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On the fractography and some strength properties of Fe-based sintered materials with multicomponent oxide microadditives

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the present paper, the effect of alumina and zirconia microadditives on the compressive strength and flexural strength of sintered Fe-based powder materials is shown. It was found that intercrystalline fractures, both plastic and brittle, are observed when bending. During compression, fractures are observed too, as well as flaking of thin nearsurface layers. The intensity of such flaking depends on the composition of the sintered material. Strength parameters of the materials studied also depend on additives composition and quantity. The lowest parameters are observed for a material that contains 1% alumina particulates. The compressive strength of a material containing zirconia particulates increases 3 times and the flexural strength 2 times.
Rocznik
Strony
224--229
Opis fizyczny
Bibliogr. 10 poz., rys., wykr.
Twórcy
  • Institute of Mechanical Engineering and Machine Operation University of Zielona Góra ul. Prof. Z. Szafrana 4, 65-516 Zielona Góra, POLAND
autor
  • Institute of Mechanical Engineering and Machine Operation University of Zielona Góra ul. Prof. Z. Szafrana 4, 65-516 Zielona Góra, POLAND
autor
  • Institute of Mechanical Engineering and Machine Operation University of Zielona Góra ul. Prof. Z. Szafrana 4, 65-516 Zielona Góra, POLAND
autor
  • Powder Metallurgy Institute Belarusian National Academy of Sciences ul. Platonova 41, 220005 Minsk, BELARUS
Bibliografia
  • [1] Pramanik A. and Basak A.K. (2018): Fracture and fatigue life of Al-based MMCs machined at different conditions. Eng. Fracture Mech., vol.191, pp.33-45.
  • [2] Pramanik A., Islam M.N., Davies I.J., Boswell B., Dong Y., Basak A.K., Uddin M.S., Dixit A.R. and Chattopadhyaya S. (2017): Contribution of machining to the fatigue behaviour of metal matrix composites (MMCs) of varying reinforcement size. Int. J. Fatigue, vol.102, pp.9-17.
  • [3] Madeira S., Miranda G., Carneiro V.H., Soares D., Silva F.S. and Carvalho O. (2016): The effect of SiCp size on high temperature damping capacity and dynamic Young's modulus of hot-pressed AlSi–SiCp MMCs. Materials and Design, vol.93, pp.409-417.
  • [4] Parswajinan C., Ramnath B.V., Vetrivel M., Ranjith A., Rohit B.K., Vasanth S. and Vignesh S. (2018): Determination of mechanical behaviour of Fe-CNT MMC. Mater. Today: Proc., vol.5, pp.1176-1185.
  • [5] Monteverde F. and Silvestroni L. (2016): Combined effects of WC and SiC on densification and thermo-mechanical stability of ZrB2 ceramics. Mater. Des., vol.109, pp.396-407.
  • [6] Kumar A.P., Yadav D., Perugu C.S. and Kailas S.V. (2017): Influence of particulate reinforcement on microstructure evolution and tensile properties of in-situ polymer derived MMC by friction stir processing. Mater. Des., vol.113, pp.99-108.
  • [7] Lu T., Chen W., Xu W., Wang P., Mao M., Liu Y. and Fu Z. (2018): The effects of Cr particles addition on the aging behavior and mechanical properties of SiCp/7075Al composites. Mater. Charact., vol.136, pp.264-271.
  • [8] Huang G., Hou W. and Shen Y. (2018): Evaluation of the microstructure and mechanical properties of WC particie reinforced aluminum matrix composites fabricated by friction stir processing. Mater. Charact., vol.138, pp.26-37.
  • [9] Krishna M.V., Narasimha G.B., Rajesh N. and Xavior A.M. (2015): Optimization of influential parameters on mechanical behaviour of AlMg1 SiCu hybrid metal matrix composites using taguchi integrated fuzzy approach. Mater. Today: Proc., vol.2, pp.1464-1468.
  • [10] Durejko T., Zarański Z. and Sulej S. (2005): Investigation of mechanical properties of ODS Fe40Al sinters. Composites, vol.5, No.2, pp.39-42.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-81c3a25a-d122-4217-8497-8b6c4cd764cf
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