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Articoli di riviste sul tema "High temperature"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 25 luglio 2025

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1

Uludag, Alper, and Dilek Turan. "SiAlON Ceramics for the High Temperature Applications: High Temperature Creep Behavior." International Journal of Materials, Mechanics and Manufacturing 3, no. 2 (2015): 105–9. http://dx.doi.org/10.7763/ijmmm.2015.v3.176.

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2

V.Seryotkin, Yurii, Werner Joswig, Vladimir V. Bakakin, Igor A. Belitsky, and Boris A. Fursenko. "High-temperature crystal structure of wairakite." European Journal of Mineralogy 15, no. 3 (2003): 475–84. http://dx.doi.org/10.1127/0935-1221/2003/0015-0475.

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3

Leszczyński, Juliusz, Piotr Klimczyk, Krzysztof Wojciechowski, and Andrzej Koleżyński. "Studies on high pressure-high temperature synthesis of carbon clathrates." Mechanik, no. 5-6 (May 2016): 512–13. http://dx.doi.org/10.17814/mechanik.2016.5-6.62.

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4

Mikheenko, P. N. "Discrete temperatures in high-temperature superconductors." Physica C: Superconductivity 311, no. 1-2 (1999): 1–10. http://dx.doi.org/10.1016/s0921-4534(98)00620-0.

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5

Singh, Hempal, Anu Singh, Vinod Ashokan, and B. D. Indu B. D. Indu. "Signature of Anharmonicities in High Temperature Superconductors." Indian Journal of Applied Research 3, no. 4 (2011): 35–38. http://dx.doi.org/10.15373/2249555x/apr2013/134.

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6

Dombal, Richard F. De, and Michael A. Carpenter. "High-temperature phase transitions in Steinbach tridymite." European Journal of Mineralogy 5, no. 4 (1993): 607–22. http://dx.doi.org/10.1127/ejm/5/4/0607.

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7

Morris, D. G., and M. A. Muñoz-Morris. "High temperature mechanical properties of iron aluminides." Revista de Metalurgia 37, no. 2 (2001): 230–39. http://dx.doi.org/10.3989/revmetalm.2001.v37.i2.471.

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8

Kim. "A Comparison of Residual Tensile Properties of GFRP Reinforcing Bar at High Temperature and after Exposure to High Temperature." Journal of the Korean Society of Civil Engineers 35, no. 1 (2015): 77. http://dx.doi.org/10.12652/ksce.2015.35.1.0077.

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9

Lansdown, A. R. "High-Temperature Lubrication." Proceedings of the Institution of Mechanical Engineers, Part C: Mechanical Engineering Science 204, no. 5 (1990): 279–91. http://dx.doi.org/10.1243/pime_proc_1990_204_109_02.

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Abstract (sommario):
The maximum temperature at which a mechanical system can operate is often determined by the need for lubrication. The paper considers the various heat sources, ambient temperature, mechanical or chemical inputs, and flash temperatures, and discusses their influence on different types of lubrication. The actual temperature limitations are imposed by physical or chemical changes in the lubricant itself, or by changes in a specific lubrication mechanism such as adsorption. The nature of these types of change is described, together with the dominant importance of residence time on the extent of de
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10

Thiéblot, Laurent, Jacques Roux, and Pascal Richet. "High-temperature thermal expansion and decomposition of garnets." European Journal of Mineralogy 10, no. 1 (1998): 7–16. http://dx.doi.org/10.1127/ejm/10/1/0007.

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11

S Hirmaz, Maha. "High Temperature Corrosion and Protection Methods: A Review." International Journal of Science and Research (IJSR) 10, no. 2 (2021): 1002–5. https://doi.org/10.21275/sr21214223016.

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12

Bridger, K., A. Cooke, D. Kohlhafer, et al. "High-Temperature, High-Power Performance of Ceramic Filter Capacitors." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2011, HITEN (2011): 000027–29. http://dx.doi.org/10.4071/hiten-paper5-kbridger.

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Abstract (sommario):
Power conversion electronics in military vehicles and aircraft are currently experiencing high temperatures and future generations will see these temperatures rise even higher. The high temperatures arise not only from the environment but also from high power dissipation in the components themselves. Capacitors can occupy almost 50% of the real estate in some power converters and these capacitors are subjected to very high currents at high frequencies in dc-dc converters or 60-Hz 120 VAC in the output stage of an inverter. Dissipation resulting from the high power levels can lead to internal c
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13

Irwin, Patricia C., Daniel Qi Tan, Yang Cao, et al. "Development of High Temperature Capacitors for High Density, High Temperature Applications." SAE International Journal of Aerospace 1, no. 1 (2008): 817–21. http://dx.doi.org/10.4271/2008-01-2851.

