Relevant bibliographies by topics / In-Situ tensile

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Academic literature on the topic 'In-Situ tensile'

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Published: 22 July 2023

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Journal articles on the topic "In-Situ tensile"

Sippola, M., and K. Frühmann. "In situ Longitudinal Tensile Tests of Pine Wood in an Environmental Scanning Electron Microscope." Holzforschung 56, no. 6 (November 5, 2002): 669–75. http://dx.doi.org/10.1515/hf.2002.101.

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Summary To study wood fracture on its cellular level, small tensile specimens of pine (Pinus sylvestris [L.]) were fractured in situ in tension inside the chamber of an ESEM (Environmental Scanning Electron Microscope). Fractured surfaces of macroscopic tensile test specimens were also studied with an ESEM. The same kind of fracture phenomena were observed in both small and large specimens. The in situ tests proved to be reproducible and the results revealed typical fracture propagation0 directions and order in softwood under longitudinal tension. The gradual change of material properties of wood in the radial direction was found to strongly influence the fracture process.

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Li, Ning, Hongwei Zhao, Mingjun Jin, Jianping Li, Xiaohang Dai, Zhanwei Huo, Shunbo Wang, Liguo Yang, and Xingdong Sun. "Influence of scratch type on tensile strength in in situ tensile test." Advances in Mechanical Engineering 9, no. 6 (June 2017): 168781401770713. http://dx.doi.org/10.1177/1687814017707130.

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Wu, Wei, Alexandru Stoica, Dunji Yu, Matthew Frost, Harley Skorpenske, and Ke An. "Bending Behavior of a Wrought Magnesium Alloy Investigated by the In Situ Pinhole Neutron Diffraction Method." Crystals 8, no. 9 (August 30, 2018): 348. http://dx.doi.org/10.3390/cryst8090348.

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The tensile twinning and detwinning behaviors of a wrought magnesium alloy have been investigated during in situ four-point bending using the state-of-the-art high spatial resolution pinhole neutron diffraction (PIND) method. The PIND method allowed us to resolve the tensile twinning/detwinning and lattice strain distributions across the bending sample during a loading-unloading sequence with a 0.5 mm step size. It was found that the extensive tensile twinning and detwinning occurred near the compression surface, while no tensile twinning behavior was observed in the middle layer and tension side of the bending sample. During the bending, the neutral plane shifted from the compression side to the tension side. Compared with the traditional neutron diffraction mapping method, the PIND method provides more detailed information inside the bending sample due to a higher spatial resolution.

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Ju, Dong Ying, J. G. Wang, and Minoru Abe. "In Situ Stress Measurement Method Based on X-Ray Diffraction under Biaxial Tensile Loading." Materials Science Forum 675-677 (February 2011): 615–18. http://dx.doi.org/10.4028/www.scientific.net/msf.675-677.615.

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The purpose of this investigation is to detect damage from stress distribution in the surface of near pre-crack tip by using X-ray diffraction technique during biaxial tension test. An measurements apparatus to measure stress distribution along pre-crack direction was fabrication by use of a biaxial tensile test device and a stress analyzer based on single exposure technique with one position sensitive proportional counter. Stress distribution with different tensile applied stress ratios were measured during biaxial tension test. As results, the shape of actual stress was keeping increase with increasing tensile applied stress. At maximum applied stress, the residual stress increases with the increasing distance from the crack tip; after reaching a maximum it gradually diminish.

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Li, Wansong, Shigeto Yamasaki, Masatoshi Mitsuhara, and Hideharu Nakashima. "In-situ EBSD characterization of deformation behavior of primary alpha phase in Ti-6Al-4V." MATEC Web of Conferences 321 (2020): 11053. http://dx.doi.org/10.1051/matecconf/202032111053.

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Uniaxial tension experiments and electron back-scatter diffraction were performed on a bimodal Ti-6Al-4V alloy to study the deformation behavior of primary hcp-Ti (αp). It was found that the obtained tensile strength and elongation of the studied Ti-6Al-4V from the in-situ tensile test are higher than of which derived from the regular tensile test. The strain could be accommodated by the activation of slip systems and by grain rotations during the deformation. The prismatic slip is the primary slip mode of αp. According to kernel average misorientation analysis, we found that the dislocations mainly distributed near grain boundaries and subgrain boundaries, and partially located around slip lines. Calculated rotation angles and average rotation rates show that the rotation heterogeneity occurred among grains and subgrains.

