https://journals.asianresassoc.org/index.php/bsr/issue/feedBulletin of Scientific Research2025-12-30T00:00:00+00:00Santhoshkumar Muthu Ph.Dbsr@journals.asianresassoc.orgOpen Journal Systems<p><strong>The Bulletin of Scientific Research (BSR) (ISSN 2582-4678 (Online))</strong> is a Biannual open access interdisciplinary journal dedicated to advancing knowledge across a broad spectrum of academic disciplines. BSR welcome original research and review and commentary the following areas: <strong>Life Sciences:</strong> Biotechnology and Biochemistry. <strong>Physical, Chemical Science and Engineering:</strong> We Encourage Research In, Chemistry, Computer Science, Physics Material Science and General Engineering. <strong>Arts, Social Science and Humanities: </strong>The journal encompasses a wide range of topics in Arts and Humanities, Business Management, Education, Economics, Law, Finance, Psychology, Political Science, Social Work, and Tourism.</p> <p>BSR fosters a global community of researchers and scholars by providing a platform to share groundbreaking discoveries and advancements across diverse disciplines. BSR caters to a diverse audience encompassing researchers, students, academics, and professionals. We empower our readers with high-quality information that fuels their intellectual growth and propels advancements within their chosen fields. We offer researchers and academics innovative tools and world-class resources to make critical decisions, enhance their productivity, and achieve groundbreaking outcomes.</p>https://journals.asianresassoc.org/index.php/bsr/article/view/5615Influence of the Presence of Aluminum and of its Content on the As–Cast Microstructure of Alloys Designed to be Tac–Reinforced2025-11-06T12:30:06+00:00Patrice Berthodpatrice.berthod@univ-lorraine.fr<p>Four alloys based on either cobalt or nickel, containing tantalum and carbon for creep–resistance purpose (based on TaC carbides), as well two aluminum contents for hot oxidation–resistance purpose (alumina–forming behavior), were conventionally cast. Their microstructures in the as–cast conditions were characterized. As expected, all alloys contain a dendritic matrix and TaC as single carbide type present. However, differences were noticed among the four alloys concerning the distribution of the TaC carbides. As expected, in the two alloys containing 5 wt. % Al, Co-based or Ni-base, the tantalum carbides were successfully obtained as an interdendritic network of eutectic script TaC carbides. This was more or less different for the {10 wt. % Al}–containing alloys for which the TaC phase crystallized according to two successive liquid–solid transformations. Obviously, for the two former alloys, TaC appeared first as pre–eutectic particles, and second, after the dendritic development of the matrix, as eutectic script carbides. The cobalt alloy contained a majority of interdendritic eutectic script TaC and a minority of blocky pre–eutectic TaC segregated to the periphery of the ingot. The carbides distribution in the nickel alloy was inversed, with the greatest part of TaC carbides formed prior to the matrix crystallization and massively segregated in the outermost part of the ingot. The high temperature properties of this last alloy were controlled at 1200°C and this showed that, in addition to the good oxidation behavior, the {10 wt.% Al}–containing nickel alloy demonstrated nevertheless a correct creep–resistance.</p>2025-12-14T00:00:00+00:00Copyright (c) 2025 Patrice Berthod