𝗔𝗰𝗿𝗼𝗻𝗶𝗺𝘀 𝗕𝗿𝗲𝗮𝗸𝗱𝗼𝘄𝗻: do you know all the meanings? Whether you're new to the industry or a seasoned professional, we hope you find this information helpful. Understanding the different fusion methods can be crucial for selecting the right materials for your projects and also if you work in the metals industry, knowing what these acronyms mean is essential for ensuring quality and precision. 𝗝𝗼𝗶𝗻 𝘂𝘀 𝗮𝘀 𝘄𝗲 𝗯𝗿𝗲𝗮𝗸 𝗱𝗼𝘄𝗻 𝘁𝗵𝗲 𝗸𝗲𝘆 𝗳𝘂𝘀𝗶𝗼𝗻 𝘁𝗲𝗰𝗵𝗻𝗶𝗾𝘂𝗲𝘀 for Titanium, Steels and Nickel Alloys, explaining the unique processes and benefits of each. »» Save this post for future reference and let us know in the comments if you have any questions or additional insights! #titaniuminternationalgroup #Ti6Al4V #melting #materialsscience #metallurgy
TIG Titanium International Group Srl’s Post
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Tungsten, also known as Wolfram, is a metal which is represented by the chemical symbol W and the atomic number 74. Tungsten sits in the middle of the periodic table with a group of metal elements called transition metals. These metals have similar physical and chemical properties. One of tungsten’s unique properties is its very high melting point of 3,422°C (6,191.6°F). This is the highest melting point of any metal. Tungsten is the heaviest common, naturally occurring metal and has the ability to retain its strength at very high temperatures. These properties account for tungsten’s primary application and our area of expertise – the manufacture of tungsten alloys. To find out more, follow the link below: https://lnkd.in/e7AQ9CPy #tungsten #tungstenalloy #metallurgy #precisionmachining #tungstenalloy
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Appreciate your contributions to a recent LinkedIn poll on 'The Highest Conductivity Metal'. The attached technical report contains insights into this topic. Enjoy reading. Follow# Metallurgical Insights. #Metallurgy #Metals #MaterialsEngineering
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Delving into the intricate details of the iron-carbon phase diagram remains a perpetual challenge in industrial settings. This image succinctly captures the essence of our renowned iron-carbon diagram, spotlighting its pivotal role in industrial applications. It navigates crystal clear transitions, microstructural formations, and highlights key applications corresponding to various carbon percentages. #MaterialTransformation #PhaseDiagramInsights #IndustrialApplications
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2moScusate non voglio fare il professore ma sono esperto di fusione di metalli specialmente nel campo del Titanio allora: Non si dice “fusion methods” ma melting methods (la fusion e’ quella nucleare), VAR nel caso del Titanio e’ anche una “primary” melting process se fondo elettrodi di spugna compattata, prende nome secondary se fondo lingotti provenienti da Electron Beam, Plasma o Skull Melting, o da prima fusione VAR, nel VAR si degasa soltanto estraendo H2 e Cl e Magnesio proveniente dalla spugna (Kroll process), nell’ ESR non si fonde Titanio (il Paton Institute di Kiev ha fatto in passato prove con forni ESR sperimentali e con scorie particolari, il sottoscritto è stato il primo in Europa nel 1991 a fondere in un forno ESR sperimentale il Titanio), EAF electric arc furnace non ha niente a che fare con il Titanio e’ il forno elettrico che si usa in acciaieria rivestimento in refrattario si usa solo per acciai e superleghe, Electron Beam produce lingotti di Titanio che se usati per aerospace devono essere rifusi in VAR, se per applicazioni civili industriali basta la fusione EB, AOD impianto per l’affinazione dell’acciaio per abbassare il Carbonio con il Titanio non ha niente a che fare! A disposizione per chiarimenti!!