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Yue, Y.-L., C. Zhang, H. Zhang, D.-H. Zhang, X. Chen, Y.-F. Chen, and Z. Zhang. "Tensile properties of in-situ precipitated polydimethylsiloxane networks." Express Polymer Letters 7, no. 10 (2013): 863–72. http://dx.doi.org/10.3144/expresspolymlett.2013.83.

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Yamashita, Makoto, Masatoshi Harada, and Akio Yasui. "The Tensile Strength of In-Situ Geotextile Joints." Proceedings of geotextile symposium 5 (1990): 7–13. http://dx.doi.org/10.5030/jcigsjournal1986.5.7.

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Zhichao Ma, Zhichao Ma, Hongwei Zhao, Hu Huang Hu Huang, Kaiting Wang, Qinchao Li Qinchao Li, Xiaoqin Zhou, and Xiaoli Hu Xiaoli Hu. "A Miniaturized In Situ Tensile Platform under Microscope." TELKOMNIKA (Telecommunication Computing Electronics and Control) 10, no. 3 (September 1, 2012): 524. http://dx.doi.org/10.12928/telkomnika.v10i3.832.

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Sasazaki, Y., R. C. Shore, and B. B. Seedhom. "Response of chondrocytes to tensile strain in situ." Journal of Biomechanics 39 (January 2006): S449. http://dx.doi.org/10.1016/s0021-9290(06)84836-0.

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Hoseini, Majid, and Mahmood Meratian. "Tensile properties of in-situ aluminium–alumina composites." Materials Letters 59, no. 27 (November 2005): 3414–18. http://dx.doi.org/10.1016/j.matlet.2005.06.006.

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Dissertations / Theses on the topic "In-Situ tensile"

Lee, Kok Loong. "Deformation behaviour of Cu-Cr in-situ composite." Thesis, University of Leicester, 2004. http://hdl.handle.net/2381/11077.

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With the increasing requirements for higher strength materials with high electrical conductivity, a lot of interest has been paid to develop Cu-based composites in the last 25 years. These composites have superior tensile strength, combined with good electrical conductivity, to that exhibited by pure Cu and conventional Cu alloys. To date, much of the research carried out on this composite has focused on the mechanical and electrical properties of the as processed material. However, there is a basic lack of understanding of the way in which the properties may change or degrade during service. Without this knowledge, these composites cannot be fully and safely exploited. Thus the objective of this study was to investigate the thermo-mechanical behaviour of a Cu-Cr composite, and the nature and extent of any damage mechanisms occurring within the composite over a wide range of experimental conditions. Neutron diffraction was used to investigate the deformation behaviour of the individual phases in the composite and their interaction through elastic and plastic loading at room temperature. For the composite, a fairly good agreement was observed in the phase strains predicted by the Eshelby theory and measured by neutron diffraction. In-situ tensile tests in the SEM were also performed to study the damage mechanism of the composite. Tensile and creep tests were carried out in air and in vacuum over a wide range of temperatures. To provide data for comparison with the composite material, pure Cu specimens were tested whenever possible. Creep resistance increases significantly with the introduction of Cr fibres into Cu. The higher creep rate of the composite in air than in vacuum is due to the gradual decrease of the cross-sectional area of the matrix due to increasing thickness of the oxide layer. Damage characteristics and distributions were found to be similar during tensile and creep testing.

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Lind, Jonathan F. "In-situ High-Energy diffraction Microscopy Study of Zirconium Under Uni-axial Tensile Deformation." Research Showcase @ CMU, 2013. http://repository.cmu.edu/dissertations/301.

