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Journal articles on the topic 'Cerium or Tungsten'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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1

Okamoto, H. "Ce-W (cerium-tungsten)." Journal of Phase Equilibria 22, no. 6 (2001): 690. http://dx.doi.org/10.1007/s11669-001-0046-6.

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2

Tomić, Milena, Milena Šetka, Ondřej Chmela, et al. "Cerium Oxide-Tungsten Oxide Core-Shell Nanowire-Based Microsensors Sensitive to Acetone." Biosensors 8, no. 4 (2018): 116. http://dx.doi.org/10.3390/bios8040116.

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Gas sensitive cerium oxide-tungsten oxide core-shell nanowires are synthesized and integrated directly into micromachined platforms via aerosol assisted chemical vapor deposition. Tests to various volatile organic compounds (acetone, ethanol, and toluene) involved in early disease diagnosis demonstrate enhanced sensitivity to acetone for the core-shell structures in contrast to the non-modified materials (i.e., only tungsten oxide or cerium oxide). This is attributed to the high density of oxygen vacancy defects at the shell, as well as the formation of heterojunctions at the core-shell interf
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3

Li, Yan, Jian Can Yang, and Zhen Liu. "Welding Performance of Tungsten Electrodes with Different Contents of Rare Earth Oxides." Materials Science Forum 814 (March 2015): 631–35. http://dx.doi.org/10.4028/www.scientific.net/msf.814.631.

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In this paper, the influence of different contents of rare earth oxides of tungsten electrodes on the welding performance has been studied. Tungsten inert gas weld was carried out on 1060 aluminum plate, using different contents of rare earth oxides of tungsten electrodes. The content of CeO2 are 2% and 4%, the content of composite rare earth oxides (La2O3: CeO2: Y2O3 = 1:1:3) is 4%. The mechanical properties of these welded joints were investigated. The results indicated that the loss of the CeO2 content of 4% electrode weight was the maximum. The arc stability of the three kinds of tungsten
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4

HE, Wen, Dunqiang TAN, Yalei LI, Xin YANG, Lei LU, and Deping LU. "Effect of rare earth element cerium on preparation of tungsten powders." Journal of Rare Earths 33, no. 5 (2015): 561–66. http://dx.doi.org/10.1016/s1002-0721(14)60456-7.

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5

Ma, Yu-tian, Ying Zhang, Guang-Hong Lu, et al. "The effect of cerium doping on helium implantation behavior in tungsten." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 307 (July 2013): 55–59. http://dx.doi.org/10.1016/j.nimb.2012.12.080.

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6

Kolychev, A. V., V. A. Kernozhitskiy, and A. M. Fedorov. "Results of preliminary experimental studies of thermal electron cooling of turbomashinery converters of spacecrafts." Spacecrafts & Technologies 3, no. 4 (2019): 191–99. http://dx.doi.org/10.26732/2618-7957-2019-4-191-199.

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This article is devoted to thermionic cooling of turbomachine converters of spacecraft. Development is protected by patents for inventions and utility models. Moreover, the patent for the invention no. 2573551 is included in the list of Hundred Best Inventions of Russia of 2015. An experimental setup was developed on which primary experimental studies using a thermal imager were carried out. During thermal imaging studies, the presence of a thermal effect (cooling or heating) was recorded. The samples used were tungsten electrodes made of lanthanum tungsten with a diameter of 1 mm and a length
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7

Kovrizhkina, N. A., V. A. Kuznetsova, A. A. Silaeva, and V. V. Yemelyanov. "ALTERNATIVES TO CHROMATE PIGMENTS (review)." Proceedings of VIAM, no. 12 (2020): 96–107. http://dx.doi.org/10.18577/2307-6046-2020-0-12-96-107.

