Relevant bibliographies by topics / Chemistry of zervalent irons

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Academic literature on the topic 'Chemistry of zervalent irons'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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Journal articles on the topic "Chemistry of zervalent irons"

1

Cardoso, P. H. S., C. L. Israel, and T. R. Strohaecker. "Abrasive wear in Austempered Ductile Irons: A comparison with white cast irons." Wear 313, no. 1-2 (May 2014): 29–33. http://dx.doi.org/10.1016/j.wear.2014.02.009.

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2

Zanardi, Franco, Franco Bonollo, Giuliano Angella, Nicola Bonora, Gianluca Iannitti, and Andrew Ruggiero. "Erratum to: A Contribution to New Material Standards for Ductile Irons and Austempered Ductile Irons." International Journal of Metalcasting 11, no. 3 (March 1, 2017): 631. http://dx.doi.org/10.1007/s40962-017-0145-8.

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3

Filipovic, Mirjana. "Iron-chromium-carbon-vanadium white cast irons: Microstructure and properties." Chemical Industry 68, no. 4 (2014): 413–27. http://dx.doi.org/10.2298/hemind130615064f.

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The as-cast microstructure of Fe-Cr-C-V white irons consists of M7C3 and vanadium rich M6C5 carbides in austenitic matrix. Vanadium changed the microstructure parameters of phase present in the structure of these alloys, including volume fraction, size and morphology. The degree of martensitic transformation also depended on the content of vanadium in the alloy. The volume fraction of the carbide phase, carbide size and distribution has an important influence on the wear resistance of Fe-Cr-C-V white irons under low-stress abrasion conditions. However, the dynamic fracture toughness of Fe-Cr-C-V irons is determined mainly by the properties of the matrix. The austenite is more effective in this respect than martensite. Since the austenite in these alloys contained very fine M23C6 carbide particles, higher fracture toughness was attributed to a strengthening of the austenite during fracture. Besides, the secondary carbides which precipitate in the matrix regions also influence the abrasion behaviour. By increasing the matrix strength through a dispersion hardening effect, the fine secondary carbides can increase the mechanical support of the carbides. Deformation and appropriate strain hardening occur in the retained austenite of Fe-Cr-C-V alloys under repeated impact loading. The particles of precipitated M23C6 secondary carbides disturb dislocations movement and contribute to increase the effects of strain hardening in Fe-Cr-C-V white irons.
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4

Sahoo, G., R. Balasubramaniam, and S. Misra. "Corrosion of Phosphoric Irons in Cement Grout." CORROSION 63, no. 10 (October 2007): 975–82. http://dx.doi.org/10.5006/1.3278315.

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5

Bartha, Csaba, Virgil Marinescu, Monica Jipa, Beatrice-Gabriela Sbarcea, Attila Tókos, Alina-Ruxandra Caramitu, and Iosif Lingvay. "Behavior in AC polarization of high-silicon cast irons." Studia Universitatis Babeș-Bolyai Chemia 66, no. 1 (March 31, 2021): 49–61. http://dx.doi.org/10.24193/subbchem.2021.01.04.

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6

Fima, P., and N. Sobczak. "Density and surface tension of molten cast irons." Journal of Mining and Metallurgy, Section B: Metallurgy, no. 00 (2021): 40. http://dx.doi.org/10.2298/jmmb210413040f.

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Computer-aided development of liquid-assisted metallurgical processes requires reliable basic data for the molten materials, including thermophysical properties such as density, surface tension and viscosity. Cast irons belong to the group of Fe-C alloys of practical importance due to their good technological and utility properties, yet experimental thermophysical data of cast irons in the literature are scarce. In this study, the density and surface tension of three compacted graphite cast iron alloys were measured by the sessile drop method in contact heating mode in the temperature range of 1473 - 1723 K with polycrystalline alumina as a substrate. The drop profile images were recorded both during heating and subsequent cooling regimes. At 1473 K, the density values of the studied compacted graphite irons are between 6.66 and 6.69 g?cm-3, whereas surface tension values are between 1130 and 1510 mN?m-1. The density decreases with increasing temperature, while surface tension dependence on temperature is less obvious. The obtained results are compared to the available literature data and analyzed taking into account chemical interaction of liquid cast irons with the substrate material.
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7

Bradley, W. L., and M. N. Srinivasan. "Fracture and fracture toughness of cast irons." International Materials Reviews 35, no. 1 (January 1990): 129–61. http://dx.doi.org/10.1179/095066090790324028.

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8

Kante, Stefan, and Andreas Leineweber. "The iron silicocarbide in cast irons revisited." Journal of Alloys and Compounds 815 (January 2020): 152468. http://dx.doi.org/10.1016/j.jallcom.2019.152468.

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9

Watson, S. W., B. W. Madsen, and S. D. Cramer. "Wear-corrosion study of white cast irons." Wear 181-183 (March 1995): 469–75. http://dx.doi.org/10.1016/0043-1648(95)90160-4.

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10

Poonawala, N. S., A. K. Chakrabarti, and A. B. Chattopadhyay. "Wear characteristics of nitrogenated chromium cast irons." Wear 162-164 (April 1993): 580–84. http://dx.doi.org/10.1016/0043-1648(93)90544-v.

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Dissertations / Theses on the topic "Chemistry of zervalent irons"

1

Wong, L.-L. "Studies in reactivity and dynamic processes of organometallic compounds." Thesis, University of Oxford, 1987. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.382707.

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Journal articles
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