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The ability to predict a material's performance while being subject to complex thermo-mechanical processing is of great importance for material design and implementation in the real world. A material's behavior and performance has been shown to depend on its underlying microstructure. Recent advances in x-ray-based characterization of bulk microstructures while in service has lead to validation and constraints of models used for predictive responses. Specifically the use of Near-Field High Energy X-ray Diffraction Microscopy (nf-HEDM) with Forward Modeling Method (FMM) to obtain spatially-resolved microstructures and microtextures has been a breakthrough in fully characterizing bulk materials in-situ. New advanced data processing methods have been applied to nf-HEDM diffraction images to assist in fidelity of microstructure reconstructions returned via the FMM. Here we present the development and results of one study of pure Zirconium as it is subjected to several states of uni-axial loading. The local feature tracking, including tensile twin nucleation and void formation, as well as global evolution is discussed.

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Eriksen, Lars. "Combined EBSD-Investigations and In-situ Tensile Tests of a Direct Metal Deposited Ti6Al4V-Alloy." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for materialteknologi, 2013. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-22438.

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Two blocks made of Ti6Al4V material produced by Norsk Titanium Components ned Direct Metal Deposition (DMD) production technology were delivered for this investigation. The main difference between the blocks was the different waiting time implemented in the production parameters. The different waiting time implied that the material were allowed to cool to a deisred Interpass Temperature (IT). The blocks are referred to as T200 and T600 after their lowest IT of <200 degrees celsius and 500-700 degrees celsius, respectively. Sintef Manufacturing Raufoss reported elongations of 5% and 8% in the deposition-direction of the two blocks, which was lower than the 10% elongation obtained for the building-direction. The objective was to find any explanations for the impaired ductility in the deposition-direction, and why T200 have a lower elongation than T600. To reveal differences in micro- macrostructure and deformation-mechanisms between the blocks was combined EBSD+In-situ. tensile tests the main tool. Complementary studies with optical microscopy of etched in-situ specimens were also performed.The work started with an extensive macroetching of different planes relative to the deposition-direction. This revealed a 3D-image of the epitaxially growing solidification structure of columnar prior beta grains. Measurements of grain size and morphology did not indicate significant differences between the blocks. Later was EBSD selected to prior beta grain boundaries for specimens at the center of the blocks. Measurements of the thickness of primary alfa phase also indicated small differences between the blocks. From this it was concluded that the different ITs lead to small differences in solidification structure and the amount of primary alfa phase in the center of the blocks.The EBSD + in-situ tensile tests were carried out for specimens fabricated from the blocks in the deposition direction, such that investigation could be performed in the XZ-plane. The force was applied parallel to the deposition direction X. The in-situ specimens in block T200 had a slightly higher position in the block giving a finer microstructure because of faster cooling rates. The T200 specimens also contained to deposition layers in contrast to only one in T600 specimens. This made a direct comparison difficult. However, from the four in-situ specimens investigated was the following concluded: specimens from T200 deformed more homogeneously on a macroscale. Correspondingly was more activity observed at prior beta grain boundaries for T600. The more active grain boundaries in T600 may result from the different cooling rates from the peak temperature. Slower cooling rates will give smaller prior beta grains decorated with more homogeneous alfa phase along the boundaries of T600 specimens. The frequently reported detrimental mismatch between soft and hard HCP-grains in titanium alloys were also observed. However, the orientation and morphology of these grains seems to play an important role. Cracks growing along prior beta grains were always located at the side having a non-Burgers orientation relationship. The lamellar basketweave microstructure also seem quite effective to stop cracks from growing further, because of the plates having distinct orientations.This work has also uncovered the transition in microstructure between the substrate plate and first deposition layer. The microstructure develops from a very fine bimodal plate structure, through a equiaxed region with small amounts of primary alfa phase, to early stages of the columnar beta grain configuration. The first columnar beta grains are very small in size compared to higher up in the block, and they contains very small amounts of primary alfa phase. However, the basketweave microstructure develops relatively close to the substrate plate.

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Wang, Wenbo. "Failure Analysis of High Nickel Alloy Steel Seal Ring Used in Turbomachinery." Scholar Commons, 2017. http://scholarcommons.usf.edu/etd/6635.

