This article introduces the paper “An Initial Study of a Lightweight Die Casting Die Using a Modular Design Approach,” published in the International Journal of Metalcasting in 2018. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology: 5. Main Research Results: 6. Conclusion and Discussion: 7. Future Follow-up Research: 8.
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
![Figure 1. Fin designs on heat sinks: left with all parallel fins, right with angled fins increasing turbulence in the air (cooling medium) and increasing air exchange between the fins to maximize cooling [2].](https://castman.co.kr/wp-content/uploads/image-114-570x287.webp)
This article introduces the paper “Vacuum Rheocasting Heat Sinks with Significantly Improved Performance”. 1. Overview: 2. Research Background: The demand for heat sinks across various industries (e-mobility, telecommunications, electronics, etc.) is significantly increasing, along with stricter performance requirements. A primary requirement for heat sinks is high thermal conductivity. Pure aluminum exhibits excellent thermal conductivity (247
![Fig. 14. Pratt & Whitney F119 auxiliary casing in ELEKTRON WE43 alloy [37].](https://castman.co.kr/wp-content/uploads/image-103-png.webp)
This article introduces the paper “Magnesium casting technology for structural applications”. Overview: – Core Objective of the Research: To provide a comprehensive overview of magnesium alloy melting and casting processes, examine the historical development, current status, and potential applications of structural magnesium castings, primarily focusing on the automotive industry, and discuss associated technological challenges. The increasing
Abstract Pressure tightness is important for many die-cast aluminium castings, but the interconnected porosity formed in the aluminium alloy high-pressure die castings (HPDC) can form a network connecting several surfaces of the casting, especially as a result of machining after casting. The resulting potential leakage path can be imagined as a series of discontinuities varying in
![Figure 9- Left: Schematics of a conventional HPDC cold chamber machine [14]; Right: Typical layout of a component produced by a cold chamber machine [15].](https://castman.co.kr/wp-content/uploads/Figure-9-Left-Schematics-of-a-conventional-HPDC-cold-chamber-machine-14-Right-Typical-layout-of-a-component-produced-by-a-cold-chamber-machine-15.-570x342.png)
Steven Richard Pires de OliveiraDissertação de MestradoOrientador na FEUP: Prof. Doutor Rui Jorge de Lemos NetoOrientador no INEGI: Doutora Inês Vieira de Oliveira Abstract The high pressure die casting process has undergone major advances in recent years, due to its increasing use in the automotive sector. Although aluminum alloys are the most widely used, the
AUTHORS P. Jelínek1, E. Adámková1, F. Mikšovský1, J. Beňo1 ABSTRACT A number of technologies is developed that substitute simple metal cores in the high-pressure casting technology. Soluble cores, namely on the salt basis, represent the highest prospect. The contribution gives the results of the production of salt cores by high-pressure squeezing and shooting with using a binder. Special attention
모터 성능 향상을 위한 다이캐스트 구리 로터 Authors J.G. CowieCopper Development Association Inc., New York, NY, USAD.T. BrenderCopper Development Association Inc., New York, NY, USA Abstract Aluminum has been the common conductor material for the squirrel cage of the induction motor largely because of ease of manufacturing by pressure die casting. Short die life in
International Journal of Metalcasting volume 15, pages839–851 (2021)Cite this article Abstract The demand for producing essential cast parts and the design requirements for superior engineering performance have increased in recent years. Sand cores used in conventional aluminum cast parts are harmful to the environment, which limits their application. Utilizing water-soluble cores in the aluminum casting industry is expected
Porosity Control in Copper Rotor Die CastingsE. F. Brush, Jr., S. P. Midson, W. G. Walkington, D. T. Peters and J. G. Cowie Abstract This paper reports on the results of an investigation to minimize and control the distributionof porosity in edge-gated copper rotor die castings. A Flow 3-D computer modelingexercise was used to simulate
