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Artículos de revistas sobre el tema "Aluminoborosilicate glass"

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Publicado: 25 de mayo de 2024

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1

Malchukova, Eugenia y Bruno Boizot. "Divalent Europium in β-Irradiated Aluminoborosilicate Glass". Journal of the American Ceramic Society 93, n.º 12 (23 de noviembre de 2010): 4005–7. http://dx.doi.org/10.1111/j.1551-2916.2010.04209.x.

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2

Ruivo, Andreia, Marta Ferro, Suzana M. Andrade, João Rocha, Fernando Pina y César A. T. Laia. "Photoluminescent Nanocrystals in a Multicomponent Aluminoborosilicate Glass". Journal of Physical Chemistry C 120, n.º 43 (21 de octubre de 2016): 24925–31. http://dx.doi.org/10.1021/acs.jpcc.6b04552.

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3

�beling, P. V., A. N. Krasnov y V. D. Khaliev. "Composition of lithium aluminoborosilicate glass and abrasive". Glass and Ceramics 53, n.º 3 (marzo de 1996): 88–91. http://dx.doi.org/10.1007/bf01061496.

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4

Hashikawa, Ryo, Yasuhiro Fujii, Atsushi Kinomura, Takeshi Saito, Arifumi Okada, Takashi Wakasugi y Kohei Kadono. "Radiophotoluminescence phenomenon in copper-doped aluminoborosilicate glass". Journal of the American Ceramic Society 102, n.º 4 (10 de septiembre de 2018): 1642–51. http://dx.doi.org/10.1111/jace.16027.

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5

Fialko, N. M., V. V. Shchepetov, S. D. Kharchenko, S. I. Kovtun, Ya N. Hladkyi y S. S. Bys. "Nanostructural glasscomposite self-lubricant coatings". Problems of Tribology 27, n.º 4/106 (18 de diciembre de 2022): 6–12. http://dx.doi.org/10.31891/2079-1372-2022-106-4-6-12.

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The results of the study of glass-composite nanostructured self-lubricating coatings are presented. The structural components of these coatings significantly affect the graphitization process and provide an antifriction surface layer of α-graphite. The formation of this layer makes it possible to significantly minimize the contact parameters in the friction region. A significant effect of aluminoborosilicate in the form of a glass phase on the tribological properties of coatings is noted. An increase in adhesive strength is achieved by forming a surface layer of glassy sodium silicate. The presence of near-surface particles in the graphite layer does not affect the tribotechnical characteristics of the coatings. The developed glass-composite nanostructured self-lubricating coatings have high antifriction characteristics throughout the entire load-speed range
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6

Suetsugu, Tatsuya, Takashi Wakasugi y Kohei Kadono. "Effect of glass composition on silver-incorporation into aluminoborosilicate glasses through a staining process". Journal of Materials Research 25, n.º 4 (abril de 2010): 701–7. http://dx.doi.org/10.1557/jmr.2010.0086.

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To fabricate graded-index optical elements by silver staining, we investigated the behavior of ion incorporation in aluminoborosilicate glasses, in which the contents of Al2O3 and Na2O were the same (in mol%). The amount of silver incorporated into the aluminoborosilicate glasses by the staining at 320 °C for 12 h was 5 to 10 times larger than that incorporated into the soda-lime silicate and borosilicate glasses. The diffusion depth of the incorporated silver ions was approximately 80 μm, which was also much deeper than that of the soda-lime silicate and borosilicate glasses. The coloration of the glasses was suppressed, particularly for the glass with the low content of Na2O. The concentration of the incorporated silver ions at the glass surface was 2 × 1021 atom/cm3 for the 37.5SiO2·25Al2O3·25Na2O·12.5B2O3 glass, corresponding to the replacement of sodium ions (20%). The refractive indices near the stained surfaces increased by 0.04 to 0.06. These values were comparable with those of the soda-lime silicate and borosilicate glasses.
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7

Sytnik, R. D., I. G. Kiuila, O. A. Ignatyuk y S. A. Sytnik. "Deposition of metal oxide coatings on aluminoborosilicate glass". Glass and Ceramics 51, n.º 2 (febrero de 1994): 60–63. http://dx.doi.org/10.1007/bf00682686.