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The system of upper high nickel alloying steel seal ring and lower high nickel alloying steel seal ring, installed in the grooves of turbine, can extend out and fit with the wall of valve cage, resulting in forming a good seal under the pressure. In the project, the failure steel seal ring is considered. This situation had threatened the safety of the whole steam turbine system. The purpose of this study is to identify the failure cause of the steel seal ring used in nuclear steam turbines. New high nickel steel alloy seal ring was compared with the failed seal ring. The dimensions of macroscopic ring with clearly plastic deformation were measured using calipers. Surface morphology of ring was observed by optical microscopy through metallographic analysis. There is a lot of precipitation in the grain boundaries of used seal ring, along with smaller grain size than the new seal ring. To explore the composition of precipitation, scanning electron microscopy (SEM) with energy-dispersive spectrometer (EDS) were used. The results indicated that the concentration of titanium (Ti) and molybdenum (Mo) was higher in the precipitation of used seal ring. At the same time, the hardness and elastic modulus of used seal ring were reduced, measured by nanoindentation test. In-situ SEM tensile testing were used to record and analyze the generation of crack source and crack development under applied load. The reasons of the seal ring failure can be answered because of these experimental results at both macroscopic and microscopic scales. The main reason of the seal ring failure is a combination of long-term stress and elevated temperature during turbine operation. Complex work environment caused recrystallization and recovery, resulting in grain refinement and secondary phase precipitation. Further embodiment, recrystallization and recovery caused the elastic modulus and hardness of used seal ring decrease. Moreover, a lot of secondary phase precipitates appeared at grain boundaries during use. The appearance of secondary phase precipitates become the weakest part of used seal ring. The applied load lead to seal ring failure from the formation of microvoids to microvoids aggregated becoming microcracks until to the appearance of cracks at macroscopic scale. These changes of microscopic structure ultimately reflected in critical plastic deformation of used seal ring.

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Böhm, Jochen. "In situ tensile testing at the limits of X-ray diffraction a new synchrotron-based technique." Stuttgart Max-Planck-Inst. für Metallforschung, 2004. http://deposit.d-nb.de/cgi-bin/dokserv?idn=972182810.

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Grippo, Christian P. (Christian Patrick) 1969. "Design and manufacturing of a tensile text machine for in-situ atomic force microscope mechanical testing." Thesis, Massachusetts Institute of Technology, 2003. http://hdl.handle.net/1721.1/89386.

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Déprez, Pascal. "Contribution à l'étude de la forgeabilité et de la criquabilité des aciers de coulée continue." Valenciennes, 1993. https://ged.uphf.fr/nuxeo/site/esupversions/7bbe5533-fb40-4a89-a728-8816cc7f22f3.

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L’un des enjeux actuels de la sidérurgie concerne l'enfournement à chaud des produits de coulée continue avant laminage. Il devient donc primordial d'éviter l'apparition de criques d'origine thermique ou mécanique. Un essai de traction à chaud après refusion, sans phase de retour à la température ambiante, a été développé de façon à reproduire la microstructure des produits de coulée continue. Les résultats obtenus sur différentes nuances d'aciers ont permis de mettre en évidence des écarts significatifs de ductilité et de sensibilité à la crique, dans les gammes de températures concernées, entre les essais conventionnels par reausténisation et les essais après fusion in situ. Ces écarts se justifient par la taille des grains austénitiques, la répartition des ségrégations, la cinétique de formation de la ferrite ou encore l'aptitude à la recristallisation dynamique de l'austénite. L’influence du mode de solidification, de la teneur en carbone et de la présence d'éléments de microalliage tels le niobium et le vanadium a été étudiée. Les modes de rupture ont été analysés pour différentes conditions de déformation. Il a été montré que l'évaluation objective de la forgeabilité et de la criquabilité, nécessitait le recours à des essais prenant en compte l'histoire thermique du métal, en particulier pour les aciers présentant une réaction péritectique durant la solidification.

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Babinský, Tomáš. "Rekrystalizace automatové oceli studované technikou in-situ SEM/EBSD." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2018. http://www.nusl.cz/ntk/nusl-378404.