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The review of the researches concerning search of alternative to chromate pigments is provided. Among possible alternatives various connections are considered: cerium salts (in a mix with other non-chromate pigments), compounds of phosphorus, including organic (oxyaminophosphates and oxyethylidenediphosphonates), conductive polymers (polyaniline and polipirrol) and core pigments on their basis, compounds of transitional metals (vanadium, tungsten, molybdenum, manganese, etc.). It is shown that correctly picked up mix of pigments of inhibitive type is capable to provide the level of protective
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8

Hazin, Paulette N., John C. Huffman, and Joseph W. Bruno. "Preparation, luminescence studies, and solution behaviour of a cerium–tungsten heterobimetallic compound." J. Chem. Soc., Chem. Commun., no. 22 (1988): 1473–74. http://dx.doi.org/10.1039/c39880001473.

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9

Gilys, Laurynas, Egidijus Griškonis, Paulius Griškevičius, and Diana Adlienė. "Lead Free Multilayered Polymer Composites for Radiation Shielding." Polymers 14, no. 9 (2022): 1696. http://dx.doi.org/10.3390/polym14091696.

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Silicone-based polymer composites containing high atomic number additives are prioritized for the development of new materials for radiation shielding, due to their mechanical, thermal, electrical, and multifunctional properties. The X-ray attenuation properties, as well as mechanical properties, of the newly developed-lead-free multi-layered structures for radiation shielding, based on silicone composite layers containing tin, cerium oxide, tungsten oxide, and bismuth additives, are analyzed and discussed in this paper. It is shown that, by varying the additive concentrations in silicone comp
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10

Graetsch, Heribert A., Chandra Shekhar Pandey, Jürgen Schreuer, Manfred Burianek, and Manfred Mühlberg. "Incommensurate modulation of calcium barium niobate (CBN28 and Ce:CBN28)." Acta Crystallographica Section B Structural Science 68, no. 2 (2012): 101–6. http://dx.doi.org/10.1107/s0108768111054863.

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The incommensurately modulated crystal structures of Ca0.28Ba0.72Nb2O6 (CBN28) and Ce0.02Ca0.25Ba0.72Nb2O6 (Ce:CBN28) were refined in the supercentred setting X4bm(AA0,−AA0) of the 3 + 2-dimensional superspace group P4bm(aa½,−aa½). Both compounds are isostructural with a tetragonal tungsten bronze-type structure. The modulation of CBN28 consists of a wavy distribution of Ba and Ca atoms as well as vacancies on the incompletely occupied Me2 site with 15-fold oxygen coordination. The occupational modulation is coupled with a modulation of the atomic displacement parameters and a very weak modula
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11

Yagoubi, B., and C. A. Hogarth. "Effect of cerium oxide addition on the optical absorption edge of tungsten trioxide." Journal of Materials Science 28, no. 1 (1993): 239–42. http://dx.doi.org/10.1007/bf00349056.

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12

Dankeaw, Apiwat, Fabrizio Gualandris, Rafael Hubert Silva, et al. "Amorphous saturated cerium–tungsten–titanium oxide nanofiber catalysts for NOx selective catalytic reaction." New Journal of Chemistry 42, no. 12 (2018): 9501–9. http://dx.doi.org/10.1039/c8nj00752g.

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13

Wu, Hongping, Zhihong Peng, Junting Hao, Fiseha Tesfaye, and Leiting Shen. "Gradient Recovery of Tungsten, Cerium, and Titanium from Spent W-Ce/TiO2 Catalysts." Processes 13, no. 6 (2025): 1678. https://doi.org/10.3390/pr13061678.

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In this work, a gradient leaching strategy for stepwise extraction of tungsten and cerium from a spent W-Ce/TiO2 catalyst has been developed. Results of a thermodynamic analysis indicated that high-temperature alkaline leaching and low-temperature acid leaching were conducive to the extraction of W and Ce, respectively. The effects of leaching agent type, concentration, temperature, and liquid-to-solid ratio on the leaching rates of W and Ce were systematically investigated. Experimental results revealed that the leaching ratio of W reached 90.92% under optimized conditions of 3 mol/L NaOH, 10
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14

AbdulHassan, Mohammed, and Hameed Hussein Alwan. "Boosting tungsten -based catalyst activity for aerobic oxidative desulfurization of gas oil by cerium." Results in Engineering 23 (September 2024): 102557. http://dx.doi.org/10.1016/j.rineng.2024.102557.