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8

Ruivo, Andreia, Suzana M. Andrade, João Rocha, César A. T. Laia y Fernando Pina. "Formation of Photoluminescent Lead Bromide Nanoparticles on Aluminoborosilicate Glass". Journal of Physical Chemistry C 118, n.º 23 (30 de mayo de 2014): 12436–42. http://dx.doi.org/10.1021/jp5003758.

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9

Seo, Joobeom, Sangbae Kim, In-Kook Bae y Wantae Kim. "Roasting of pyrophyllite for application in aluminoborosilicate glass production". Geosystem Engineering 23, n.º 3 (24 de enero de 2020): 123–30. http://dx.doi.org/10.1080/12269328.2020.1719904.

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10

Morozumi, Hidekatsu, Satoshi Yoshida y Jun Matsuoka. "Composition dependence of crack formation probability in aluminoborosilicate glass". Journal of Non-Crystalline Solids 444 (julio de 2016): 31–37. http://dx.doi.org/10.1016/j.jnoncrysol.2016.04.030.

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11

Chen, L., T. S. Wang, K. J. Yang, H. B. Peng, G. F. Zhang, L. M. Zhang, H. Jiang y Q. Wang. "Raman study of Kr ion irradiated sodium aluminoborosilicate glass". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 307 (julio de 2013): 566–69. http://dx.doi.org/10.1016/j.nimb.2013.01.089.

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12

Mohd Fadzil, Syazwani, Pavel Hrma, Michael J. Schweiger y Brian J. Riley. "Component effects on crystallization of RE-containing aluminoborosilicate glass". Journal of Nuclear Materials 478 (septiembre de 2016): 261–67. http://dx.doi.org/10.1016/j.jnucmat.2016.06.018.

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13

Ortiz Rivera, Lymaris, Victor A. Bakaev, Joy Banerjee, Karl T. Mueller y Carlo G. Pantano. "Characterization and reactivity of sodium aluminoborosilicate glass fiber surfaces". Applied Surface Science 370 (mayo de 2016): 328–34. http://dx.doi.org/10.1016/j.apsusc.2016.02.173.

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14

Egorov, A. A. y M. A. Semin. "High-porosity cellular materials based on alkali aluminoborosilicate glass". Glass and Ceramics 64, n.º 5-6 (mayo de 2007): 190–92. http://dx.doi.org/10.1007/s10717-007-0049-9.

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15

Yurkov, A. L., B. I. Polyak y T. V. Murahver. "Interaction between silicon carbide and melt of aluminoborosilicate glass". Journal of Materials Science Letters 10, n.º 22 (1991): 1342–43. http://dx.doi.org/10.1007/bf00722655.

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16

Caurant, Daniel, Arnaud Quintas, Odile Majérus, Thibault Charpentier y I. Bardez. "Structural Role and Distribution of Alkali and Alkaline-Earth Cations in Rare Earth-Rich Aluminoborosilicate Glasses". Advanced Materials Research 39-40 (abril de 2008): 19–24. http://dx.doi.org/10.4028/www.scientific.net/amr.39-40.19.

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The structure of a seven oxide aluminoborosilicate simplified nuclear glass, bearing a high amount of neodymium or lanthanum oxide (16 wt%), alkali and alkaline earth cations is studied. Nd3+ or La3+ are supposed to simulate the trivalent lanthanides and minor actinides present in nuclear wastes. In the studied glass composition, lanthanide ions have a modifying role and are located in highly depolymerized regions of the structure as shown by neodymium optical absorption and EXAFS spectroscopies. Both alkali and alkaline earth cations are present around Nd3+ ions enabling their stabilization in glass structure near non-bridging oxygen atoms (NBOs). We show that both the nature of alkali R+ and alkaline earth R'2+ cations and the K = [R'O]/([R2O]+[R'O]) ratio can greatly influence the structure of the aluminoborosilicate glass network. Three glass series were prepared for which: (i) K ratio was varied from 0 to 0.5 (Na+ and Ca2+ being respectively the only alkali and alkaline-earth cations), (ii) the nature of R+ cation was varied from Li+ to Cs+ (Ca2+ being the only alkaline earth cation and K = 0.3), (iii) the nature of R'2+ cation was varied from Mg2+ to Ba2+ (Na+ being the only alkali cation and K = 0.3). 27Al MAS NMR spectroscopy results show that (AlO4)- units are preferentially charge compensated by alkali cations rather than by alkaline-earth cations. Both R+ and R’2+ cations can compensate (BO4)- units. Nevertheless, whereas the proportion N4 of (BO4)- units increases with the size of R'2+ cations, the evolution of N4 with R+ cation size for glasses of the R series is not monotonous. The evolution of sodium ions distribution trough glass structure is followed by 23Na MAS NMR spectroscopy.
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17