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Placing recrystallization annealing in a manufacturing proces is often necessary in order to restore plasticity of worked blanks right before working products to its final shape. For better understanding of processes which are taking place in a material during annealing the use of in-situ techniques is favorable. Such observations enable us to watch changes in the materiál in real time at the original spot. Observations at grain-level are ideally made with scanning electron microscope – SEM by electron back-scattered diffraction – EBSD. The technique makes watching nucleation, growth and potential coarsening of recrystallized grains possible. Special construction of a tensile stage allows us to watch changes of a sample during tensile tests which can be used in observing influence of MnS inclusions on plasticity of free-cutting steels. Materials studied in this work are commonly used free-cutting steel 11SMnPb30 and its lead-free alternative 11SMnBi30.

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Kasvayee, Keivan Amiri. "Microstructure and deformation behaviour of ductile iron under tensile loading." Licentiate thesis, Tekniska Högskolan, Högskolan i Jönköping, JTH. Forskningsmiljö Material och tillverkning – Gjutning, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-28335.

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The current thesis focuses on the deformation behaviour and strain distribution in the microstructure of ductile iron during tensile loading. Utilizing Digital Image Correlation (DIC) and in-situ tensile test under optical microscope, a method was developed to measure high resolution strain in microstructural constitutes. In this method, a pit etching procedure was applied to generate a random speckle pattern for DIC measurement. The method was validated by benchmarking the measured properties with the material’s standard properties. Using DIC, strain maps in the microstructure of the ductile iron were measured, which showed a high level of heterogeneity even during elastic deformation. The early micro-cracks were initiated around graphite particles, where the highest amount of local strain was detected. Local strain at the onset of the micro-cracks were measured. It was observed that the micro-cracks were initiated above a threshold strain level, but with a large variation in the overall strain. A continuum Finite Element (FE) model containing a physical length scale was developed to predict strain on the microstructure of ductile iron. The materials parameters for this model were calculated by optimization, utilizing Ramberg-Osgood equation. For benchmarking, the predicted strain maps were compared to the strain maps measured by DIC, both qualitatively and quantitatively. The DIC and simulation strain maps conformed to a large extent resulting in the validation of the model in micro-scale level. Furthermore, the results obtained from the in-situ tensile test were compared to a FE-model which compromised cohesive elements to enable cracking. The stress-strain curve prediction of the FE simulation showed a good agreement with the stress-strain curve that was measured from the experiment. The cohesive model was able to accurately capture the main trends of microscale deformation such as localized elastic and plastic deformation and micro-crack initiation and propagation.

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Mathisen, Martin Borlaug. "In-Situ Tensile Testing Combined with EBSD Analysis of Ti-6Al-4V Samples from Components Fabricated by Additive Layer Manufacture." Thesis, Norges teknisk-naturvitenskapelige universitet, Institutt for materialteknologi, 2012. http://urn.kb.se/resolve?urn=urn:nbn:no:ntnu:diva-18905.

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ALM-based production of Titanium components shows great promise in supplying cost-effective products within industries such as energy, chemical processing and aerospace. In common for all is high quality demands. This necessitates extensive research into the intricacies of this production process. Complex microstructures comprised of columnar remnants of directionally solidified β-Titanium, with interior inhabited by colonies of finer α-plate structures were found in samples produced by layered plasma welding of alloy Ti-6Al-4V. Utilising the powerful characterisation tool of in-situ tensile tests combined with EBSD analysis allowed qualitative correlation between microstructural features and deformation characteristics. Non-uniform deformation occurs due to a strong variation of strain response between colonies. Prismatic and basal slip systems are active, with the prismatic systems contributing to the most severe deformation through coarse, widely spaced slip bands. Certain colonies behave as microstructural units, with easy slip transmission across the entire colony. Other colonies show significant deformation mismatch, with local build up of strain gradients and stress concentration. Segmentation occurs due to the growth morphology imposed by the columnar grains. Tensile tests perpendicular to columnar structures reveal strong deformation localization. Connections are made between the peculiarities of the production process and the observed microstructure and deformation mechanisms.

