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Journal articles on the topic 'Deformation Processing'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Sellars, C. M. "Hot deformation processing." Materials Science and Technology 8, no. 2 (1992): 134. http://dx.doi.org/10.1179/mst.1992.8.2.134.

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2

Korznikova, Galia F., Alexander P. Zhilyaev, Aygul A. Sarkeeva, et al. "Metallic Composites, Prepared by Deformation Processing." Materials Science Forum 1016 (January 2021): 1759–64. http://dx.doi.org/10.4028/www.scientific.net/msf.1016.1759.

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The main point of successful manufacture of metallic composites by direct bonding of dissimilar materials is achieving a homogeneous interface bonding. Two different types of deformation techniques for fabrication of metal composites were investigated. The first one was developed on the basis of high pressure torsion associated with a high energy impact on the material where part of energy involved can be dissipated via non equilibrium phase transition realization. This deformation due to high shear deformations allows not only to form a nanostructure, but also to bond dissimilar metals. Moreo
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3

Saul, Joachim, and Lev Vinnik. "Mantle deformation or processing artefact?" Nature 422, no. 6928 (2003): 136. http://dx.doi.org/10.1038/422136a.

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4

Wookey, James, J. Michael Kendall, and Guilhem Barruol. "Mantle deformation or processing artefact?" Nature 422, no. 6928 (2003): 136. http://dx.doi.org/10.1038/422136b.

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5

Lowe, T. C. "Computer Simulation of Deformation Processing." JOM 40, no. 4 (1988): 6–11. http://dx.doi.org/10.1007/bf03259011.

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6

Донченко, О., Oleg Donchenko, И. Дегтев, et al. "DEFORMATION OF HORIZONTAL JOINTS’ MORTAR OF MASONRY UNDER COMPRESSION." Bulletin of Belgorod State Technological University named after. V. G. Shukhov 4, no. 5 (2019): 42–49. http://dx.doi.org/10.34031/article_5ce292c9b184d5.39570191.

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The necessity of establishing and determining the consistency of mortars deformation in the horizontal joints of masonry is established: in the absence and development of cracks and with the exhaustion of resistance ranging from 80 – 85 % of the total deformation of masonry under short-term compression. Attention is paid to the absence of reports in the scientific literature on the conduct and results of research on the spatial stress-deformative state of the mortar in the joints of masonry under compression. The advantages of studying the secant modulus of deformation Ep are emphasized in sol
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7

Ohmori, Masanobu. "Role of pressure in deformation processing." Bulletin of the Japan Institute of Metals 26, no. 9 (1987): 837–41. http://dx.doi.org/10.2320/materia1962.26.837.

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8

Segal, V. M. "Metal processing by severe plastic deformation." Russian Metallurgy (Metally) 2006, no. 5 (2006): 474–83. http://dx.doi.org/10.1134/s003602950605017x.

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9

Wilde, Gerhard, Guru Prasad Dinda, and Harald Rösner. "Deformation processing of massive nanostructured materials." International Journal of Materials Research 98, no. 4 (2007): 299–306. http://dx.doi.org/10.3139/146.101474.

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10

Rosochowski, Andrzej. "Processing Metals by Severe Plastic Deformation." Solid State Phenomena 101-102 (January 2005): 13–22. http://dx.doi.org/10.4028/www.scientific.net/ssp.101-102.13.

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Severe plastic deformation (SPD) is used to convert traditional coarse grain metals and alloys into ultrafine-grained (UFG) materials. UFG materials possess a number of improved mechanical and physical properties which destine them for a wide commercial use. However, any attempt to use SPD technology commercially requires a better insight into the mechanics and practicality of SPD processes. This paper looks into historical development of SPD processes and focuses on such aspects of SPD as material flow, role of hydrostatic pressure, friction, geometry of tools, billet and feeding consideratio
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11

Fang, Yu, Minchen Li, Chenfanfu Jiang, and Danny M. Kaufman. "Guaranteed globally injective 3D deformation processing." ACM Transactions on Graphics 40, no. 4 (2021): 1–13. http://dx.doi.org/10.1145/3476576.3476629.