TSUJIGUCHI, Masato, Tadashi KOBASHI, Yasuhiko UTSUMI, Nobuaki KAKIMORI y Atsushi NAKAHIRA. "Synthesis of FAU zeolite from aluminoborosilicate glass and elution behavior of glass components". Journal of the Ceramic Society of Japan 122, n.º 1421 (2014): 104–9. http://dx.doi.org/10.2109/jcersj2.122.104.

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18

DU, ZHAO, XUEHONG ZHANG, YUNLONG YUE y HAITAO WU. "EFFECT OF MgO ON STRUCTURE AND DIELECTRIC PROPERTIES OF CaO–Al2O3–B2O3–SiO2 GLASSES". Surface Review and Letters 19, n.º 06 (27 de noviembre de 2012): 1250063. http://dx.doi.org/10.1142/s0218625x12500631.

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The effect of MgO on structure and dielectric properties of aluminoborosilicate glasses was investigated. FTIR data indicated that glass network was mainly built by tetrahedral [ SiO4 ], [ BO4 ], [ AlO4 ] and trigonal [ BO3 ]. A small amount of AlO5 or AlO6 units also existed. The glass system was characterized with lower dielectric constant (4.17 ~ 4.6) and dielectric loss (12.3 × 10-4 ~ 14.77 × 10-4) at 1 MHz. With the increase of MgO content, the quantity of AlO5 or AlO6 units decreased. The variation of density showed a decreasing tendency. The dielectric constant and loss were all found to decrease.
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19

Smith-Gray, Natalie, Jason Lonergan y John McCloy. "Chromium and vanadium incorporation in sulfate-containing sodium aluminoborosilicate glass". MRS Advances 6, n.º 4-5 (abril de 2021): 138–48. http://dx.doi.org/10.1557/s43580-021-00034-z.

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20

Itoh, Noriko y Tetsur\={o} Nakamura. "The Vaporization of the Various Trace Components from Aluminoborosilicate Glass". Bulletin of the Chemical Society of Japan 60, n.º 2 (febrero de 1987): 503–7. http://dx.doi.org/10.1246/bcsj.60.503.

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21

Ried, P., M. Gaber, R. Müller y J. Deubener. "Hydrogen permeability of a barium-aluminoborosilicate glass—A methodical approach". Journal of Non-Crystalline Solids 394-395 (julio de 2014): 43–49. http://dx.doi.org/10.1016/j.jnoncrysol.2014.04.006.

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22

Yuan, X. M., S. M. Lu, X. H. Zhang, Y. J. Cui, H. T. Wu y Y. L. Yue. "Effects of CaO Additions on the Structure and Dielectric Properties of Aluminoborosilicate Glasses". Advanced Materials Research 710 (junio de 2013): 127–31. http://dx.doi.org/10.4028/www.scientific.net/amr.710.127.

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Glasses with compositions xCaO-(60-x)SiO2-5MgO-15Al2O3-20B2O3 (x=0, 3, 6 and 9 mol %) were prepared by conventional melting method. Fourier-transform infrared spectroscopy (FTIR) indicated that the addition of CaO converted trigonal boron ([B) to tetrahedral boron ([B). The glass transition temperatures (Tg) were determined using a differential scanning calorimetry (DSC). Tg increased with increasing CaO content. Thus, the addition of CaO instead of SiO2 strengthened the glass network. The dielectric εr and loss tanδ were measured for the MgO-B2O3-Al2O3-SiO2 glass system in the frequency range 103-105 Hz. The decrease in εr and tanδ could be attributed to the increase in the rigidity of the glass network.
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23

Babak, V. P., V. V. Shchepetov, S. D. Kharchenko, S. P. Kruchinin y Stefano Bellucci. "Detonation Self-Lubricating Antifriction Glass Composition". Journal of Nanomaterials 2022 (27 de septiembre de 2022): 1–7. http://dx.doi.org/10.1155/2022/1493066.

