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Relevant bibliographies by topics / Type 430 ferritic stainless steel

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Academic literature on the topic 'Type 430 ferritic stainless steel'

Author: Grafiati

Published: 4 June 2021

Last updated: 11 February 2022

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Journal articles on the topic "Type 430 ferritic stainless steel"

1

Oliveira, A. M. C., R. C. Paredes, W. C. Godoi, and A. P. Vaz. "Duplex stainless steel of type UNS S32101 and ferritic stainless steel of type AISI 430 subjected to cathodic hydrogenation." International Journal of Scientific Research and Management 8, `11 (2020): 17–28. http://dx.doi.org/10.18535/ijsrm/v8i11.ms01.

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This work presents a study on the duplex stainless steel UNS S32101 and ferritic AISI 430 when subjected to cathodic hydrogenation, to ascertain their behavior under the action of hydrogen. Throughout the research, with the aid of optical (MO), scanning electronics (SEM) and atomic force (AFM) microscopy, both hydrogen embrittlement and pitting corrosion after hydrogenation and degassing in UNS S32101 duplex stainless steel became evident. Subsequently, the X-ray diffraction performed to verify the phase transformations confirmed the transformation of the austenitic phase into the martensitic

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2

Tanure, Leandro Paulo de Almeida Reis, Cláudio Moreira de Alcântara, Tarcísio Reis de Oliveira, Dagoberto Brandão Santos, and Berenice Mendonça Gonzalez. "Comparison of Microstructure and Mechanical Behavior of the Ferritic Stainless Steels ASTM 430 Stabilized with Niobium and ASTM 439 Stabilized with Niobium and Titanium." Materials Science Forum 879 (November 2016): 1651–55. http://dx.doi.org/10.4028/www.scientific.net/msf.879.1651.

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The use of Ferritic Stainless Steels has become indispensable due its lower cost and the possibility to replace austenitic stainless steels in many applications. In this study, cold rolled sheets of two stabilized ferritic stainless steels with 85% thickness reduction were annealed by applying a heating rate of 24 oC/s and a soaking time of 24 s. The niobium stabilized ferritic stainless steel type ASTM 430 (430Nb) was annealed at 880 oC while the niobium and titanium bi-stabilized steel ASTM 439 was annealed at 925 oC. The annealed samples were tensile tested and due to the smaller grain size

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3

Kisko, Anna P., Pasi P. Suikkanen, C. Isaac Garcia, et al. "Simulation of Line Annealing of Type 430 Ferritic Stainless Steel." Materials Science Forum 715-716 (April 2012): 437–46. http://dx.doi.org/10.4028/www.scientific.net/msf.715-716.437.

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The annealing behavior of cold rolled Type 430 ferritic stainless steel is the subject of this paper. The steel was cold rolled 79%, then heated at 6 °C/s to the soaking temperature of 841 °C, which is just below the Ae1temperature. During heating, specimens were quenched from selected temperatures between 650 and 841 °C and after various times at 841 °C. These quenched samples underwent metallographic examination and micro-hardness determination. The results indicated that under the prevailing experimental conditions, the hardness appeared to correlate strongly with the extent of recrystalliz

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4

Zang, Shu Jun, Juan Juan Li, Xiao Qiang Yin, and Jian Bin Zhang. "Microstructure Observation of the Tensile Fractured 430 Ferritic Stainless Steel." Advanced Materials Research 887-888 (February 2014): 228–32. http://dx.doi.org/10.4028/www.scientific.net/amr.887-888.228.

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The article studies on sections microstructure of 430ferritic stainless steel after tension, the tensile temperatures are the 1073K, 1173K, 1223K, 1273K, 1323K and 1423K. The transverse sections (vertical tensile direction) of fractured specimens microstructure of 430ferritic stainless steel were observed and compared with those of longitudinal sections (parallel tensile direction). Moreover, we compare microstructure of transverse section specimens with the salt water-cooled condition and air-cooled condition. The optical micrograph of fractured tensile specimens of 430stainless steel after c

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5

Juuti, Timo J., Timo Manninen, and David Porter. "Influence of Cooling Rate on Free Interstitial Concentration in Type 430 Ferritic Stainless Steel." Key Engineering Materials 611-612 (May 2014): 111–16. http://dx.doi.org/10.4028/www.scientific.net/kem.611-612.111.