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12

Fang, Yu, Minchen Li, Chenfanfu Jiang, and Danny M. Kaufman. "Guaranteed globally injective 3D deformation processing." ACM Transactions on Graphics 40, no. 4 (2021): 1–13. http://dx.doi.org/10.1145/3450626.3459757.

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13

Polyakova, Marina, and Yulia Efimova. "Peculiarities of Medium Carbon Steel Wire Microstructure Formation after Different Kinds of Deformational Processing." Solid State Phenomena 278 (July 2018): 72–77. http://dx.doi.org/10.4028/www.scientific.net/ssp.278.72.

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At present time tendencies in the development of engineering and technologies in the manufacturing the metal ware need the effective complex impact on material microstructure by methods of different nature. Special attention should be paid to the combined processes of deformational treatment which are constructed on such basic operations as drawing, rolling, pressing, etc. Despite a plenty of studies and high efficiency of combined methods the problem of understanding the scientific grounds for choice the processing parameters which ensure the guaranteed level and high stability of metals and
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14

Fukuda, Takayuki, Hironobu Nisitani, and Kikuhito Kawasue. "Quantitative Measurement of Micro-Deformation of Electropolished Carbon Steel Using an Image Processing Technique." International Journal of Modern Physics B 17, no. 08n09 (2003): 1691–96. http://dx.doi.org/10.1142/s0217979203019526.

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An automatic technique for the quantitative measurement of micro-surface deformation of a specimen using image-processing is introduced. Static tensile and torsional tests of two kinds of electropolished carbon steels are carried out. One has a banded structure and another has not. The banded structure gives a great influence on the micro-deformation depending on the type of loads. The characteristics of micro-deformations under these static loads are made clear from the results obtained by the image-processing technique.
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15

Nosov, Nikolay V., Yuri I. Kurguzov, and Dmitry A. Lyushnya. "Investigation of Residual Stresses during Processing of GTE Blades with Microbeads." Materials Science Forum 1037 (July 6, 2021): 547–51. http://dx.doi.org/10.4028/www.scientific.net/msf.1037.547.

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A method for determining the residual stress through the deformation of a witness sample during pneumatic blasting of gas turbine engine parts with microbeads is proposed. During the study, the processing modes and the diameter of the microbeads were changed. It is shown that with an increase in the diameter of the micro-ball from 0.3 mm to 0.7 mm, the deformation of the samples increased by 2 times, and with an increase in the speed of their movement from 70 m/s to 90 m/s by 50 %. The mechanism of formation of residual stresses and deformations of the treated surface of the witness sample is
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16

Susan, M., L. G. Bujorenau, D. G. Gǎluşcǎ, C. Munteanu, and V. Iliescu. "Influence of the relative deformation rate on tube processing by ultrasonic vibration drawing." Revista de Metalurgia 40, no. 2 (2004): 109–17. http://dx.doi.org/10.3989/revmetalm.2004.v40.i2.250.

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17

Fu, Cheng-Biao, An-Hong Tian, Her-Terng Yau, and Mao-Chin Hoang. "Thermal monitoring and thermal deformation prediction for spherical machine tool spindles." Thermal Science 23, no. 4 (2019): 2271–79. http://dx.doi.org/10.2298/tsci1904271f.

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Machine tool operations and processing can cause temperature changes in various components because of internal and external thermal effects. Thermal deformations caused by thermal effect in machine tools can result in errors in processing size or shape and decrease processing precision. Thus, this paper focuses on the analysis of heating during machine tool spindle?s high speed operation, which is the heat source that causes component and structural deformation. In this paper, thermal monitoring was used to build a thermal error prediction model. Temperature change around the spindle was measu
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18

Syasko, Vladimir, and Aleksander Shikhov. "Soil deformation model analysis in the processing of the geotechnical monitoring results." E3S Web of Conferences 266 (2021): 03014. http://dx.doi.org/10.1051/e3sconf/202126603014.

