https://journals.agh.edu.pl/jcme/issue/feedJournal of Casting & Materials Engineering2024-09-30T00:00:00+02:00Journal of Casting & Materials Engineeringjcme@agh.edu.plOpen Journal Systems<p><strong><img style="margin-right: 20px; margin-bottom: 5px; float: left;" src="https://journals.agh.edu.pl/public/site/images/admin/1-numerjcme-1.jpg" alt="JCME" />The JOURNAL OF CASTING & MATERIALS ENGINEERING (JCME)</strong> is a peer-reviewed, academic <em>e-periodical</em> devoted to issues in engineering processes and casting materials. The periodical is published as a quarterly in the open access system by the AGH University of Science and Technology in Kraków. The JCME publishes original research articles, as well as reviews and theoretical articles. The mission of the periodical is to contribute to the development of knowledge and new scientific ideas in the field of engineering processes and casting materials.</p> <p> </p>https://journals.agh.edu.pl/jcme/article/view/6487An Experimental Derivation of Transient Nonuniform External Boundary Conditions for the Solidification Process Modeling of Equiaxed Investment Castings2024-08-14T16:24:19+02:00Weston Olsonweston.olson@siemens-energy.comMichael Stemmlermichael.stemmler@siemens-energy.comErik FernandezErik.Fernandez@ucf.eduJayanta Kapatjayanta.kapat@ucf.edu<p>The external heat transfer mechanisms acting on the external mold surfaces for equiaxed casting processes are very complex. The mechanisms are multi-mode, transient, and nonuniform, consisting of very complex radiative and convective definitions. In this work, a real-life mold, SGT6-5000 FD 3/4 Blade 4 cast in Alloy-247, was instrumented with thermocouples and temperature readings were recorded throughout the entire casting sequence of events. Analytical models based on the first law of thermodynamics, Fourier’s law, Newton’s Law of Cooling, and diffuse gray radiation for an N-sided enclosure were developed to use the thermocouple data as input to back calculate the emissivity of the mold, as well as the spatially varying heat transfer coefficients for a number of local regions. The derived external heat transfer mechanisms are presented as transient Biot numbers. The derived emissivity and nonuniform heat transfer coefficients for these surfaces were then validated in ProCAST numerical simulation by comparing the external mold temperature profiles. An extensive iterative, curve fitting, extrapolating, and averaging procedure was exercised to derive an expression for emissivity across the entire temperature range associated with the casting process. The predicted temperatures on the nodes corresponding to the thermocouple locations agree within reasonable error with the experimental data. The model also qualitatively predicted the shrinkage porosity detected via x-ray imaging for this casting. The current study confirms the hypothesis of previous work by the current authors with respect to the transient nonuniform boundary condition concept. Unique values of heat transfer coefficients were observed at different vertical positions along the airfoil. The analytical models were also able to capture phenomena associated with specific sequences of the casting process. This work provides the analytical models, and procedure, needed to derive these spatially varying conditions. The current authors contribute to the intellectual know-how of the large gas turbine casting industry which by other foundries is considered highly proprietary and strictly confidential. This paper should be used to set the precedence for how foundries derive and validate the external boundary conditions used in solidification process modeling.</p>2024-09-30T00:00:00+02:00Copyright (c) 2024 Weston Olson, Michael Stemmler, Erik Fernandez, Jayanta Kapathttps://journals.agh.edu.pl/jcme/article/view/6383Alloys for Hot Dip Galvanising on Thin-Walled Materials2024-09-13T08:44:54+02:00Piotr Żabińskizabinski@agh.edu.plBeata Leszczynska-Madejblm@agh.edu.plGrzegorz Włochgwloch@agh.edu.plPiotr Lewartowskilewartow@agh.edu.pl<p>The article reviews alloy additives to zinc and their impact on the quality of coatings achieved on structural steel. It also analyses the impact of the concentration of acid used for the chemical stripping of raw material on the zinc coating thickness of the steel. The zinc layer thickness changed depending on the concentration of alloy elements in the bath. It was stated that aluminium and bismuth have a low impact on the decrease in zinc coating thickness, while in the case of tin, a small change to the content (from 0.6% to 0.8%) significantly decreased the zinc layer thickness. Furthermore, it was found that, during the hot dip galvanising of steel, particular alloy elements are extracted from the bath. This results in the need to supplement alloy elements through periodical melting in for the purpose of maintaining the assumed bath composition. It was observed that, together with the increase in alloy elements concentration, zinc uptake (galvanised component weight ratio to black component weight) decreases, improving the process economics.</p>2024-10-23T00:00:00+02:00Copyright (c) 2024 Piotr Żabiński, Beata Leszczynska-Madej, Grzegorz Włoch, Piotr Lewartowski