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14

Sedlmajer, Martin, Jiri Zach, Jitka Peterková, and Lenka Bodnárová. "Temperature Control in High Performance Concrete." Advanced Materials Research 1100 (April 2015): 162–65. http://dx.doi.org/10.4028/www.scientific.net/amr.1100.162.

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The paper addresses the methodology of temperature observation of cement composites, such as concrete. It is mainly the monitoring of the course of hydration temperature and the possibilities of its regulation. Subsequently, the observation of temperature within samples which are exposed to high temperatures. Attention is paid to a variety of temperatures of a concrete segment which is being acted upon by a high-temperature source, e.g. fire. Temperature distribution at a varied distance from the heat source is observed.
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15

Huan, Zhengli, Ning Chang, Yunyun Feng, Xuan Fei, Xiang Xu, and Huiming Ji. "Simultaneously Achieved High Piezoelectricity and High Resistivity in Na0.5Bi4.5Ti4O15-Based Ceramics with High Curie Temperature." Materials 17, no. 23 (2024): 5857. http://dx.doi.org/10.3390/ma17235857.

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Good piezoelectricity and high resistivity are prerequisites for high-temperature acceleration sensors to function correctly in high-temperature environments. Bismuth layered structure ferroelectrics (BLSFs) are promising candidates for piezoelectric ceramics with excellent piezoelectric performance at high temperatures, high electrical resistivity, and high Curie temperatures (Tc). In this study, (LiMn)5+ is substituted for Bi at the A-site, and Ce-doping is performed to replace Ti ions in Na0.5Bi4.5Ti4O15, which achieves the desired combination of high piezoelectric coefficients and high res
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16

Molander, Paal, Espen Ommundsen, and Tyge Greibrokk. "High temperature injection in capillary high temperature liquid chromatography." Journal of Microcolumn Separations 11, no. 8 (1999): 612–19. http://dx.doi.org/10.1002/(sici)1520-667x(1999)11:8<612::aid-mcs7>3.0.co;2-6.

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17

Liu, Zhangquan, Xiaohui Shi, Min Zhang, and Junwei Qiao. "High-Temperature Mechanical Properties of NbTaHfTiZrV0.5 Refractory High-Entropy Alloys." Entropy 25, no. 8 (2023): 1124. http://dx.doi.org/10.3390/e25081124.

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The NbTaHfTiZrV0.5 is a refractory multi-principal-element alloy with high strength and good ductility at room temperature. It is important for possible high-temperature applications to investigate the deformation mechanism of the NbTaHfTiZrV0.5 alloy at different temperatures using tensile tests. In this investigation, the tensile tests were conducted at room temperature to 1273 K on sheet materials fabricated by cold rolling combined with annealing treatments. At 473 K, the NbTaHfTiZrV0.5 alloy exhibited a high tensile ductility (12%). At a testing temperature range of 673~873 K, the ductili
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18

Zhao, Xueying, Aiqin Shen, and Baofu Ma. "Temperature Adaptability of Asphalt Pavement to High Temperatures and Significant Temperature Differences." Advances in Materials Science and Engineering 2018 (July 8, 2018): 1–16. http://dx.doi.org/10.1155/2018/9436321.

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Temperature adaptability of asphalt pavements is very important, due to their potential influence on pavement structure design, particularly in areas that experience significant temperature differences. In this paper, a finite element (FE) model was developed, and Turpan-Xiaocao Lake Highway in southern Xinjiang was taken as a case study engineering, which tends to experience this adverse environmental condition (temperature difference: 25.5°C; July 14, 2008). In this model, the generalized Kelvin model and the Burgers model were used. The time-dependent tire pressure was considered. To guide
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19

Berthou, Maxime, Philippe Godignon, Bertrand Vergne, and Pierre Brosselard. "High Temperature Capability of High Voltage 4H-SiC JBS." Materials Science Forum 711 (January 2012): 124–28. http://dx.doi.org/10.4028/www.scientific.net/msf.711.124.