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Much of the territory of the Russian Federation is located in the permafrost soil area. The developed hydrocarbon deposits make a significant contribution to the budget of the Russian Federation. Therefore, ensuring trouble-free operation of engineering structures and these fields is the most crucial task. Frozen soil deformation leads to violations in the operation of structures, which entail economic harm and significant environmental problems. This article provides a brief overview of the leading causes of deformations of engineering structures built on permafrost soils. The methods current
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19

KANETAKE, Naoyuki. "Microstructural Study on Deformation Processing and Development of New Materials Processing." Journal of the Japan Society for Technology of Plasticity 49, no. 575 (2008): 1126–31. http://dx.doi.org/10.9773/sosei.49.1126.

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20

Yeong Park, Ji, Il Yeong Oh, Chester J. Van Tyne, and Young Hoon Moon. "Characterization of deformation processing maps of 304L stainless steel based on compressive and tensile flow curves." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 233, no. 10 (2018): 3570–82. http://dx.doi.org/10.1177/0954406218817008.

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The efficiency factor (η) and the instability factor ([Formula: see text] in deformation processing maps are regarded as the reliable indices of formability during high-temperature deformation. Deformation processing maps are primarily based on strain rate sensitivity ( m) and are usually created by high-temperature compression tests. To analyze the effect of the mode of flow on the deformation processing map, deformation processing maps based on both compressive and tensile flow curves for 304L stainless steel were determined and compared in the current study. As the instantaneous strain rate
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21

Boutz, M. M. R., C. von Minden, R. Janssen, and N. Claussen. "Deformation processing of reaction bonded alumina ceramics." Materials Science and Engineering: A 233, no. 1-2 (1997): 155–66. http://dx.doi.org/10.1016/s0921-5093(97)00060-9.

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22

Cameron, Craig P., and Rishi Raj. "Better Sintering through Green-State Deformation Processing." Journal of the American Ceramic Society 73, no. 7 (1990): 2032–37. http://dx.doi.org/10.1111/j.1151-2916.1990.tb05263.x.

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23

Figueiredo, Roberto B., Maria Teresa P. Aguilar, Paulo Roberto Cetlin, and Terence G. Langdon. "Processing magnesium alloys by severe plastic deformation." IOP Conference Series: Materials Science and Engineering 63 (August 8, 2014): 012171. http://dx.doi.org/10.1088/1757-899x/63/1/012171.

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24

Batterman, S. D., and J. L. Bassani. "Yielding, anisotropy, and deformation processing of polymers." Polymer Engineering and Science 30, no. 20 (1990): 1281–87. http://dx.doi.org/10.1002/pen.760302004.

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25

Erdélyi, Ján. "Automated point clouds processing for deformation monitoring." Geoinformatics FCE CTU 14, no. 2 (2015): 47–54. http://dx.doi.org/10.14311/gi.14.2.5.

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<p>The weather conditions and the operation load are causing changes in the spatial position and in the shape of engineering constructions, which affects their static and dynamic function and reliability. Because these facts, geodetic measurements are integral parts of engineering structures diagnosis.</p><p>The advantage of terrestrial laser scanning (TLS) over conventional surveying methods is the efficiency of spatial data acquisition. TLS allows contactless determining the spatial coordinates of points lying on the surface on the measured object. The scan rate of current
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26

Alexander, David J. "New Methods for Severe Plastic Deformation Processing." Journal of Materials Engineering and Performance 16, no. 3 (2007): 360–74. http://dx.doi.org/10.1007/s11665-007-9054-y.

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27

Rajan, K., R. M. German, D. B. Knorr, R. K. MacCrone, W. Misiolek, and R. N. Wright. "Deformation processing of high-Tc superconducting oxides." JOM 41, no. 4 (1989): 28–30. http://dx.doi.org/10.1007/bf03220195.

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28

Nunobiki, Masayuki, Koichi Okuda, and Shogo Morino. "Thermal Deformation of Base Sheet and Local Deformation Around Laser Cutting Edge." Key Engineering Materials 389-390 (September 2008): 404–9. http://dx.doi.org/10.4028/www.scientific.net/kem.389-390.404.

