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Artykuły w czasopismach na temat "Plasticité induite par la transformation (TRIP)"
DIANI, J. M., J. Ph PONSONNAILLE, P. BENSUSSAN i M. BERVEILLER. "COMPORTEMENT SOUS SOLLICITATIONS DYNAMIQUES D'ACIERS PRÉSENTANT DE LA PLASTICITÉ INDUITE PAR TRANSFORMATION". Le Journal de Physique IV 01, nr C3 (październik 1991): C3–77—C3–83. http://dx.doi.org/10.1051/jp4:1991310.
Pełny tekst źródłaRozprawy doktorskie na temat "Plasticité induite par la transformation (TRIP)"
Tahimi, Abdeladhim. "Plasticité induite par transformations de phases dans les aciers : Expérience vs modélisations". Phd thesis, INSA de Rouen, 2011. http://tel.archives-ouvertes.fr/tel-00737534.
Pełny tekst źródłaLechartier, Audrey. "Influence de la transformation martensitique induite par la déformation sur le comportement mécanique d’aciers inoxydables duplex". Thesis, Université Grenoble Alpes (ComUE), 2015. http://www.theses.fr/2015GREAI107/document.
Pełny tekst źródłaDuplex stainless steels offer an attractive combination of high mechanical properties, low thermalconductivity and a relatively low cost. They are increasingly used as structural materials such as inthe construction sector as concrete reinforcement bars, where both high strength (Rm > 900 MPa)and high elongation to failure (A% > 15 %) are required. This thesis aims at improving the strength/ elongation compromise by developing new duplex stainless steel compositions experiencing a wellcontrolledmartensitic transformation induced by plasticity (TRIP effect). The optimisation of thiscompromise has required a good understanding of the transformation mechanisms and of plasticdeformation associated with each phase : ferrite (BCC), austenite (FCC) and martensite (BCC).The influence of martensitic transformation on mechanical behavior has been studied in four duplexgrades of variable austenite stability as a function of their chemical composition. The influence ofmultiphase microstructure on martensitic transformation kinetics has been determined by makingthree alloys respectively representative of a duplex grade and its two constituents (austenite andferrite). Using multiple characterization techniques at different scales has allowed determiningboth the transformation mechanisms and its kinetics as a function of strain, giving thus accessto the influence of transformation on the mechanical behavior. The study of kinematic fields hashighlighted the impact of the martensitic phase on the distribution of deformations. Finally, theuse of a mechanical model taking explicitly into account the phase transformation has allowed theduplication of the mechanical behavior of a duplex stainless steel
Jimenez, Reyes Jose. "Experimental and numerical contribution to the study of transformation induced plasticity (TRIP)". Electronic Thesis or Diss., Normandie, 2024. http://www.theses.fr/2024NORMIR20.
Pełny tekst źródłaThis thesis has been created with the objective of providing a contribution to the study of transformation induced plasticity (TRIP) via experimental and numerical analyses. To do so, from the experimental point of view, an original experimental program on 35NCD16 steel observing the behaviors of austenite → martensite transformations were performed under different loading conditions. The results indicate that: (i) TRIP does not hold any significant memory effect, (ii) the material may present recovery from strain hardening during the martensite → austenite transformation, (iii) a dissymmetry between the TRIP responses under tension and compression were observed, (iv) the existence of TRIP backstress was revealed, (v) the amount of final TRIP may be considered proportional to the norm of the applied stress as long as the latter does not exceed the yield stress, and (vi) a slight physical orientation has however been observed when carrying out microstructural analyses on our material, which could suggest a small contribution of the Magee mechanism in TRIP. As for the numerical side, the predictive capabilities of the Leblond – Taleb – Sidoroff (LTS) model, and its updated version (U – LTS) are put to the test by simulating the experimental tests performed for this study. Our results show that: (i) the LTS model overestimates the experimental results, (ii) the LTS model fails in describing the dissymmetry between the TRIP responses under tension and compression, (iii) when using the U – LTS model, the comparative results show excellent capabilities in simulating the experimental data base performed in this work, especially compared to the LTS model. While our experimental results showed significant results, especially when put up against to the models observed in our study, further research considering other steels and other transformations is recommended
Callahan, Michael. "Analyse de la cinétique de transformation et des instabilités de déformation dans des aciers TRIP "Moyen Manganèse" de 3ème génération". Thesis, Université Paris-Saclay (ComUE), 2017. http://www.theses.fr/2017SACLC065/document.
Pełny tekst źródłaThis thesis studies the mechanical behavior of a 0.2C-5Mn-2.5Al Medium Mn steel that exhibits a very high degree of work hardening due to transformation-induced plasticity (TRIP) during plastic deformation. During TRIP, paramagnetic retained austenite is transformed to ferromagnetic martensite with the application of plastic strain and generates a significant amount of work hardening. The rate of work hardening is seen to vary greatly depending on processing parameters—notably the intercritical annealing temperature. These steels also often deform heterogeneously through the propagation of Lüders or PLC strain bands.This research develops a method to characterize the kinetics of the TRIP effect through measurements of the samples magnetic properties. The method is novel in that it is performed in-situ with no effect on the tensile test and is able to correct for the effects of the applied stress on the magnetic properties. The results of these experiments were compared to characterizations of the strain bands to demonstrate that TRIP coincides with the passage of a Lüders or PLC band. The strain rate sensitivity of the steels is analyzed and the presence and type of PLC bands are characterized with respect to the transformation kinetics
Otsuka, Takayuki. "Modélisation micromécanique de la plasticité de transformation dans les aciers par homogénéisation numérique fondée sur la TFR". Thesis, Paris 13, 2014. http://www.theses.fr/2014PA132010/document.
Pełny tekst źródłaDuring phase transformation in steels, when stress is applied, significant large strain can be observed even though the applied stress is much smaller than the yield stress of the softest phase. The phenomenon is called Transformation Plasticity or TRansformation Induced Plasticity (TRIP). Transformation plasticity is known to play an important role during steel producing processes. For example, during quenching process of plates, sheets, wheels and gear products, the phenomenon affects their shape and residual stresses which determines the quality of products. In this PhD thesis, a micromechanical model of crystal plasticity with phase transformation is developed. It takes advantage of the fast Fourier transform (FFT) numerical scheme for periodic media. Volume expansion along with phase transformation (Greenwood-Johnson effect) is taken into account in the model in order to evaluate the transformation plasticity and mechanical behaviour during phase transformation. The FFT results confirm linear relation between applied stress and transformation plastic strain, if the applied stress does not exceed a half the value of yield stress of the parent phase. For relatively large applied stresses, transformation plastic strain increases nonlinearly with respect to the applied stress. These results agree well with experimental ones. The metallurgical and mechanical interactions during phase transformation are also analysed, such as texture, grain morphology, grain size, back stress effect and viscoplastic deformation effect. It is shown that they cannot be neglected for estimating transformation plasticity. Among others, the role of kinematic hardening of the parent phase on the resulting strain anisotropy is discussed. Finally, the FFT numerical results have been compared with existing analytical models as well as experimental results. Moreover, these FFT computations have been used as references to develop new approximate analytical models. They are shown to improve on previous proposals. These new models were confirmed that they estimate well the transformation plasticity than other analytical models which have been treated in this PhD thesis
Petroni, Laetitia. "Étude du comportement post-coulée de réfractaires électrofondus à Très Haute Teneure en Zircone (THTZ)". Phd thesis, École Nationale Supérieure des Mines de Paris, 2011. http://pastel.archives-ouvertes.fr/pastel-00657812.
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