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15

Chen, Liang, Junhua Li, and Maofa Ge. "DRIFT Study on Cerium−Tungsten/Titiania Catalyst for Selective Catalytic Reduction of NOxwith NH3." Environmental Science & Technology 44, no. 24 (2010): 9590–96. http://dx.doi.org/10.1021/es102692b.

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16

Matsumoto, Takumi, Kayano Sunada, Takeshi Nagai, et al. "Effects of cerium and tungsten substitution on antiviral and antibacterial properties of lanthanum molybdate." Materials Science and Engineering: C 117 (December 2020): 111323. http://dx.doi.org/10.1016/j.msec.2020.111323.

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17

Becker, R., L. Bianchini, G. Dissertori, et al. "Performance of a tungsten–cerium fluoride sampling calorimeter in high-energy electron beam tests." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 804 (December 2015): 79–83. http://dx.doi.org/10.1016/j.nima.2015.09.055.

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18

Wang, Xinge, Xukun Wang, Wei Wei, et al. "Humidity-resistant ethanol gas sensors based on electrospun tungsten-doped cerium oxide hollow nanofibers." Sensors and Actuators B: Chemical 393 (October 2023): 134210. http://dx.doi.org/10.1016/j.snb.2023.134210.

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19

Martinez, Tatiana, Laura Stephania Lavado Romero, D. Estefania Rodriguez, and Jahaziel Amaya. "A Review for the Design and Optimization of Catalysts: The Use of Statistics as a Powerful Tool for Literature Analysis." Chemistry 7, no. 3 (2025): 74. https://doi.org/10.3390/chemistry7030074.

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In this study, a statistical analysis of results reported in the literature was conducted through a 2n experimental design on the synthesis of bifunctional catalysts used in the production of lighter fuels, aiming for optimization while considering factors such as support (bentonite and vermiculite), acidity modifier (zirconium and cerium), metal (tungsten and molybdenum), metal content (5% and 10%), promoter (nickel and cobalt), and heteropolyacids (tungstophosphoric acid and molybdophosphoric acid), identifying their influence on textural properties and catalytic performance. Regarding the t
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20

Salleh, Fairous, Tengku Shafazila Tengku Saharuddin, Alinda Samsuri, Rizafizah Othaman, Mohammad Wahab Mohammad Hisham, and Mohd Ambar Yarmo. "Influence of Cerium Additive on the Reduction Behaviour of Tungsten Oxide under Carbon Monoxide Atmosphere." Materials Science Forum 888 (March 2017): 389–93. http://dx.doi.org/10.4028/www.scientific.net/msf.888.389.

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The reduction of pure WO3 and Ce/WO3 has been studied by using temperature programmed reduction (TPR), X-ray diffraction (XRD), and FESEM analysis. The reduction behavior were examined by non-isothermal reduction up to 900 oC then continued with isothermal reduction at 900 oC for 45 min under (40% v/v) carbon monoxide in nitrogen (CO in N2) atmosphere. The TPR results shows that reduction peak of Ce/WO3 were shifts to lower temperature as compared with to the pure WO3. In addition, TPR results indicate that addition with ceria give better reducibility compared to pure WO3. Based on the charact
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21

Becker, R., V. Candelise, F. Cavallari, et al. "Beam test results for a tungsten-cerium fluoride sampling calorimeter with wavelength-shifting fiber readout." Journal of Instrumentation 10, no. 07 (2015): P07002. http://dx.doi.org/10.1088/1748-0221/10/07/p07002.

