equação da energia com seus termos de acoplamentos entre os efeitos térmico e mecânico é incluída na modelagem. A teoria constitutiva utilizada baseia-se na mecânica do dano contínuo no contexto de variáveis internas sendo particularizada para materiais elastoviscoplásticos e aplicado ao caso de uma barra solicitada axialmente. O sistema não linear de equações diferenciais parciais resultante do modelo é resolvido através do uso uma técnica de decomposição do operador que permite a aplicação de procedimentos numéricos clássicos de solução. Dentre estes procedimentos, foi usado no trabalho, o método de Glimm. Exemplos numéricos retratando a evolução do dano e da temperatura induzida pela deformação plástica devido a carregamentos de impacto e de alta frequência, são apresentados e analisados. Comparações entre simulações com os modelos isotérmico e anisotérmico permitem caracterizar as influências da equação da energia e do dano.
This work presents a mechanical model for simulating the anisothermal behavior of damageable inelastic solids under dynamical loadings. The main motivation of this study is to investigate, by means of numerical simulations, the thermomechanical coupling in a simple one-dimensional problem involving the wave propagation phenomenon in a damageable non-isothermal solid. To achieve this goal, the equation of energy is taken into account in the modeling with the coupling terms between the thermal and mechanical effects. The damageable inelastic mechanical behavior is describe by means of an internal variable constitutive theory and the analysis is restricted to elastoviscoplastic solids. The resulting system of non linear partial differential equations is solved by using an operator splitting technique, along with classical numerical procedures such as the Glimm s method. Numerical examples which illustrate the damage and temperature evolution induced by the plastic deformation process due to impact and cyclic loadings are presented and analyzed. A suitable comparative analysis between simulations with and without the thermomechanical couplings shows the situations under which these terms are relevant.
BARBOSA, JOSÉ MARIA ANDRADE. "ANALYSIS OF THE INFLUENCE OF THERMOMECHANICAL COUPLING IN WAVE PROPAGATION IN ELASTIC-VISCOPLÁSTICAS BARS WITH DAMAGE". PONTIFÍCIA UNIVERSIDADE CATÓLICA DO RIO DE JANEIRO, 1993. http://www.maxwell.vrac.puc-rio.br/Busca_etds.php?strSecao=resultado&nrSeq=33261@1.
Texto completoEste trabalho apresenta uma técnica numérica. baseada no Método de Decomposição do Operador (Operator Splitting Method) e algorítimos sequenciais associados (product formula algorithm) para simular o fenômeno de propagação de ondas em barras elasto-viscoplásticas. Este método tem boas propriedades de estabilidade e preciaão mesmo quando um esquema explícito de baixa ordem é utilizado na integração temporal. Esta técnica numérica é usada para simular carregamentos cíclicos de alta frequência em barras de aço austenítico a altas temperaturas.
The present work presents a numerical technique ( based on the Operator Split Method associated with product formula algorithm ) for simulating the wave propagation phenomenon in bars with any kind of elastic-viecoplastic oonstitutive equations. This method has very good properties of stability and precision even if explicit time evolution schemes are used. This numerical technique is used to simulate high frequency cyclic loadings in austenitic steel bars at high temperatures.
Stancy, Steven L. "Assessment of grain refinement by microtexture analysis in thermomechanically processed Al 2519 alloy". Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 1995. http://handle.dtic.mil/100.2/ADA306238.
Texto completoKern, Daniela Stefanie [Verfasser] y Dietmar [Akademischer Betreuer] Hömberg. "Analysis and numerics for a thermomechanical phase transition model in steel / Daniela Stefanie Kern. Betreuer: Dietmar Hömberg". Berlin : Universitätsbibliothek der Technischen Universität Berlin, 2011. http://d-nb.info/1014946247/34.
Texto completoGoodpaster, Benjamin A. "Analytical Modeling and Impedance Characterization of Nonlinear, Steady-State Structural Dynamics in Thermomechanical Loading Environments". The Ohio State University, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=osu1524063139635613.