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This paper presents the high blocking capability of the 4H-SiC tungsten Schottky and junction barrier Schottky (JBS) diodes at room temperature as well as at high operating temperature. First, we present the design of the proposed devices and the process employed for their fabrication. In a second part, their forward and reverse characteristics at room temperature will be presented. Our rectifiers exhibit blocking capability up to 9kV at room temperature. Then, we investigate the reverse current behaviour at 5kV from room temperature to 250°C under vacuum. JBS and Schottky devices that are cap
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20

Johnson, Arden P., John S. Miller, and Yufei Wang. "High Power Lithium Primary Cells for High Temperature Downhole Applications." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2012, HITEC (2012): 000266–71. http://dx.doi.org/10.4071/hitec-2012-wp23.

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The power demands of downhole tools used in petroleum exploration continue to increase as new instrumentation is added for measurement and for communicating data to the surface. At the same time there is increasing demand for higher temperature capabilities that will allow exploration in hotter formations. As the use of high temperature electronic devices expands, new types of batteries are needed that can provide the necessary power at the higher temperatures. Here we describe a new lithium alloy primary battery technology that can power downhole tools and other high temperature devices up to
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21

Kwon, Kiseok, and Ohsang Kweon. "Time-temperature Analysis of High-strength Concrete Exposed to High Temperatures." Journal of the Korean Society of Hazard Mitigation 18, no. 7 (2018): 227–32. http://dx.doi.org/10.9798/kosham.2018.18.7.227.

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22

Savvova, Oksana, Hennadii Voronov, Oleksii Fesenko, Sviatoslav Riabinin, and Vadym Tymofieiev. "High-Strength Glass-Ceramic Material with Low Temperature Formation." Chemistry & Chemical Technology 16, no. 2 (2022): 337–44. http://dx.doi.org/10.23939/chcht16.02.337.

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Prospects for development of glass-ceramic materials on the lithium aluminosilicates base in order to increase the reliability of armor protection elements have been analyzed. Compositions of lithium aluminosilicate glasses with low content of lithium oxide have been developed, spodumene glass-ceramic materials were obtained on their base in conditions of low-temperature thermal treatment. Formation of structure of glass-ceramic materials based on model glasses after thermal treatment has been investigated and the influence of phase composition on mechanical properties has been established. It
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23

Lashkarev, G. V. "Diluted magnetic layered semiconductor InSe:Mn with high Curie temperature." Semiconductor Physics Quantum Electronics and Optoelectronics 14, no. 3 (2011): 263–68. http://dx.doi.org/10.15407/spqeo14.03.263.

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24

Kumar, Yogendra. "High-Temperature Superconductivity is the Quantum Leap in Electronics." International Journal of Science and Research (IJSR) 10, no. 6 (2021): 854–62. https://doi.org/10.21275/sr21606211315.

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25

V Sharma, S. "Investigation of Theoretical Considerations of High Temperature Oxide Superconductors." International Journal of Science and Research (IJSR) 13, no. 10 (2024): 531–33. http://dx.doi.org/10.21275/sr241006131855.

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26

Bayarjargal, Lkhamsuren, Tatyana G. Shumilova, Alexandra Friedrich, and Björn Winkler. "Diamond formation from CaCO3 at high pressure and temperature." European Journal of Mineralogy 22, no. 1 (2010): 29–34. http://dx.doi.org/10.1127/0935-1221/2010/0021-1986.

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27

Ershova, Natalia I., and Irina Yu Kelina. "High-temperature wear-resistant materials based on silicon nitride." Epitoanyag - Journal of Silicate Based and Composite Materials 61, no. 2 (2009): 34–37. http://dx.doi.org/10.14382/epitoanyag-jsbcm.2009.6.

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28

Sharpe, W. N. Jr, and C. S. Oh. "OS06W0394 High-Temperature Strain Measurement at the Micrometer Scale." Abstracts of ATEM : International Conference on Advanced Technology in Experimental Mechanics : Asian Conference on Experimental Mechanics 2003.2 (2003): _OS06W0394. http://dx.doi.org/10.1299/jsmeatem.2003.2._os06w0394.

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29

Gawalek, Wolfgang, Tatyana Prikhna, Tobias Habisreuther, et al. "High pressure/high temperature treatment of melt textured YBCO high temperature superconductors." Czechoslovak Journal of Physics 46, S3 (1996): 1405–6. http://dx.doi.org/10.1007/bf02562817.