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Books on the topic "In-Situ tensile"

J, Fields R., and National Institute of Standards and Technology (U.S.), eds. A computer-controlled tensile stage for in-situ X-ray measurements. Gaithersburg, MD: U.S. Dept. of Commerce, Technology Administration, National Institute of Standards and Technology, 1997.

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T, Bhatt Ramakrishna, United States. Army Aviation Research and Technology Activity., and United States. National Aeronautics and Space Administration., eds. In-situ x-ray monitoring of damage accumulation in SiC/RBSN tensile specimens. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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In-situ x-ray monitoring of damage accumulation in SiC/RBSN tensile specimens. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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Book chapters on the topic "In-Situ tensile"

Zhao, Yu, Yongfa Zhang, and Pengfei He. "Fracture Initiation." In Hydraulic Fracturing and Rock Mechanics, 157–63. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-2540-7_6.

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AbstractField in-situ constant-flow hydraulic fracturing test is an important technique to determine the tectonic stress field. Classical hydraulic fracturing mechanics regards the maximum tensile stress criterion as the critical initiation condition, which assumes that the hydraulic fracture initiates and expands when the maximum effective tangential stress around the wellbore is larger than the tensile strength of the rock, resulting in tensile failure of the rock.

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Shao, Hui, Di Shan, Kaixuan Wang, Yongfeng Ding, Yunjin Lai, Guojun Zhang, and Yongqing Zhao. "In Situ Notched Tensile Fracture of TC21 Alloy with Different Microstructures." In High Performance Structural Materials, 521–30. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0104-9_55.

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Podesta, L., B. Wattrisse, F. Latourte, L. Waltz, and J. M. Muracciole. "In-Situ Tensile Test on 316H Sent Using Digital Image Correlation." In Conference Proceedings of the Society for Experimental Mechanics Series, 45–52. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-42028-8_6.

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Cao, Rui, Jian Hong Chen, and J. Zhang. "Study on Fracture Mechanisms of TiAl Alloys by In Situ Tensile Tests." In Key Engineering Materials, 34–37. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-456-1.34.

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Huang, L. J., L. Geng, and Y. Z. Zhang. "Superplasitic Tensile Behavior of in Situ TiBw/Ti6Al4V Composite with Novel Network Microstructure." In PRICM, 1501–6. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2013. http://dx.doi.org/10.1002/9781118792148.ch189.

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Huang, L. J., L. Geng, and Y. Z. Zhang. "Superplasitic Tensile Behavior of in Situ TiBw/Ti6Al4V Composite with Novel Network Microstructure." In Proceedings of the 8th Pacific Rim International Congress on Advanced Materials and Processing, 1501–6. Cham: Springer International Publishing, 2013. http://dx.doi.org/10.1007/978-3-319-48764-9_189.

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Jin, Hanxun, Catherine Machnicki, John Hegarty, Rodney J. Clifton, and Kyung-Suk Kim. "Understanding the Nanoscale Deformation Mechanisms of Polyurea from In Situ AFM Tensile Experiments." In Challenges in Mechanics of Time Dependent Materials, Mechanics of Biological Systems and Materials & Micro-and Nanomechanics, Volume 2, 45–51. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-86737-9_6.

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Francois, Nicolas, Yulai Zhang, Richard Henley, Ron Cruikshank, Ajay Limaye, Michael Turner, Levi Beeching, Andrew Kingston, Mohammad Saadatfar, and Mark Knackstedt. "In Situ Microtomography of the Tensile Fracture and Fragmentation of Porphyry Copper Ores." In Album of Porous Media, 43. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-23800-0_31.

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Ignat, M., and J. Pelissier. "Microstructures and Crack Opening in a Nickel-Base Superalloy Deformed by In-Situ Tensile Tests." In Mechanical Behavior of Materials, 27–33. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-1968-6_3.

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Akiniwa, Yoshiaki, Tsuyoshi Suzuki, and K. Tanaka. "In Situ X-Ray Stress Measurement in Electrodeposited Cu Foils under Tensile and Fatigue Loading." In Key Engineering Materials, 2395–98. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-456-1.2395.