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22

Jiang, Si, Teng Li, JiKai Zheng, Hao Zhang, Xiang Li, and Tianle Zhu. "Unveiling the Remarkable Arsenic Resistance Origin of Alumina Promoted Cerium–Tungsten Catalysts for NH3–SCR." Environmental Science & Technology 54, no. 22 (2020): 14740–49. http://dx.doi.org/10.1021/acs.est.0c05152.

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23

Shan, Wenpo, Fudong Liu, Hong He, Xiaoyan Shi, and Changbin Zhang. "Novel cerium–tungsten mixed oxide catalyst for the selective catalytic reduction of NOx with NH3." Chemical Communications 47, no. 28 (2011): 8046. http://dx.doi.org/10.1039/c1cc12168e.

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24

Wei, Liangliang, Liqiang Han, Liqing Chen, and Yang Zhao. "Oxidation behavior of cerium and tungsten-containing ferritic stainless steels at 1200 ºC in air." Procedia Manufacturing 15 (2018): 1588–95. http://dx.doi.org/10.1016/j.promfg.2018.07.308.

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25

Ashok Reddy, G. V., Sheik Abdul Sattar, K. Naveen Kumar, et al. "Effect of tungsten oxide thin films deposited on cerium oxide nano rods for electrochromic applications." Optical Materials 134 (December 2022): 113220. http://dx.doi.org/10.1016/j.optmat.2022.113220.

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26

Polyak, Yaroslav, and Z. Bastl. "XPS and factor analysis study of initial stages of cerium oxide growth on polycrystalline tungsten." Surface and Interface Analysis 47, no. 6 (2015): 663–71. http://dx.doi.org/10.1002/sia.5762.

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27

Fatykhov, Ildus, Chulpan Islamova, Boris Borisov, Elena Korepanova, Vera Goreeva, and Ol'ga Tihonova. "INFLUENCE OF AGROCHEMICAL SOIL PROPERTIES ON YIELD AND CHEMICAL COMPOSITION OF RAUSHAN BARLEY GRAIN." Vestnik of Kazan State Agrarian University 16, no. 4 (2021): 61–66. http://dx.doi.org/10.12737/2073-0462-2021-61-66.

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The productivity of barley Raushan 24.9-53.1 tons per hectare on the farm (SKHPK) them. Michurin, Vavozhsky district of the Udmurt Republic for 2013-2019 had a positive average correlation (r = 0,46) with the pH of the arable layer, a positive weak correlation with the content in the arable layer of mobile phosphorus (r = 0,26), exchange potassium (r = 0.12) and humus (r = 0,12). The crop of 2017, had more potassium, sulfur, phosphorus, magnesium, silicon, calcium, sodium, manganese, tin, iron, rubidium, strontium, barium, zirconium, copper, zinc, titanium, selenium, nickel, vanadium, gadolini
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28

Zhang, He, and Guo-Hua Zhang. "Preparation and performances of molybdenum‑copper alloy with additions of tungsten, nickel, iron and cerium dioxide." International Journal of Refractory Metals and Hard Materials 121 (June 2024): 106691. http://dx.doi.org/10.1016/j.ijrmhm.2024.106691.

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29

Morkan, Izzet Amour, та Ayşe Uztetik Morkan. "Cycloaddition Reactions of (η6-Tropone)tricarbonylmetal(0) Complexes of Group 6 Metals with Alkynes". Collection of Czechoslovak Chemical Communications 67, № 11 (2002): 1635–46. http://dx.doi.org/10.1135/cccc20021635.

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(η6-Cyclohepta-2,4,6-trien-1-one)tricarbonylmetal(0) complexes of chromium (2a), molybdenum (2b), and tungsten (2c) are formed when tris(acetonitrile)tricarbonylchromium(0), -molybdenum(0), and -tungsten(0), respectively, are treated photochemically with tropone (cyclohepta-2,4,6-trien-1-one) 1. UV photolysis of 2a-2c and RC≡CR' (R = R' = Ph, Me3Si, Et; R = Ph, R' = Me3Si) in toluene gives the [6+2] cycloadducts, (η4,η2-8,9-diphenylbicyclo[4.2.1]nona-3,5,8-trien-1-one)tricarbonylmetal(0) 3a-3c, (η4,η2-8,9-bis(trimethylsilyl)bicyclo[4.2.1]nona-3,5,8-trien-1-one)tricarbonylmetal(0) 4a-4c, (η4,η2
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30