Texto completoLOBO, RAQUEL de M. "Analise microestrutural do zircaloy-4 submetido a diferentes tratamentos termo - mecanicos". reponame:Repositório Institucional do IPEN, 2002. http://repositorio.ipen.br:8080/xmlui/handle/123456789/11031.
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Dissertacao (Mestrado)
IPEN/D
Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP
Larsson, Karl. "Influence of nitrocarburization on the thermomechanical fatigue properties of ductile iron for exhaust components : Analysis and comparisons of TMF-properties". Thesis, Karlstads universitet, Fakulteten för hälsa, natur- och teknikvetenskap (from 2013), 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-72033.
Texto completoGomes, Romeu. "Compréhension des mécanismes de dégradation des outils de découpage à chaud de tôles d'acier trempant au bore-manganèse". Thesis, Ecole nationale des Mines d'Albi-Carmaux, 2018. http://www.theses.fr/2018EMAC0018/document.
Texto completoCar manufacturers are building using a self-hardening high strength boron steel (22MnB5) for safety and environmental concerns. But the shaping of sheets made of these kind of steel imposes on tools severe mechanical stresses and strong thermal transfer. The integration of a blanking function in transfer presses is a response to reach high profitability, but blades are subjected to the same durability problems. The aim of this thesis is to understand how hot blanking tools are wearing in order to give to manufacturers tool material guidelines (X38CrMoV5-3 or X70CrMoV5-2) and process parameters guidelines. To do so, an estimation of mechanical stresses and thermal solicitation is required. The methodology is based on four steps: literature search, hot blanking trials on a specific module of ICA laboratory industrial pilot MEFISTO, finite element simulations of the operation, and microstructural analysis. The state of art is focused on the description of the operation, the physical and mechanical properties of the blank material and tools materials, the blank/tool interface behavior, and the techniques used simulate the hot blanking process. Trials on the hot blanking module provided blanking force and observations of worn blades. These informations are needed to validate the finite element model. This model shows that mechanical stresses are local, intense and slides in the blade cutting edge. Moreover, the blade heating generates a surface temperature close to tool steel tempering temperature. Experimental results compared to numerical ones allow to understand the link between thermo-mechanical stresses and how the damage occurs
Torres, Roca Elena. ""Halloysite nanotubes/hydroxyapatite nanocomposites as hard tissue substitutes: effect on the morphology, thermomechanical behavior and biological development of aliphatic polyesters and polymethacrylates"". Doctoral thesis, Universitat Politècnica de València, 2019. http://hdl.handle.net/10251/125709.
Texto completo[CAT] Les patologies òssies provoquen en gran mesura discapacitat física, sent la regeneració de teixits vius un dels camps més avançats en Enginyeria de Teixits. Per consegüent, grans esforços es focalitzen en l'estudi de nous materials bioabsorbibles per a tractar remodelacions de fractures òssies. És per això que aquest treball es focalitza a estudiar les propietats mecàniques i la interacció de les cèl·lules en funció de la hidrofobicitat i la química de diferents polímers bioabsorbibles comparats amb polímers no-absorbibles. D'altra banda, càrregues com Hidroxiapatita (HI HA) i Nano-tubs d'Hal·loysita (HNTs) es van utilitzar per a millorar l'afinitat, interacció i proliferació de cèl·lules. Per aquest motiu, inicialment es va monitoritzar l'efecte de les càrregues inorgàniques amb les propietats estructurals del polímer bioabsorbible Policaprolactona (PCL). Per tant, es van estudiar les variacions de propietats tèrmiques i mecàniques de PCL provocades per l'addició de HA i HNTs. Aquest estudi preliminar va permetre entendre l'efecte sinèrgic entre el polímer i els grups funcionals de les càrregues inorgàniques, establint el llindar de càrrega i optimitzant la ràtio d'aditivación. En termes generals, es va observar una millora de les propietats mecàniques quan les dues càrregues s'utilitzen simultàniament. Així mateix, aprofitant la forma tubular dels HNTs, aquests van ser utilitzats com a portadors de fàrmacs estudiant la seva habilitat per a ser carregat