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30

Zhang, Zhe, Yingying Wang, Min Zhou, Jun He, Changrui Liao, and Yiping Wang. "Recent advance in hollow-core fiber high-temperature and high-pressure sensing technology [Invited]." Chinese Optics Letters 19, no. 7 (2021): 070601. http://dx.doi.org/10.3788/col202119.070601.

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31

Lei, Che. "Research on ultrasonic vibration assisted repair technology of high temperature and high pressure parts." Functional materials 25, no. 4 (2018): 809–17. http://dx.doi.org/10.15407/fm25.04.809.

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32

Bybee, Karen. "High-Pressure/High-Temperature Cementing." Journal of Petroleum Technology 54, no. 08 (2002): 58–61. http://dx.doi.org/10.2118/0802-0058-jpt.

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33

Angel, R. J., R. T. Downs, and L. W. Finger. "High-Temperature-High- Pressure Diffractometry." Reviews in Mineralogy and Geochemistry 41, no. 1 (2000): 559–97. http://dx.doi.org/10.2138/rmg.2000.41.16.

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34

Hancox, N. L. "HIGH TEMPERATURE HIGH PERFORMANCE COMPOSITES." Advanced Materials and Manufacturing Processes 3, no. 3 (1988): 359–89. http://dx.doi.org/10.1080/08842588708953211.

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35

Lemkey, F. D., S. G. Fishman, A. G. Evans, and J. R. Strife. "HIGH TEMPERATURE - HIGH PERFORMANCE COMPOSITES." Materials and Manufacturing Processes 6, no. 4 (1991): 727–29. http://dx.doi.org/10.1080/10426919108934800.

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36

Pimentel, Carlos. "Plant Responses to High-Temperature Stress." Archives of Agriculture Research and Technology (AART) 3, no. 3 (2022): 1–2. http://dx.doi.org/10.54026/aart/1043.

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Temperature above optimal for the specie will reduce photosynthesis and increase dark respiration and photorespiration in part due to increased solubility of O2 compared to CO2 but also due to the decrease in CO2 mesophyll conductance to the chloroplast. In addition, night temperature has a great impact on carbohydrates balance because high night temperature reduces the efficiency of the generation of ATP from respiration consuming more sugars to maintain growth. Another effect on species that have their cycle sensitive to temperature, inducing the reproductive phase soon or later depending on
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37

Gumyusenge, Aristide, and Jianguo Mei. "High Temperature Organic Electronics." MRS Advances 5, no. 10 (2020): 505–13. http://dx.doi.org/10.1557/adv.2020.31.

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ABSTRACTThe emerging breakthroughs in space exploration, smart textiles, and novel automobile designs have increased technological demand for high temperature electronics. In this snapshot review we first discuss the fundamental challenges in achieving electronic operation at elevated temperatures, briefly review current efforts in finding materials that can sustain extreme heat, and then highlight the emergence of organic semiconductors as a new class of materials with potential for high temperature electronics applications. Through an overview of the state-of-the art materials designs and pr
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38

Deng, Zhifang, Ruoze Xie, Yixia Yan, Sizhong Li, and Xicheng Huang. "Temperature in high temperature SHPB experiments." Transactions of Tianjin University 14, S1 (2008): 536–39. http://dx.doi.org/10.1007/s12209-008-0092-9.

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39

Phua, Eric Jian Rong, Ming Liu, Riko I. Made, et al. "Novel encapsulation materials for High Pressure-High Temperature (HPHT) applications." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2013, HITEN (2013): 000268–74. http://dx.doi.org/10.4071/hiten-wa19.

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A modified thermoset polymer resin (PR) is evaluated as a form of alternative packaging material to traditional epoxy. It is understood that the thermoset cross-links to a higher degree at high temperature. Hence, its mechanical properties can be improved by changing treatment duration and temperature, rendering the material mechanically stronger for application temperatures beyond 300°C. Material strength was evaluated through a modified compressive testing setup which shows neat PR is comparable to epoxy. Concurrently, adhesion to silicon die and ceramic substrate were evaluated by means of
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40

Nguyen, Doan N., Pamidi V. P. S. S. Sastry, David C. Knoll, and Justin Schwartz. "Temperature Dependence of Total AC Loss in High-Temperature Superconducting Tapes." IEEE Transactions on Applied Superconductivity 19, no. 4 (2009): 3637–44. http://dx.doi.org/10.1109/tasc.2009.2015462.