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When many products were cut out from a wide base sheet by laser cutting in some conditions, an error occurred in a height regulator by the sheet's greatly bending. It is necessary to avoid occurring the error at unmanned processing. We paper investigated local deformation around cutting edge. The cutting path consists of piercing point, terminal point, straight lines, cranks and curves. We measured local deformation around terminal point, crank and straight line. It was clarified that base sheet bent greatly around terminal points and crank and the sheet curved gradually along the straight lin
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29

Guo, Y., M. Efe, W. Moscoso, D. Sagapuram, K. P. Trumble, and S. Chandrasekar. "Deformation field in large-strain extrusion machining and implications for deformation processing." Scripta Materialia 66, no. 5 (2012): 235–38. http://dx.doi.org/10.1016/j.scriptamat.2011.10.045.

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30

Du, Sen, Jordi J. Mallorqui, Hongdong Fan, and Meinan Zheng. "Improving PSI Processing of Mining Induced Large Deformations with External Models." Remote Sensing 12, no. 19 (2020): 3145. http://dx.doi.org/10.3390/rs12193145.

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Ground subsidences, either caused by natural phenomena or human activities, can threaten the safety of nearby infrastructures and residents. Among the different causes, mining operations can trigger strong subsidence phenomena with a fast nonlinear temporal behaviour. Therefore, a reliable and precise deformation monitoring is of great significance for safe mining and protection of facilities located above or near the mined-out area. Persistent Scatterer Interferometry (PSI) is a technique that uses stacks Synthetic Aperture Radar (SAR) images to remotely monitor the ground deformation of larg
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31

Ding, Guichu, Tao Zhang, Hongwei Li, and Xiaoming Huang. "ANALYSIS OF THE PROCESSING SEQUENCE ON AIRFRAME STRUCTURES MACHING DEFORMATION." International Journal of Engineering Technologies and Management Research 7, no. 6 (2020): 1–10. http://dx.doi.org/10.29121/ijetmr.v2020.i7.6.683.

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In order to reveal the influence of different processing procedures on the machining deformation of the whole structure of aviation frame type, a prediction model for the deformation of frame type integral structure caused by initial residual stress was established based on finite element. According to the deformation law of frame parts caused by initial stress of blank, the deformation of whole structure parts based on aviation frame is minimized. The influence of processing process on deformation of frame structure is studied. The results show that when removing the frame material, the defor
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32

Ding, Guichu, Tao Zhang, Hongwei Li, and Xiaoming Huang. "ANALYSIS OF THE PROCESSING SEQUENCE ON AIRFRAME STRUCTURES MACHING DEFORMATION." International Journal of Engineering Technologies and Management Research 7, no. 6 (2020): 1–10. http://dx.doi.org/10.29121/ijetmr.v7.i6.2020.683.

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In order to reveal the influence of different processing procedures on the machining deformation of the whole structure of aviation frame type, a prediction model for the deformation of frame type integral structure caused by initial residual stress was established based on finite element. According to the deformation law of frame parts caused by initial stress of blank, the deformation of whole structure parts based on aviation frame is minimized. The influence of processing process on deformation of frame structure is studied. The results show that when removing the frame material, the defor
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33

Polyakova, Marina, Alexandr Gulin, and Eduard Golubchik. "Assessment of Structure Integrity and Mechanical Properties of Carbon Steel Wire in Combined Deformation Processing." Key Engineering Materials 769 (April 2018): 277–83. http://dx.doi.org/10.4028/www.scientific.net/kem.769.277.

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Because basic metal forming methods have reached the maximum of their manufacturing capabilities in deformation-velocity processing modes so called combined or integrated processing methods move to the forefront. The method of combined deformation processing based on drawing with bending and torsion deformation was developed. On the example of carbon steel wire it was shown that microstructure and mechanical properties can vary in a wide range depending on the process regimes. In order to estimate the probability of carbon steel wire fracture at the designed combined deformation processing the
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34

Wu, Li Ming, Si Cheng Chen, Yao Hua Deng, Fu Jian Li, and Bing Jing Li. "Research of Processing Deformation Compensation of Flexible Leather Material Based on Knowledge Management." Advanced Materials Research 912-914 (April 2014): 1681–84. http://dx.doi.org/10.4028/www.scientific.net/amr.912-914.1681.