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In ferritic steels, the amount of free C and N should be as low as possible to avoid the formation of Cottrell atmospheres and their associated discontinuous yielding and Lüders bands during forming. During the post-annealing cooling of ferritic stainless steel, carbides and nitrides of the type MX and M23C6precipitate. The volume fraction of the precipitates is determined by chemical composition, microstructure and the cooling path. In some cases, precipitation might not be sufficient to remove all free interstitials from the matrix, in which case, the process parameters or composition of the

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6

Jaskari, Matias, Antti Järvenpää, and L. Pentti Karjalainen. "The Effect of Heating Rate and Temperature on Microstructure and R-Value of Type 430 Ferritic Stainless Steel." Materials Science Forum 941 (December 2018): 364–69. http://dx.doi.org/10.4028/www.scientific.net/msf.941.364.

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Typical applications of ferritic stainless steels require good formability of a steel that is highly dependent on the processing route. In this study, the effects of heating rate and peak temperature on the texture and formability of a 78% cold-rolled unstabilized 17%Cr (AISI 430) ferritic stainless steel were studied. The cold-rolled sheet pieces were heated in a Gleeble 3800 simulator at the heating rates of 25 °C/s and 500 °C/s up to various peak temperatures below 950 °C for 10 s holding before the final cooling at 35 °C/s to room temperature. Microstructures were characterized and the tex

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7

Li, Jing Yuan, Sumio Sugiyama, and Jun Yanagimoto. "Microstructural Evolution and Deformation Behavior of Stainless Steel in Semi-Solid State." Solid State Phenomena 116-117 (October 2006): 681–85. http://dx.doi.org/10.4028/www.scientific.net/ssp.116-117.681.

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Thixoforming or Semi-Solid Metal Forming offers many advantages in comparison with casting and conventional forging. The purpose of the present study is to provide the basic microstructure and deformation data for austenitic and ferritic stainless steel under mushy state. As well known, the stainless steels solidify in different modes according to the different chemical compositions. In this paper, microstructural evolution of austenitic stainless steel type 304 which solidifies in FA mode ( L → L +δ → L +δ +γ →δ +γ →γ ),austenitic stainless steel type 310S which solidifies in A mode ( L → L +

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8

Bervian, A., Matias Angelis Korb, I. D. Savaris, et al. "Phases Obtained from Heat Treatment of Mn-Co-Based Coatings Deposited by Dip Coating." Materials Science Forum 798-799 (June 2014): 323–27. http://dx.doi.org/10.4028/www.scientific.net/msf.798-799.323.

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Studies have been performed to improve the oxidation resistance of ferritic stainless steels at high temperatures because these materials have been proposed for the manufacture of interconnectors for solid oxide fuel cell (SOFCs) and solid oxide electrolysis cells (SOECs) operating at intermediate temperatures (IT-SOFCs). Among the coatings employed, ceramic spinel-type oxides have been the most frequently applied. In this context, Mn-Co-based coatings were deposited on ferritic stainless steel (AISI 430) in this study using a dip-coating technique. The obtained coatings were characterized wit

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9

Onsekiz, Murat, and Yahya Altunpak. "Effect of Electrode Materials Type on Resistance Spot Welding of AISI 430 Ferritic Stainless Steel." International Journal of Engineering Research in Africa 31 (July 2017): 53–58. http://dx.doi.org/10.4028/www.scientific.net/jera.31.53.

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In this study, AISI 430 ferritic stainless steel sheet with 0.6 mm thickness was joined by resistance spot welding using different electrode materials. The effects of electrode materials and welding parameters on the mechanical properties of welded samples are defined in terms of peak load. The hardness and tensile shear load bearing capacity of welded joint was determined and the microstructure of welded samples was also evaluated. The most suitable welding parameters for each electrode material were determined.

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10

Nishimura, R. "Stress Corrosion Cracking of Type 430 Ferritic Stainless Steel in Chloride and Sulfate Solutions." CORROSION 48, no. 11 (1992): 882–90. http://dx.doi.org/10.5006/1.3315889.

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