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Conference papers on the topic "In-Situ tensile"

Li, Li, Matthew Kellum, and Angela Doan. "In-situ Tensile Strength Testing: Awareness of Variations with Testing Environment." In SPE Deepwater Drilling and Completions Conference. Society of Petroleum Engineers, 2016. http://dx.doi.org/10.2118/180347-ms.

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Meyers, Jason M., Jeffrey Schindler, Brandon J. Voll, Ian Ballou, and Doulgas Fletcher. "In situ Carbon-Carbon Tensile Testing in an Inductively Couple Plasma Facility." In AIAA AVIATION 2022 Forum. Reston, Virginia: American Institute of Aeronautics and Astronautics, 2022. http://dx.doi.org/10.2514/6.2022-3727.

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Samuel, B. A., and M. A. Haque. "Tensile Deformation Study on Biological Cells." In ASME 2008 International Mechanical Engineering Congress and Exposition. ASMEDC, 2008. http://dx.doi.org/10.1115/imece2008-67683.

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We demonstrate experimental mechanical testing of single live biological cells in-situ under an optical microscope. Tensile loading was the mode of load application and the response of live biological cells were observed in-situ. The experimental set-up is small enough to fit within the stage of a fluorescence microscope. Bovine Aortic Endothelial cells were tested in this study and were found to be able to undergo very large applied strains without loss of cell’s mechanical integrity.

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Tominaga, Manabu, Satoru Toyooka, Hisanori Taniyama, and Qing-Chuan Zhang. "In-situ observation of tensile experiments on austenitic stainless steel by ESPI." In Optical Engineering for Sensing and Nanotechnology (ICOSN '01), edited by Koichi Iwata. SPIE, 2001. http://dx.doi.org/10.1117/12.427023.

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"Evaluation of Procedures for In Situ Tensile Bond Testing of Concrete Repairs." In "SP-200: Fifth CANMET/ACI Conference on Recent Advances in Concrete Technology-Proceeding, Fifth International Conference". American Concrete Institute, 2001. http://dx.doi.org/10.14359/10575.

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Zhou, Suxia, Eric Maire, Jilong Xie, Andrea Bareggi, Jerome Adrien, and Marco Dimichiel. "Damage assessment of Al alloys using in situ tensile tests in x-ray tomography." In International Conference on Experimental Mechnics 2008 and Seventh Asian Conference on Experimental Mechanics, edited by Xiaoyuan He, Huimin Xie, and YiLan Kang. SPIE, 2008. http://dx.doi.org/10.1117/12.839378.

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Yang, Yang, Meng Liu, Yan Cui, Tie Li, and Yuelin Wang. "Irradiation Induced Phase Transition of Single V2O5Nanowire under in situ TEM Tensile Testing." In 2018 IEEE 18th International Conference on Nanotechnology (IEEE-NANO). IEEE, 2018. http://dx.doi.org/10.1109/nano.2018.8626381.

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Jang, Hoon-sik, Sung-hwan Kwon, Yun-hee Lee, Un-bong Baek, Jong-seo Park, Am-kee Kim, and Seung-hoon Nahm. "In-situ Resistance Measurements during Tensile Test of Carbon Nanotube using Nano-manipulator." In 2006 SICE-ICASE International Joint Conference. IEEE, 2006. http://dx.doi.org/10.1109/sice.2006.314788.

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Schryvers, Dominique. "Stress induced martensitic transformation in Ni-Ti observed by in-situ tensile straining in TEM." In European Microscopy Congress 2020. Royal Microscopical Society, 2021. http://dx.doi.org/10.22443/rms.emc2020.344.

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Landau, Peri, Roni Z. Shneck, Guy Makov, and Arie Venkert. "In-Situ Observations of Dislocation Patterning in Deformed Polycrystalline Aluminum." In ASME 2008 9th Biennial Conference on Engineering Systems Design and Analysis. ASMEDC, 2008. http://dx.doi.org/10.1115/esda2008-59595.