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Leather is a common processing material with poor rigidity in shoe manufacturing, there is easy to generate tensile or compress deformation, so reducing the processing quality. Considering the reasons of leather processing deformation, there are flexible material variety, different material thickness and complicated processing path. The article discussing the various impact factors of leather cutting deformation, combined with the theory and method of processing decision knowledge acquisition, processing knowledge management, and closed-loop compensation control, to propose a deformation compe
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35

Mouriño, Nuria Sánchez, Roumen H. Petrov, Jin Ho Bae, Ki Soo Kim, and Leo Kestens. "Effect of Thermomechanical Processing Parameters on the Final Microstructure of Pipeline Steels." Materials Science Forum 638-642 (January 2010): 3068–73. http://dx.doi.org/10.4028/www.scientific.net/msf.638-642.3068.

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The phase transformation and the final microstructure were studied in a pipeline steel grade API-X80 by carrying out a number of physical simulations of the industrial hot rolling schedules. The deformation and the cooling parameters were simulated by means of hot torsion and dilatometry experiments. Torsion deformations in the same range as in the hot rolling schedule were applied in a multi-deformation cycle at various temperatures in the austenite region. Subsequently the following parameters were varied with respect to a reference status: the reheating temperature from 900 to 1200°C, the d
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36

Tu, Shan-Tung, Jian-Ming Gong, Xiang Ling, and Xiao-Yuan He. "Measurement of Local Creep Deformation in Cross-Weld Specimen by Optical Fiber Marking and Remote Monitoring." Journal of Pressure Vessel Technology 124, no. 1 (2001): 54–58. http://dx.doi.org/10.1115/1.1425808.

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Creep deformation localization is a common occurrence generally found in high temperature components, typically at weldments and geometrical discontinuities. The deformation in a small region cannot be measured by a conventional displacement gage. A new technique for measuring long-term local creep deformation was developed. It uses quartz optical fiber marking, remote monitoring, and image processing. Long-term measurements of the creep deformations of base metal, weld metal, and heat-affected zone in cross-weld specimens were performed at high temperature, which verify the new technique. Str
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37

Poletti, Cecilia, Fernando Warchomicka, Martina Dikovits, and Simon Großeiber. "Microstructure Evolution of Allotropic Materials during Thermomechanical Processing." Materials Science Forum 710 (January 2012): 93–100. http://dx.doi.org/10.4028/www.scientific.net/msf.710.93.

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The microstructure developed during hot deformation is the result of deformation mechanisms such as dynamic recovery and dynamic recrystallization. Hot deformation can also result in damage and flow localisation, especially in multiphase metal based materials. Several models have been proposed to correlate the parameters of the deformation process (temperature, strain and strain rate) with the flow behaviour such as the processing maps. They were developed based on the dynamic materials model (DMM) and later a modified DMM introduced some changes in the calculation of the processing maps. The
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38

Tabata, T., and S. Shima. "Deformation processing of advanced materials. 3. Deformation behavior of powders and porous materials." Journal of the Society of Materials Science, Japan 38, no. 433 (1989): 1218–23. http://dx.doi.org/10.2472/jsms.38.1218.

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39

Kim, W. J., and H. T. Jeong. "Construction of processing maps combined with deformation mechanism maps using creep deformation equations." Journal of Materials Research and Technology 9, no. 6 (2020): 13434–49. http://dx.doi.org/10.1016/j.jmrt.2020.09.023.

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40

Gao, Xin, Huibin Wu, Ming Liu, Yuanxiang Zhang, Xiangdong Zhou, and Yuguo Zhong. "Fracture Behavior and Processing Deformation of C71500 Cupronickel Alloy during Hot Tensile Deformation." Journal of Wuhan University of Technology-Mater. Sci. Ed. 36, no. 3 (2021): 407–15. http://dx.doi.org/10.1007/s11595-021-2424-8.