Zou, Qing Hua, and Zhen Guo Wang. "Experiment on Doping Rare Earth Diamond Tools Matrix Composites with Fe Replacing Co." Applied Mechanics and Materials 692 (November 2014): 200–205. http://dx.doi.org/10.4028/www.scientific.net/amm.692.200.

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This paper makes the experimental experiment on adding rare earth elements cerium doped in diamond matrix composites. Based on the doping of rare earth in metal powders including tungsten carbide, iron and nickel, the cobalt in diamond matrix is entirely with iron and the process route of rare earth doping is indicated. The performance of matrix composites with rare earth elements and free of rare earth elements is measured and the results obtained show that the flexural strength, the hardness and the impact ductility of matrix composites with rare earth elements are improved and the flexural
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31

Xiong, Zhi-bo, Fu-cheng Guo, Jia-xin Zhang, Wei Lu, and Huan-cong Shi. "Influence of g-C3N4 doping on the NH3-SCR activity of Cerium–tungsten–titanium mixed oxide catalyst." Journal of Materials Research 37, no. 3 (2022): 835–48. http://dx.doi.org/10.1557/s43578-022-00489-2.

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32

Wang, Chuan, and Hisashi Yamamoto. "Tungsten-, Molybdenum-, and Cerium-Promoted Regioselective and Stereospecific Halogenation of 2,3-Epoxy Alcohols and 2,3-Epoxy Sulfonamides." Organic Letters 16, no. 22 (2014): 5937–39. http://dx.doi.org/10.1021/ol503091n.

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33

Shan, Wenpo, Fudong Liu, Hong He, Xiaoyan Shi, and Changbin Zhang. "ChemInform Abstract: Novel Cerium-Tungsten Mixed Oxide Catalyst for the Selective Catalytic Reduction of NOx with NH3." ChemInform 42, no. 41 (2011): no. http://dx.doi.org/10.1002/chin.201141013.

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34

Ali, Haider, Nadia Bashir, Adnan Rauf, Hajira Haroon, Sehrish Naz, and Salma Shad. "Synthesis of Tungsten-Cerium Doped Titanium Oxide Nanocatalyst to Remediate Water by the Degradation of Atrazine Herbicide." Journal of Nano Research 77 (March 30, 2023): 47–63. http://dx.doi.org/10.4028/p-hb1aa7.

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Tungsten (W) and Cerium (Ce) doped nanoTitanium oxide (TiO2) nanophotocatalyst were prepared by the sol-gel method and their photodegradation effect against atrazine herbicide were investigated. The doping of the nanocatalyst took place at 50 °C within a time interval of 120 minutes. The prepared gel was dried and calcined in the oven at 350 °C for 75 minutes. The XRD result revealed that the synthesized nanocatalyst was 16.7 nm in size with a mostly monoclinic structure. With FTIR spectra, characteristic peaks of TiO2 were found at 516 cm-1, Ti-O-Ce at 1104 cm-1, and W-O with a single bond at
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35

Yurgenson, G. A. "Rare-earth elements in the ore of the Bukukinskoye tungsten deposit (the Eastern Transbaikalia)." LITHOSPHERE (Russia) 21, no. 1 (2021): 90–102. http://dx.doi.org/10.24930/1681-9004-2021-21-1-90-102.