amb cúrcuma i la seva habilitat per a alliberar en un ambient fisiològic. Coneixent d'una banda l'habilitat de l¿HA de promoure la formació d'os nou compost per apatita i col·lagen; i, d'altra banda, que l¿HA i els HNTs alteren el comportament hidrofòbic dels polímers; es van estudiar els canvis morfològics provocats per l'addició de HA i HNTs en dues famílies de polímers amb químiques semblants però diferent hidrofobicitat. Per consegüent, el polièster hidrofòbic PCL es va mesclar amb àcid poliláctic (PLA) i es va combinar amb nanopartícules de HA i HNTs. D'altra banda, l'altament hidrofòbic poli (2-hidroxietil metacrilat (PHEMA) és va copolimeritzar amb etil metacrilat (EMA) i s'additivà amb HA i HNTs. Per tant, la dispersió de càrregues inorgàniques en les matrius polimèrica va ser estudiada, a més de la formació d¿hidroxiapatita en la superfície del polímer, i la ràtio de degradació del PCL/PLA. Es va observar que la introducció de HA en polímers amb caràcter hidrofílic indueix un alt ràtio de nucleació de hidroxiapatita i de degradació dels polímers bioabsorbibles. No obstant això, els HNTs tendeixen a formar grans agregats quan el caràcter hidrofílic del polímer augmenta, donant lloc a punts d'inici de clavills i fallada del material. La culminació d'aquest estudi es va aconseguir per mitjà del monitoratge de la viabilitat cel·lular, proliferació i morfologia de les cèl·lules com a efecte de la superfície química dels polímers. La hidrofobicitat de la superfície del polímer afecta la interacció de les cèl·lules i aquesta es pot millorar per mitjà de la modificació del polímer amb HA i HNTs. D'aquesta manera, l'increment de la viabilitat cel·lular amb l'addició de les dues càrregues inorgàniques és induït per la generació de nous centres reactius de Ca2+ i PO4 3¿ presentes en l'HA, i els grups silanol (Si-OH) situats en la superfície dels HNTs. Per tant, es va observar que en superfícies hidrofòbiques, a causa d'un alt ràtio d'arribada de proteïnes, aquestes competeixen per l'espai donant lloc a interaccions pobres entre cèl·lules i polímer mostrant una geometria cel·lular arredonida. No obstant això, en superfícies hidrofòbiques al trobar-se altament solvatades, les proteïnes inicialment troben més dificultat per a arribar a la superfície, i amb això disposen de major espai per a organitzar-se i ancorar-se a la superfície, donant lloc a una ma
[EN] Bone pathology entails an important average of physical disability, being bone tissue regeneration one of the most actively researched fields in Tissue Engineering. Accordingly, large efforts are focused on the research of novel bioabsorbable materials as a prosthesis with stiffness values similar to that of the host tissue capable of fulfilling the requirements for bone fracture remodelling. This work is focused on studying mechanical properties and cell interaction as a function of the chemical structure and hydrophobicity of different bioabsorbable polymers compared with non-absorbable polymers. Hydroxyapatite (HA) and Halloysite nanotube (HNTs) were used as fillers in order to grant better cell attachment, proliferation and differentiation along with hydrophobicity behaviour. For this end, it was aimed to firstly monitor the effects of bioactive fillers on the structural properties of bioabsorbable Polycaprolactone (PCL). Thus, mechanical and thermal properties of PCL were studied by modifying the additivation percentage of the bioactive fillers HA and HNTs. This preliminary study allowed to understand the synergic effect among the polymeric matrix and the functional groups present on the additives chemical structure by establishing the additivation threshold and optimizing the additivation rate. In general terms, a noticeable improvement of mechanical properties was achieved with the simultaneous addition of the two fillers. Additionally, taking advantages of the HNTs nano-tubular shape, those were studied as drug carrier structures and their loading and release ability with curcumin was monitored. Knowing in one side that HA promotes the formation of a layer of new bone composed of biological apatite and collagen; and in the other side, that HA and HNTs alter hydrophobicity behaviour; morphological properties supplied by both fillers were studied and compared among different pairs of polymers with similar chemical natures but different hydrophobicity. Accordingly, the hydrophobic polyester PCL was modified by its