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41

Wojnarowski, A. E., A. B. Leonteva, S. V. Tyurin, S. G. Tikhonov, and O. V. Artemeva. "PHOTOGRAMMETRIC TECHNOLOGY FOR REMOTE HIGH-PRECISION 3D MONITORING OF CRACKS AND DEFORMATION JOINTS OF BUILDINGS AND CONSTRUCTIONS." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLII-5/W2 (September 20, 2019): 95–101. http://dx.doi.org/10.5194/isprs-archives-xlii-5-w2-95-2019.

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<p><strong>Abstract.</strong> Monitoring of cracks and deformation joints of buildings and engineering constructions can be performed effectively using contemporary methods of photogrammetry. Our study allowed us to design the technology for such a monitoring. This technology is adapted for use by building operation and building inspection specialists and does not require special knowledge in photogrammetry. The monitoring equipment includes two blocks of photogrammetric deformation marks, a digital camera and processing software. Each block of deformation marks is designed a
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42

Apps, P. J., Chris P. Heason, and Philip B. Prangnell. "Ultrafine-Grain Structures Produced by Severe Deformation Processing." Materials Science Forum 447-448 (February 2004): 423–28. http://dx.doi.org/10.4028/www.scientific.net/msf.447-448.423.

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43

Mohamed, F. "HIGH-STRAIN SUPERPLASTICITY: CONCEPT, PROCESSING AND DEFORMATION MECHANISM." International Conference on Applied Mechanics and Mechanical Engineering 17, no. 17 (2016): 1. http://dx.doi.org/10.21608/amme.2016.35198.

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44

Wei, Wei. "PROCESSING BULK NANOSTRUCTURED MATERIALS BY SEVERE PLASTIC DEFORMATION." Chinese Journal of Mechanical Engineering 38, no. 07 (2002): 1. http://dx.doi.org/10.3901/jme.2002.07.001.

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45

Möck, P., Z. J. Laczik, and G. R. Booker. "Thermal processing induced plastic deformation in GaAs wafers." Materials Science and Engineering: B 80, no. 1-3 (2001): 91–94. http://dx.doi.org/10.1016/s0921-5107(00)00620-6.

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46

JI, Ya-qi, Shun-de QU, and Wei-xin HAN. "Hot deformation and processing map of GH3535 superalloy." Transactions of Nonferrous Metals Society of China 25, no. 1 (2015): 88–94. http://dx.doi.org/10.1016/s1003-6326(15)63582-8.

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47

Utyashev, Farid Z., and Shamil Kh Mukhtarov. "Deformation Nanostructuring and Superplastic Processing of Metallic Materials." Materials Science Forum 838-839 (January 2016): 355–60. http://dx.doi.org/10.4028/www.scientific.net/msf.838-839.355.

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Theoretical and practical aspects of fabrication and processing of bulk metallic nanomaterials are presented. The effect of different deformation modes on the structure formation is shown. Development of nanotechnology with respect to fabrication of gas turbine engines (GTE) parts made of nanostructured superalloys is exemplified.
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48

Garroni, Sebastiano. "Deformation conditions for Ni powders undergoing mechanical processing." Journal of Physics and Chemistry of Solids 73, no. 6 (2012): 770–76. http://dx.doi.org/10.1016/j.jpcs.2012.01.024.

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49

Pandey, R. K., and C. T. Sun. "Deformation of thermoplastic composite laminates under processing conditions." Mechanics of Composite Materials and Structures 3, no. 3 (1996): 183–200. http://dx.doi.org/10.1002/(sici)1234-986x(199609)3:3<183::aid-mcm39>3.3.co;2-y.

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50

Tamirisakandala, S., P. V. R. K. Yellapregada, S. C. Medeiros, W. G. Frazier, J. C. Malas, and B. Dutta. "High-Speed Deformation Processing of a Titanium Alloy." Advanced Engineering Materials 5, no. 9 (2003): 667–69. http://dx.doi.org/10.1002/adem.200300368.

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