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Research subject. This study investigated the mineral association of quartz-wolframite veins of the Bukukinskoye tungsten deposit, with a particular focus on the content of rare-earth elements and their carrier minerals, their chemical composition and the distribution of light and heavy lanthanides. Materials and methods. The chemical composition of two groups of samples containing different ore minerals, as well as the mineral composition of ores was investigated on 143 samples in thin and polished sections using an AXIO ScopeAI optical polarizing microscope and a LEO 1430 VP scanning electro
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36

Dobránszky, János, Szabolcs Bella, and Imre Kientzl. "Wear of the Tungsten Electrode at the TIG Arc-Spot Welding of Dissimilar Metals." Materials Science Forum 473-474 (January 2005): 73–78. http://dx.doi.org/10.4028/www.scientific.net/msf.473-474.73.

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Micro-TIG welding experiments have been used for the welding of the contacts of special lamps. Since the welded materials were different, the welded joint was a heterogeneous bound. For the joints a 0.6 mm Ni-Mn alloy or 0.4 mm Mo wire were inserted onto the hole of AISI 304 type austenitic stainless steel sheet, with a wall thickness of 0.35 mm. The micro-TIG welding was completed with a welding machine of which control characteristics corresponded to all the requirements necessary for TIG arc-spot welding. The goal of the experiments was to find the optimum regarding the quality of the lamps
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37

Xiong, Zhi-bo, Jing Liu, Fei Zhou, et al. "Selective catalytic reduction of NO with NH3 over iron-cerium-tungsten mixed oxide catalyst prepared by different methods." Applied Surface Science 406 (June 2017): 218–25. http://dx.doi.org/10.1016/j.apsusc.2017.02.157.

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38

Purkayastha, Surajit, and Dheerendra Kumar Dwivedi. "Slurry erosion performance of CeO2-modified Ni–WC coatings." Industrial Lubrication and Tribology 66, no. 4 (2014): 533–37. http://dx.doi.org/10.1108/ilt-03-2012-0034.

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Purpose – This paper aims to deal with the study of effect of cerium oxide (CeO2) modification on the sand slurry erosion resistance of Ni – tungsten carbide (WC) coatings. Design/methodology/approach – Flame-sprayed conventional and CeO2-modified Ni–WC coatings were developed on a mild steel substrate. Slurry erosion tests were carried out in an in-house-designed and fabricated pot-type slurry erosion test rig to evaluate wear behavior of conventional and modified coatings. The erosive wear test was conducted using 5 per cent silica sand slurry at 850 rpm. Findings – Modified coatings exhibit
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39

Wang, Xiaoxiang, Heyao Ma, Beilei Li, et al. "A superior cerium-tungsten bimetal oxide catalyst with flower-like structure for selective catalytic reduction of NO by NH3." Chemical Engineering Journal 435 (May 2022): 134892. http://dx.doi.org/10.1016/j.cej.2022.134892.

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40

Jang, Jong Tak, Jung Hun Kwak, Gui Young Han, Jong Wook Bae, Kwang Hun Cho, and Ki June Yoon. "Methane reforming and water splitting by zirconia-supported cerium-tungsten composite oxides for cyclic production of syngas and hydrogen." International Journal of Hydrogen Energy 41, no. 15 (2016): 6220–29. http://dx.doi.org/10.1016/j.ijhydene.2016.03.062.

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41

Wang, Chuan, and Hisashi Yamamoto. "ChemInform Abstract: Tungsten-, Molybdenum-, and Cerium-Promoted Regioselective and Stereospecific Halogenation of 2,3-Epoxy Alcohols and 2,3-Epoxy Sulfonamides." ChemInform 46, no. 16 (2015): no. http://dx.doi.org/10.1002/chin.201516052.

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42

Ma, Wenxiao, Yun Ge, Lixin Zhang, Fei Chen, Yijiang Zheng, and Zhuhui Qi. "Study on the Friction Performance of Cerium Oxide on Supersonic Flame-Sprayed WC-10Co-4Cr Coating." Coatings 11, no. 1 (2020): 24. http://dx.doi.org/10.3390/coatings11010024.