blending with Polylactic acid (PLA) and combined with HA nanoparticles and HNTs. On the other hand, the hydrophilic poly(2-hydroxyethyl methacrylate) (PHEMA) was copolymerized with ethyl methacrylate (EMA) and also combined with HA and HNTs. Thus, the effect of both fillers was studied on Hydroxyapatite nucleation, distribution of the fillers into the polymeric matrices and PCL/PLA degradation rate. Therefore, it was observed that introduction of HA in polymers with moderately hydrophilic character induce a higher rate of hydroxyapatite nucleation and a faster degradation rate. However, HNTs tends to form big aggregates when the hydrophilic character increases, driving to crack initiation sites and failure of the material. The completion of this study was accomplished by means of monitoring cell viability, proliferation, and morphology on the two pairs of polymers varying the polymer's chemical surface by blending hydrophilic and hydrophobic polymers, copolymerizing monomers of opposite natures, and/or loading the polymer matrix with nanoparticles such as HA or HNTs. Polymer surface wettability is known to affect cell attachment and can be enhanced by modifying the polymer with HA and HNT. In this way, improvement in cell viability with the addition of HA and HNTs was observed due to the generation of new reactive sites with Ca2+ and PO4 3¿ groups present in HA, and silanol groups (Si-OH) located at the surfaces of HNTs. Thus, it was concluded that on hydrophobic materials, due to a faster arrival rate of proteins, those compete for surface absorption driving to low interaction sites between cells and polymer surface showing a round shape. However, on hydrophilic materials, the highly solvated surface at initial stage limits protein arrival and allowed protein rearrangement and spreading over the surface promoting cell adhesion and proliferation with better cytoskeleton spreading.
Torres Roca, E. (2019). "Halloysite nanotubes/hydroxyapatite nanocomposites as hard tissue substitutes: effect on the morphology, thermomechanical behavior and biological development of aliphatic polyesters and polymethacrylates" [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/125709
TESIS
Quint, Karsten [Verfasser]. "Thermomechanically coupled processes for functionally graded materials : experiments, modelling, and finite element analysis using high-order DIRK-methods / Karsten Quint". Clausthal-Zellerfeld : Universitätsbibliothek Clausthal, 2012. http://d-nb.info/1024717844/34.
Texto completoCorvec, Guillaume. "Analyse thermomécanique du comportement des verres inorganiques par imagerie infrarouge quantitative". Thesis, Rennes 1, 2016. http://www.theses.fr/2016REN1S049/document.
Texto completoThe infrared thermography is used to analyse the mechanical behavior of materials. Since the 80's, it has rised with the appearance of the first sensors. Two principal techniques has been developed; the quantitative calorimetry and the thermoelastic stress analysis (TSA). Until today, most of the works has been carried out on metals and polymers. This manuscript takes-up the challenge of applying these techniques to glassy materials by developing a methodology to denoise infrared movies, which allows to preserve the spatial resolution of the thermal measurement. It allows to caracterise high gradients of low temperature variation fields. This methodology has been used to denoised thermal movies of glass samples submitted to a cyclic mechanical test. In a first time, it has been applied to study the thermal response of an imprint at the microscopic scale. In a second time, stress and heat sources fields have been determined at the macroscopic scale. This work provides new possibilities to study the thermomechanical behavior of brittle materials which present a low thermal response and high spatial gradients under mechanical loading. The target applications are the cracking phenomenom and the identification of constitutive parameters
Bondzio, Johannes Heinrich [Verfasser], Angelika [Akademischer Betreuer] [Gutachter] Humbert y Gerrit [Gutachter] Lohmann. "Analysis of Recent Dynamic Changes of Jakobshavn Isbrae, West Greenland, using a Thermomechanical Model / Johannes Heinrich Bondzio ; Gutachter: Angelika Humbert, Gerrit Lohmann ; Betreuer: Angelika Humbert". Bremen : Staats- und Universitätsbibliothek Bremen, 2017. http://d-nb.info/1136072926/34.
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