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A versatile experimental facility was designed and set up to measure transport ac losses, magnetization ac losses, and total ac losses in high-temperature superconductors at variable temperatures. Several sets of measurements were carried out in the temperature range of 35 K to 100 K. Sample temperature during the measurements could be controlled within plusmn0.5 K of set temperature. Temperature dependence of transport losses reflects variation of critical current density of the tapes with temperature. Temperature dependence of magnetization losses exhibits an interesting behavior with a peak
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41

Johnson, Arden P., Cuiyang Wang, and John S. Miller. "High Temperature Lithium Alloy Cells With Improved Low Temperature Performance." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2010, HITEC (2010): 000274–79. http://dx.doi.org/10.4071/hitec-ajohnson-wp15.

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Lithium-thionyl chloride cells are widely used in downhole applications where the temperatures exceed 100°C. These cells cannot be used above the melting point of lithium, 180°C, but modified oxyhalide cells are available that use higher-melting lithium alloy anodes that allow safe operation at temperatures as high as 200°C. However, the higher temperature capability comes at the cost of low temperature performance; the alloy cells typically show very poor rate capability below 50°C. The low temperature rate limitations can be particularly disadvantageous in cases where a tool is started up at
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42

Nordin, L., A. J. Muhowski, and D. Wasserman. "High operating temperature plasmonic infrared detectors." Applied Physics Letters 120, no. 10 (2022): 101103. http://dx.doi.org/10.1063/5.0077456.

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III–V semiconductor type-II superlattices (T2SLs) are a promising material system with the potential to significantly reduce the dark current of, and thus realize high-performance in, infrared photodetectors at elevated temperatures. However, T2SLs have struggled to meet the performance metrics set by the long-standing infrared detector material of choice, HgCdTe. Recently, epitaxial plasmonic detector architectures have demonstrated T2SL detector performance comparable to HgCdTe in the 77–195 K temperature range. Here, we demonstrate a high operating temperature plasmonic T2SL detector archit
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43

Eskermesov, J. E., B. A. Karymsakov, and I. K. Duysembaev. "HIGH TEMPERATURE, HIGH STRENGTH STEEL AND POLYPROPYLENE FIBER CONCRETE." Mechanics and Technologies, no. 2 (June 30, 2024): 122–28. https://doi.org/10.55956/yrwy2975.

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In this study, high strength concrete with steel and polypropylene fibers was tested. Steel fibers increase the fracture energy and flexural strength at room temperature. At higher temperatures, the fracture energy and ultimate flexural strength decrease.
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44

Vilette, Anne, and S. L. Kampe. "High-temperature plasticity of cubic bismuth oxide." Journal of Materials Research 11, no. 6 (1996): 1433–39. http://dx.doi.org/10.1557/jmr.1996.0180.

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Cubic (δ) bismuth oxide (Bi2O3) has been subjected to high temperature deformation over a wide range of temperatures and strain rates. Results indicate that bismuth oxide is essentially incapable of plastic deformation at temperatures below the monoclithic to cubic phase transformation which occurs at approximately 730 °C. Above the transformation temperature, however, Bi2O3 is extensively deformable. The variability of flow stress to temperature and strain rate has been quantified through the determination of phenomenological-based constitutive equations to describe its behavior at these high
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45

Zhou, Xingjiang, Wei-Sheng Lee, Masatoshi Imada, et al. "High-temperature superconductivity." Nature Reviews Physics 3, no. 7 (2021): 462–65. http://dx.doi.org/10.1038/s42254-021-00324-3.

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46

Spear, Karl, Eric Wuchina, and Eric D. Wachsman. "High Temperature Materials." Electrochemical Society Interface 15, no. 1 (2006): 48–51. http://dx.doi.org/10.1149/2.f14061if.

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47

YOMO, Shusuke, and Nobuo MORI. "High temperature superconductivity." Journal of Advanced Science 2, no. 2 (1990): 98–102. http://dx.doi.org/10.2978/jsas.2.98.

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48

Dow, John D., and Dale R. Harshman. "High-temperature superconductivity." Brazilian Journal of Physics 33, no. 4 (2003): 681–85. http://dx.doi.org/10.1590/s0103-97332003000400008.

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49

Maruyama, Kouichi. "High Temperature Strength." Materia Japan 36, no. 9 (1997): 877–80. http://dx.doi.org/10.2320/materia.36.877.

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50

Taniguchi, Shigeji. "High Temperature Corrosion." Materia Japan 36, no. 9 (1997): 904–7. http://dx.doi.org/10.2320/materia.36.904.

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