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In order to improve the surface wear resistance of the key parts of agricultural machinery, this article uses 65Mn steel, which is commonly used in agricultural machinery, as the matrix and tungsten carbide-based coating as the basis. In total, two coating materials are selected as WC-10Co-4Cr with and without CeO2 added. The coating was prepared by the supersonic flame spraying process (HVOF), and the tribological characteristics and coating of the three samples of 65Mn, WC-10Co-4Cr, and WC-10Co-4Cr+CeO2 coatings were investigated by the comprehensive material surface performance tester. Laye
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43

Sönmez, Murat, and Polat Topuz. "Effect of TIG welding parameters in joining grade 2 pure titanium." Materials Testing 63, no. 5 (2021): 420–25. http://dx.doi.org/10.1515/mt-2020-0071.

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Abstract Grade 2, the most widely used pure titanium in the industry, has high corrosion resistance, excellent ductility, good weldability and is easily machinable. If titanium is exposed to temperatures above 500 °C due to moisture or hydrocarbons in the air, it is susceptible to taking up oxygen, nitrogen, carbon and hydrogen. This can cause cracks, especially after welding. Therefore, protection of the welding zone from external factors is of great importance during welding. For these reasons, TIG welding is the most widely used method for titanium welding. In this study, Grade 2 pure titan
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44

Chen, Jinqing, Yu Xiao, Bin Huang, and Xiaoqi Sun. "Sustainable cool pigments based on iron and tungsten co-doped lanthanum cerium oxide with high NIR reflectance for energy saving." Dyes and Pigments 154 (July 2018): 1–7. http://dx.doi.org/10.1016/j.dyepig.2018.02.032.

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45

Ning, Huanpo, Haixue Yan, Zhipeng Gao, Xiaoyong Wei, and Michael J. Reece. "Effect of donor dopants cerium and tungsten on the dielectric and electrical properties of high Curie point ferroelectric strontium niobate." Ceramics International 39, no. 7 (2013): 7669–75. http://dx.doi.org/10.1016/j.ceramint.2013.03.019.

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46

Maksimović, Tijana, Pavle Tančić, Jelena Maksimović, et al. "Novel cerium and praseodymium doped phosphate tungsten bronzes: Synthesis, characterization, the behavior in the Briggs-Rauscher reaction and photoluminescence properties." Optical Materials 143 (September 2023): 114125. http://dx.doi.org/10.1016/j.optmat.2023.114125.

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Xiong, Zhi-bo, Xiao-ke Qu, Yan-ping Du, et al. "Selective catalytic reduction of NOx with NH3 over cerium–tungsten–titanium mixed oxide catalyst: Synergistic promotional effect of H2O2 and Ce4+." Journal of Materials Research 35, no. 16 (2020): 2218–29. http://dx.doi.org/10.1557/jmr.2020.203.

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Liu, Jing, Zhi-bo Xiong, Fei Zhou, Wei Lu, Jing Jin, and Shi-fa Ding. "Promotional effect of H2O2 modification on the cerium-tungsten-titanium mixed oxide catalyst for selective catalytic reduction of NO with NH3." Journal of Physics and Chemistry of Solids 121 (October 2018): 360–66. http://dx.doi.org/10.1016/j.jpcs.2018.05.051.

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Ramadhass, Keerthika Devi, Muthusankar Ganesan, Tse-Wei Chen, et al. "Porous-coral-like cerium doped tungsten oxide/graphene oxide micro balls: A robust electrochemical sensing platform for the detection of antibiotic residue." Colloids and Surfaces A: Physicochemical and Engineering Aspects 628 (November 2021): 127275. http://dx.doi.org/10.1016/j.colsurfa.2021.127275.

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Li, Shuzhen, Ping Cui, Zhenwei Wang, Nchare Momuinou, Luoxin Liu, and Lei Wang. "Highly Effective Transformation of Methanol and RFCC Gas to Propylene and Paraxylene with Tungsten Hydride and Cerium Oxide Comodified HZSM-5 Zeolite." Industrial & Engineering Chemistry Research 54, no. 47 (2015): 11929–36. http://dx.doi.org/10.1021/acs.iecr.5b03311.

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