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The formation and evolution of dislocation patterns in pure polycrystalline aluminum was examined using transmission electron microscopy. The conventional characterization of the deformed samples was combined with in-situ tensile tests of prestrained samples which were carried out in order to get a better understanding of dislocation motion during deformation. The role of different types of boundaries was studied and it was found that while dense dislocation walls have an ordered structure since they are geometrically necessary, incidental dislocation boundaries can change their configuration from tangled to ordered.

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Reports on the topic "In-Situ tensile"

Levine, L. E., and R. J. Fields. A computer-controlled tensile stage for in-situ x-ray measurements. Gaithersburg, MD: National Institute of Standards and Technology, 1997. http://dx.doi.org/10.6028/nist.ir.5867.

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Mathey, Robert G., and Lawrence I. Knab. Uniaxial tensile tests to measure the bond of in situ concrete overlays. Gaithersburg, MD: National Institute of Standards and Technology, 1991. http://dx.doi.org/10.6028/nist.ir.4648.

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Miao, Yinbin, Kun Mo, Jun-Sang Park, Jonathan Almer, Caleb Massey, Cody Havrilak, Andrew Nelson, Heather Connaway, and Abdellatif Yacout. In Situ Synchrotron Tensile Investigations on Ultrasonic Additive Manufactured (UAM) Zirconium. Office of Scientific and Technical Information (OSTI), June 2021. http://dx.doi.org/10.2172/1807682.

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Larsen, J. M., C. J. Szczepanski, P. A. Shade, R. Wheller, and S. K. Jha. Adaption of an In-Situ Microscale Tension Technique to Enable Fatigue Testing (PREPRINT). Fort Belvoir, VA: Defense Technical Information Center, August 2012. http://dx.doi.org/10.21236/ada565514.

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Warrick, Arthur, Uri Shani, Dani Or, and Muluneh Yitayew. In situ Evaluation of Unsaturated Hydraulic Properties Using Subsurface Points. United States Department of Agriculture, October 1999. http://dx.doi.org/10.32747/1999.7570566.bard.

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The primary information for accurately predicting water and solute movement and their impact on water quality is the characterization of soil hydraulic properties. This project was designed to develop methods for rapid and reliable estimates of unsaturated hydraulic properties of the soil. Particularly, in situ methodology is put forth, based on subsurface point sources. Devices were designed to allow introduction of water in subsurface settings at constant negative heads. The ability to operate at a negative head allows a direct method of finding unsaturated soil properties and a mechanism for eliminating extremely rapid preferential flow from the slow matrix flow. The project included field, laboratory and modeling components. By coupling the measurements and the modeling together, a wider range of designs can be examined, while at the same time realistic performance is assured. The developed methodology greatly expands the possibilities for evaluating hydraulic properties in place, especially for measurements in undisturbed soil within plant rooting zones. The objectives of the project were (i) To develop methods for obtaining rapid and reliable estimates of unsaturated hydraulic properties in situ, based on water distribution from subsurface point sources. These can be operated with a constant flow or at a constant head; (ii) To develop methods for distinguishing between matrix and preferential flow using cavities/permeameters under tension; (iii) To evaluate auxiliary measurements such as soil water content or tensions near the operating cavities to improve reliability of results; and (iv: To develop numerical and analytical models for obtaining soil hydraulic properties based on measurements from buried-cavity sources and the auxiliary measurements. The project began in July 1995 and was terminated in November 1998. All of the objectives were pursued. Three new subsurface point sources were designed and tested and two old types were also used. Two of the three new designs used a nylon cloth membrane (30 mm) arranged in a cylindrical geometry and operating at a negative water pressure (tension). A separate bladder arrangement allowed inflation under a positive pressure to maintain contact between the membrane and the soil cavity. The third new design used porous stainless steel (0.5 and 5 mm) arranged in six segments, each with its own water inlet, assembled to form a cylindrical supply surface when inflated in a borehole. The "old" types included an "off-the-shelf" porous cup as well as measurements from a subsurface drip emitter in a small subsurface cavity. Reasonable measurements were made with all systems. Sustained use of the cloth membrane devices were difficult because of leaks and plugging problems. All of the devices require careful consideration to assure contact with the soil system. Steady flow was established which simplified the analysis (except for the drip emitter which used a transient analysis).

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