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Antifriction self-lubricating glass composite coatings of the Sic-Ni-Cu-Al-Si-C type additionally contain an aluminoborosilicate glass phase and structurally free MgC2, which forms α-graphite during thermolysis, the synergistic effect of which causes modification of the friction surface due to the formation antifriction layer. The influence of the structural components of the coating on their contribution to the antifriction properties is considered. It was clarified that an increase in the adhesive strength of the coatings was achieved by preliminary application of a sublayer of vitreous sodium silicate. The developed coatings showed high performance properties, while the means of minimizing and stabilizing wear characteristics was the presence of a thin-film antifriction layer based on α-graphite, which shields unacceptable processes of molecular-adhesive interaction.
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24

Zhang, X. H., Y. L. Yue y H. T. Wu. "Effect of P2O5 on Microstructure and Properties of Calcium Aluminoborosilicate Glasses". Key Engineering Materials 538 (enero de 2013): 258–61. http://dx.doi.org/10.4028/www.scientific.net/kem.538.258.

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In alkaline earth aluminoborosilicate glasses containing P2O5, the changes of structure and properties caused by variations in the ratio P2O5/B2O3were investigated. The structure was investigated by Fourier transform infrared spectroscopy and nuclear magnetic resonance. The dielectric constant and tangent loss were measured at 1 MHz. Chemical durability was evaluated by weight losses of glass samples after immersion in water. The results indicated that the fraction of four-coordinated boron atoms (N4), chemical durability and dielectric properties increased with increasing P2O5/B2O3replacements.
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25

Zhang, X. H., Y. L. Yue y H. T. Wu. "Effects of Al2O3 on the Structure and Properties of Aluminoborosilicate Glasses". Key Engineering Materials 538 (enero de 2013): 154–57. http://dx.doi.org/10.4028/www.scientific.net/kem.538.154.

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In alkaline earth aluminoborosilicate glasses CaO-B2O3-Al2O3-SiO2, the changes of structure and properties caused by variations in the ratio Al2O3/B2O3 were investigated. The structure was investigated by Fourier transform infrared spectroscopy. The dielectric constant and tangent loss were measured at 1 MHz. Chemical durability was evaluated by weight losses of glass samples after immersion in HCl and NaOH solutions. The results indicated that the fraction of four-coordinated boron atoms (N4), chemical durability and dielectric properties increased with increasing Al2O3/B2O3 replacements.
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26

Zhang, X. H., Y. L. Yue y H. T. Wu. "Effects of Compositional Variation on the Structure and Properties of Aluminoborosilicate Glasses". Key Engineering Materials 538 (enero de 2013): 238–41. http://dx.doi.org/10.4028/www.scientific.net/kem.538.238.

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In alkaline earth aluminoborosilicate glasses CaO-B2O3-Al2O3-SiO2, the changes of structure and properties caused by variations in the ratio SiO2/B2O3 were investigated. The structure was investigated by Fourier transform infrared spectroscopy. The dielectric constant and tangent loss were measured at 1 MHz. Chemical durability was evaluated by weight losses of glass samples after immersion in HCl and NaOH solutions. The results indicated that the fraction of four-coordinated boron atoms (N4), chemical durability and dielectric properties increased with increasing SiO2/B2O3 replacements.
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27

Ren, Xiangting, Pengfei Liu, Sylwester J. Rzoska, Boleslaw Lucznik, Michal Bockowski y Morten M. Smedskjaer. "Indentation Response of Calcium Aluminoborosilicate Glasses Subjected to Humid Aging and Hot Compression". Materials 14, n.º 13 (22 de junio de 2021): 3450. http://dx.doi.org/10.3390/ma14133450.

