This article introduces the paper “Development of a semi-automated die casting die design system” presented at the Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology The primary focus of the development is placed on the gating
At CASTMAN, high quality and customer satisfaction are always at the forefront. That’s why all our processes have been controlled many times since buying parts. Even the slightest mistake must not be overlooked. We are certified to SQ-Mark (Supplier Quality Certificate) supported by Hyundai-Kia Motors Group and managed by Hyundai-WIA, both of which the leading
This article introduces the paper “THERMOMECHANICAL MECHANISMS THAT CAUSE ADHESION OF ALUMINUM HIGH PRESSURE DIE CASTINGS TO THE DIE”. Overview: Research Background: Research Purpose and Research Questions: Research Methodology Main Research Results: Conclusion and Discussion: Future Follow-up Research: References: Copyright: This material was summarized based on the above paper, and unauthorized use for commercial purposes
1. Overview: 2. Research Background: The demand for lightweight and cost-effective heat sinks is increasing. Die casting is a common and economical method for producing complex-shaped heat sinks. To reduce weight, a typical approach involves thinning the fins and base of the heat sink. Previous research explored alternative casting methods like semisolid casting, high-density casting,
This article introduces the paper “Vehicle giga-casting Al alloys technologies, applications, and beyond”. Author links open overlay panelJian Yang abc, Bo Liu ac, Dongwei Shu b, Qin Yang d, Tiegang Hu dShow moreAdd to MendeleyShareCite https://doi.org/10.1016/j.jallcom.2025.178552Get rights and content Abstract The Giga-casting process, proposed by Tesla, has become a transformative technology with great potential for improving the lightweighting of super-sized complex thin-walled vehicle parts. Recently, the application of lightweight
This article introduces the paper “Mega-casting in the automotive production system: Expert interview-based impact analysis of large-format aluminium high-pressure die-casting (HPDC) on the vehicle production”. Peter Burggräf a, Georg Bergweiler b, Stefan Kehrer b, Tobias Krawczyk b, Falko Fiedler bShow moreAdd to MendeleyShareCitehttps://doi.org/10.1016/j.jmapro.2024.06.028Get rights and content Abstract Since the revolutionary invention of the conveyor-belt production by Henry Ford in 1913, market player mainly evolved a unique selling point through
by Andrea Sütőová 1,*, Róbert Kočiško 1,*, Patrik Petroušek 1, Martin Kotus 2, Ivan Petryshynets 3 and Andrii Pylypenko 4 Abstract The wear and degradation of tools applied in the high-pressure die casting of Al alloys induce significant financial losses. The formation of failures on the surface of mold parts caused by erosion, thermal fatigue, corrosion, and soldering negatively affects the surface quality
Jian Yang ab, Bo Liu ab, Yunbo Zeng c, Yiben Zhang ab, Haiyou Huang de, Jichao Hong bShow moreAdd to MendeleyShareCite https://doi.org/10.1016/j.engappai.2024.108514Get rights and content Abstract This research aims to provide a solution to the scarcity and fragmentation of industrial data on die casting aluminum alloys. Quantifying the coupling between die casting process-composition-properties of aluminum alloys through small datasets, is a critical step in predicting part properties and optimizing process selection. To
A. Bongiovanni 1 *, M. Da Silva 2 , A. Castellero1 1 Department of Chemistry, NIS, University of Turin, Turin, Italy 2 Eurecat, Centre Tecnològic de Catalunya, Cerdanyola del Vallès, Spain *andrea.bongiovanni@unito.it, manel.dasilva@eurecat.org, alberto.castellero@unito.it Abstract The automotive industry is working towards further reducing the carbon footprint of its vehicles and, with the electric vehicle transition,
Imran Zahid ab, M. Farhan a, M. Farooq a, M. Asim a, M. Imran c Abstract Electronic devices are being used extensively for different applications, where the thermal management of these devices is still a critical challenge due to rapid miniaturization, high heat flux and constantly rising temperature. Phase change materials (PCMs) based thermal management is adopted, but the low thermal conductivity limits their use in temperature-controlled electronic devices. Nano-enhanced phase change materials