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Aluminoborosilicate glasses find a wide range of applications, which require good mechanical reliability such as surface damage resistance. Calcium aluminoborosilicate (CABS) glasses have recently been found to exhibit so-called intermediate behavior in terms of their response to sharp contact loading. That is, these glasses deform with less shear than normal glass and less densification than anomalous glasses. This deformation mechanism is believed to give rise to high crack initiation resistance of certain CABS glasses. In order to further improve and understand the micromechanical properties of this glass family, we studied the indentation response of different CABS glasses subjected to two types of post-treatment, namely hot compression and humid aging. Upon hot compression, density, elastic moduli, and hardness increased. Specifically, elastic modulus increased by as much as 20% relative to the as-made sample, while the largest change in hardness was 1.8 GPa compared to the as-made sample after hot compression. The pressure-induced increase in these properties can be ascribed to the increase in network connectivity and bond density. On the other hand, the crack initiation resistance decreased, as the hot compression increased the residual stress driving the indentation cracking. Humid aging had only a minor impact on density, modulus, and hardness, but an observed decrease in crack initiation resistance. We discuss the correlations between hardness, density, crack resistance, and deformation mechanism and our study thus provides guidelines for tailoring the mechanical properties of oxide glasses.
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28

Gong, Yuxuan, Anthony W. Wren y Nathan P. Mellott. "Quantitative morphological and compositional evaluation of laboratory prepared aluminoborosilicate glass surfaces". Applied Surface Science 324 (enero de 2015): 594–604. http://dx.doi.org/10.1016/j.apsusc.2014.10.132.

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29

Prado, M. O., N. B. Messi, T. S. Plivelic, I. L. Torriani, A. M. Bevilacqua y M. A. Arribére. "The effects of radiation on the density of an aluminoborosilicate glass". Journal of Non-Crystalline Solids 289, n.º 1-3 (agosto de 2001): 175–84. http://dx.doi.org/10.1016/s0022-3093(01)00707-4.

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30

Shchepetov, Vitalii, Olena Kharchenko, Serhii Kharchenko y Vitalii Kalinichenko. "FORMATION OF ANTIFRICTION SURFACE STRUCTURES UNDER FRICTION". Problems of Friction and Wear, n.º 3(100) (27 de septiembre de 2023): 117–25. http://dx.doi.org/10.18372/0370-2197.3(100).17901.

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The results of the formation of anti-friction surface structures of the developed glass-composite self-lubricating nanocoatings, the structural components of which have a qualitative effect on the graphitization process and ensure the production of a surface layer of α-graphite that minimizes contact parameters, are presented. The positive role of the glass phase in the form of aluminoborosilicate, which affects the tribotechnical properties of coatings, has been established. It is noted that the increase in adhesive strength is achieved due to the formation of a surface layer of vitreous sodium silicate during sputtering. It was established that the intercalation of the graphite layer with particles of the subsurface zone does not significantly affect the tribotechnical characteristics. The developed nanostructured glass composite coatings showed high anti-friction characteristics in the entire load-speed range of tests.
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31

Tsujiguchi, Masato, Tadashi Kobashi, Junji Kanbara, Yasuhiko Utsumi, Nobuaki Kakimori y Atsushi Nakahira. "Synthesis and Characterization of Zeolite from Glass by Hydrothermal Processing". Materials Science Forum 761 (julio de 2013): 91–94. http://dx.doi.org/10.4028/www.scientific.net/msf.761.91.

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Zeolite is a microporous aluminosilicate material with uniform pore size of less than 2 nm and chemical, mechanical, and thermal stability. In general zeolite is synthesized from silica, alumina, mineralizer (alkali metal hydroxide and fluoride) and water. Recently it has been reported that various zeolites is synthesized from soda-lime glass, slag and coal fly ash as silica and alumina source. On the other hand, the production volume of various kinds of high-quality glass which are utilized for high-tech products such as liquid crystal displays and plasma displays is rapidly increasing. The purpose in this study is to synthesize a zeolite from crushed aluminoborosilicate glasses which is used as LCD panels glass substrate. According to the XRD analysis, it was found that the synthesized sample had zeolite related structure. And the results of SEM observation of the products suggest that the zeolite structure was obtained as well as XRD results. It was thought that zeolite was successfully synthesized from the glass by this synthetic processing.
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32

Mukhopadhyay, A., G. Otieno, B. T. T. Chu, A. Wallwork, M. L. H. Green y R. I. Todd. "Thermal and electrical properties of aluminoborosilicate glass–ceramics containing multiwalled carbon nanotubes". Scripta Materialia 65, n.º 5 (septiembre de 2011): 408–11. http://dx.doi.org/10.1016/j.scriptamat.2011.05.023.

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33

Wu, Jingshi y Jonathan F. Stebbins. "Temperature and modifier cation field strength effects on aluminoborosilicate glass network structure". Journal of Non-Crystalline Solids 362 (febrero de 2013): 73–81. http://dx.doi.org/10.1016/j.jnoncrysol.2012.11.005.

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34

Malchukova, E. V., A. I. Nepomnyashchikh, B. Boizot y E. I. Terukov. "Radiation Effects and Optical Properties of Aluminoborosilicate Glass Doped with RE Ions". Glass Physics and Chemistry 44, n.º 4 (julio de 2018): 356–63. http://dx.doi.org/10.1134/s1087659618040090.

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35

Kharchenko, S. D. y O. V. Kharchenko. "Nanostructural glass composite coatings". Problems of Tribology 27, n.º 2/104 (24 de junio de 2022): 35–41. http://dx.doi.org/10.31891/2079-1372-2022-104-2-35-41.

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The results of the study of glass-composite nanostructured self-lubricating coatings are presented. The developed glass composite is an antifriction material with an ultrafine structure. The structural components of these coatings significantly affect the graphitization process and provide an antifriction surface layer of α-graphite. The formation of this layer makes it possible to significantly minimize the contact parameters in the friction region. The developed antifriction nanostructured glass-ceramic self-lubricating coatings containing magnesium carbide and structural components that promote surface graphitization do not contain expensive and scarce components, meet environmental safety requirements, and have high performance characteristics. A significant effect of aluminoborosilicate in the form of a glass phase on the tribological properties of coatings is noted. An increase in adhesive strength is achieved by forming a surface layer of glassy sodium silicate. Using X-ray phase analysis, it was found that the intercalating elements in the subsurface zone-graphite system at the initial stage of the process were Mg2+, Al3+, Cu2+ ions, which randomly penetrated into the interlayer space of the graphite matrix. At sliding speeds of more than 3.0 m/s, intercalates of binary molecular compounds of these elements with oxygen were found in the layered system of graphite. Their intercalation is accompanied by a sequence of repetitive stages, which are reversible with a change in tribological parameters and are characterized by a specific transformation of the structure and, above all, by an increase in the distance between layers due to the influence of various types of interlayer defects and the introduction of intercalants. The presence of near-surface particles in the graphite layer does not affect the tribotechnical characteristics of the coatings. The developed glass-composite nanostructured self-lubricating coatings have high antifriction characteristics throughout the entire load-speed range
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36

Lu, S. M., X. M. Yuan, X. H. Zhang, Y. J. Cui, H. T. Wu y Y. L. Yue. "Effects of CeO2 Additions on the Structure and Dielectric Properties of Aluminoborosilicate Glasses". Advanced Materials Research 710 (junio de 2013): 132–35. http://dx.doi.org/10.4028/www.scientific.net/amr.710.132.

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Glasses with compositions 15Al2O3-20B2O3-50SiO2-5CaO-(10-x)MgO-xCeO2 (x=0, 1, 2 and 3 mol %) were prepared by conventional melting method. Fourier-transform infrared spectroscopy (FTIR) indicated that the addition of CeO2 converted trigonal boron ([B) to tetrahedral boron ([B). The glass transition temperatures (Tg) were determined using a differential scanning calorimetry (DSC). Tg increased with increasing CeO2 content. Thus, the addition of CeO2 instead of MgO strengthened the glass network. The dielectric constant εr and loss tanδ were measured for these glasses at 105 Hz. The decrease in εr and tanδ could be attributed to the increase in the rigidity of the glass network as the CeO2 content increased.
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37

Kato, Y., H. Yamazaki, T. Watanabe, K. Saito y A. J. Ikushima. "Early Stage of Phase Separation in Aluminoborosilicate Glass for Liquid Crystal Display Substrate". Journal of the American Ceramic Society 88, n.º 2 (febrero de 2005): 473–77. http://dx.doi.org/10.1111/j.1551-2916.2005.00079.x.

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38

Quintas, Arnaud, Odile Majérus, Daniel Caurant, Jean-Luc Dussossoy y Philippe Vermaut. "Crystallization of a Rare Earth-Rich Aluminoborosilicate Glass With Varying CaO/Na2O Ratio". Journal of the American Ceramic Society 90, n.º 3 (marzo de 2007): 712–19. http://dx.doi.org/10.1111/j.1551-2916.2006.01455.x.

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39

Pires, Ricardo A., Isaac Abrahams, Teresa G. Nunes y Geoffrey E. Hawkes. "The role of alumina in aluminoborosilicate glasses for use in glass–ionomer cements". Journal of Materials Chemistry 19, n.º 22 (2009): 3652. http://dx.doi.org/10.1039/b822285a.

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40

Stapleton, Joshua J., Daniel L. Suchy, Joy Banerjee, Karl T. Mueller y Carlo G. Pantano. "Adsorption Reactions of Carboxylic Acid Functional Groups on Sodium Aluminoborosilicate Glass Fiber Surfaces". ACS Applied Materials & Interfaces 2, n.º 11 (noviembre de 2010): 3303–9. http://dx.doi.org/10.1021/am100730z.

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41

Shandarova, Ksenia, Gundula Helsch, Joachim Deubener, Wanja Dziony y Lothar Wondraczek. "Improving the corrosion resistance of sol-gel-derived aluminoborosilicate glass coatings by nitridation". Journal of Non-Crystalline Solids 447 (septiembre de 2016): 171–77. http://dx.doi.org/10.1016/j.jnoncrysol.2016.06.016.

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42

Harizanova, Ruzha, Miroslav Abrashev, Ivalina Avramova, Liliya Vladislavova, Christian Bocker, Gichka Tsutsumanova, Georgi Avdeev y Christian Rüssel. "Phase composition identification and microstructure of BaTiO 3 -containing sodium-aluminoborosilicate glass-ceramics". Solid State Sciences 52 (febrero de 2016): 49–56. http://dx.doi.org/10.1016/j.solidstatesciences.2015.12.007.

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43

Chouard, N., D. Caurant, O. Majérus, J. L. Dussossoy, A. Ledieu, S. Peuget, R. Baddour-Hadjean y J. P. Pereira-Ramos. "Effect of neodymium oxide on the solubility of MoO3 in an aluminoborosilicate glass". Journal of Non-Crystalline Solids 357, n.º 14 (julio de 2011): 2752–62. http://dx.doi.org/10.1016/j.jnoncrysol.2011.02.015.

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44

Hashikawa, Ryo, Yuya Takada, Yusaku Nishi, Atsushi Kinomura, Takeshi Saito, Arifumi Okada, Takashi Wakasugi y Kohei Kadono. "Electron and hole capture processes in Cu-doped glass exhibiting radiophotoluminescence". Journal of Physics: Condensed Matter 34, n.º 2 (29 de octubre de 2021): 025701. http://dx.doi.org/10.1088/1361-648x/ac2fd5.

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Abstract Radiophotoluminescence (RPL) is a radiation effect, and materials exhibiting RPL can be used in dosimeters. In this study, we observed remarkable RPL in Cu-doped aluminoborosilicate and silica glasses upon their exposure to 60Co γ-rays. The RPL intensity increased proportionally with the irradiation dose up to several hundreds of grays and then saturated beyond a certain dose level. An equation was derived theoretically to express the relationship between the RPL intensity and irradiation dose based on the RPL mechanism, in which copper ions, Cu2+ and Cu+, capture electrons and holes, generated by the irradiation, respectively, resulting in a change in the valence. The equation fitted well with the experimental results, providing two parameters for the equation. These parameters are associated with the saturation dose level and sensitivity, which are important for the application of materials to dosimeters. These parameters were discussed based on electron and hole capture processes in the RPL mechanism.
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45

Pierce, E. M., E. L. Richards, A. M. Davis, L. R. Reed y E. A. Rodriguez. "Aluminoborosilicate waste glass dissolution under alkaline conditions at 40°C: implications for a chemical affinity-based rate equation". Environmental Chemistry 5, n.º 1 (2008): 73. http://dx.doi.org/10.1071/en07058.

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Environmental context. The production of nuclear materials has generated a very large amount of highly radioactive wastes that need to be disposed of in a manner that will keep them from posing a danger for millions of years until the radioactivity decays. The process being considered for this daunting task is to contain the wastes in glass. Although studies with ancient and natural glass suggest the weathering of glass is slow, experiments are being conducted to determine the impact of this material on the natural environment and attempt to predict its long-term behaviour. The present paper briefly discusses three models that are being considered for implementing this process and the one that appears to hold the most promise. Abstract. Single-pass flow-through experiments were conducted with aluminoborosilicate waste glasses to evaluate how changes in solution composition affect the dissolution rate (r) at 40°C and pH (23°C) = 9.0. The three prototypic low-activity waste (LAW) glasses, LAWE-1A, -95A and -290A, used in these experiments span a wide range covering the expected processing composition of candidate immobilised low-activity waste (ILAW) glasses. Results suggest incongruent release of Al, B, Na, and Si at low flow-rate (q) to sample surface area (S), in units of (m s–1), (log10(q/S) < –8.9) whereas congruent release is observed at high q/S (log10(q/S) > –7.9). Dissolution rates increase from log10(q/S) ≈ –9.3 to –8.0 and then become constant at log10(q/S) > –7.9. Forward (maximum) dissolution rates, based on B release, are the same irrespective of glass composition, evident by the dissolution rates being within the experimental error of one another (r1A = 0.0301 ± 0.0153 g m–2 day–1, r95A = 0.0248 ± 0.0125 g m–2 day–1, and r290A = 0.0389 ± 0.0197 g m–2 day–1). The results also illustrate that as the activity of SiO2(aq) increases, the rate of glass dissolution decreases to a residual rate. The pseudo-equilibrium constant, Kg, (log10(Kg) = –3.7) predicted with these results is slightly lower than the K for chalcedony (log10(K) = –3.48) at 40°C. Finally, these results support the use of a chemical affinity-based rate law to describe glass dissolution as a function of solution composition.
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46

Kichigina, G. A., P. P. Kushch, D. P. Kiryukhin, E. N. Kabachkov y Yu M. Shulga. "A Study on the Effect of Gamma-Radiation on the Molecular Structure and Hydrophobic Properties of Telomeric Coatings on Glass Fabric". Химия высоких энергий 57, n.º 5 (1 de septiembre de 2023): 378–83. http://dx.doi.org/10.31857/s0023119323050042.

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Coatings of aluminoborosilicate fabric have been obtained by deposition from solutions of radiation-synthesized tetrafluoroethylene telomers. The resulting coatings were characterized by IR spectroscopy. By the sessile drop method, it has been established that the surface of the coatings is hydrophobic with a water contact angle of 140°. The effect of gamma-radiation on the molecular structure of coatings has been examined using IR spectroscopy. It has been shown that irradiation of the studied samples in air results in the formation of terminal COOH groups, which worsen the hydrophobicity of the samples. Irradiation in vacuum does not affect the hydrophobic properties of telomeric coatings
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47

Gong, Haiming, Bin Song, Yuting Yang, Peixian Wang, Zhiqiang Cao, Xiaojie Chen, Gaoling Zhao, Shou Peng, Yong Liu y Gaorong Han. "Ab initio molecular dynamics simulation of the structural and electronic properties of aluminoborosilicate glass". Journal of the American Ceramic Society 104, n.º 7 (17 de marzo de 2021): 3198–211. http://dx.doi.org/10.1111/jace.17761.

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48

Kato, Yoshinari, Hiroki Yamazaki y Minoru Tomozawa. "Detection of Phase Separation by FTIR in a Liquid-Crystal-Display Substrate Aluminoborosilicate Glass". Journal of the American Ceramic Society 84, n.º 9 (20 de diciembre de 2004): 2111–16. http://dx.doi.org/10.1111/j.1151-2916.2001.tb00967.x.

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49

Wu, Jingshi, Timothy M. Gross, Liping Huang, Siva Priya Jaccani, Randall E. Youngman, Sylwester J. Rzoska, Michal Bockowski, Saurav Bista, Jonathan F. Stebbins y Morten M. Smedskjaer. "Composition and pressure effects on the structure, elastic properties and hardness of aluminoborosilicate glass". Journal of Non-Crystalline Solids 530 (febrero de 2020): 119797. http://dx.doi.org/10.1016/j.jnoncrysol.2019.119797.

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50

Malchukova, E., B. Boizot, G. Petite y D. Ghaleb. "Optical properties and valence state of Sm ions in aluminoborosilicate glass under β-irradiation". Journal of Non-Crystalline Solids 353, n.º 24-25 (julio de 2007): 2397–402. http://dx.doi.org/10.1016/j.jnoncrysol.2007.04.003.

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