Tag Archives: Permanent mold casting

Figure 7. (a) Graphical illustration of a cold-chamber die casting machine. (b) Casting cycle for cold-chamber die casting [14].

Al Alloys and Casting Processes for Induction Motor Applications in Battery-Powered Electric Vehicles: A Review

This article introduces the paper “Al Alloys and Casting Processes for Induction Motor Applications in Battery-Powered Electric Vehicles: A Review” presented at the MDPI Metals 1. Overview: 2. Research Background: The increasing environmental concerns and the rapid growth of the battery-powered electric vehicle (BEV) industry have significantly driven research into lightweight materials. Aluminum (Al) alloys

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Fig.5: (a) Hollow aluminum casting; and (b) welded engine cradle for Cadillac CTS

Advanced Casting Technologies for Lightweight Automotive Applications

This article introduces the paper “Advanced casting technologies for lightweight automotive applications”. 1. Overview: 2. Background: Lightweighting in the automotive industry is crucial for improving fuel efficiency. Aluminum and magnesium castings have been utilized for this purpose for a considerable time, gaining significant traction since the mid-1970s. Aluminum castings offer a 30-50% mass reduction compared

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Fig. 1. Handle for X-Ray machine made out of V Process.

Studies on performance and process improvement of implementing novel vacuum process for new age castings

This article introduces the paper “Studies on performance and process improvement of implementing novel vacuum process for new age castings” presented at the Materials Today: Proceedings 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. References: 9.

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Fig. 2. Permanent mould casting machine for casting single pistons [8]

Casting of Combustion Engine Pistons Before and Now on the Example of FM Gorzyce

This article introduces the paper “[Casting of Combustion Engine Pistons Before and Now on the Example of FM Gorzyce]” 1. Overview: 2. Research Background: Social/Academic Context: Combustion engine pistons face increasingly stringent demands driven by the need for enhanced thermo-mechanical loads, reduced exhaust emissions, and improved fuel efficiency. The automotive industry’s push for lighter vehicles

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Fig. 2.1 Graphical illustration of hot chamber diecasting [5].

Development of High Strength Al-Mg2Si-Mg Based Alloy for High Pressure Diecasting Process

This article introduces the paper “Development of High Strength Al-Mg2Si-Mg Based Alloy for High Pressure Diecasting Process” presented as a thesis submitted for the degree of Doctor of Philosophy at Brunel University 1. Overview: 2. Research Background: The automotive industry is increasingly utilizing lightweight materials like aluminium alloys to enhance fuel efficiency and reduce CO2

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Fig. 14. Pratt & Whitney F119 auxiliary casing in ELEKTRON WE43 alloy [37].

Magnesium casting technology for structural applications

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

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Development and Validation using Casting Simulation of a Multi-point Remote Monitoring System for High-Pressure Die-Casting (HPDC) Mold Cavity

Development and Validation using Casting Simulation of a Multi-point Remote Monitoring System for High-Pressure Die-Casting (HPDC) Mold Cavity

Abstract This research presents the design and implementation process of a remote monitoring system for temperature and force-induced pressure measurements in the mold cavity of high-pressure die casting (HPDC). A K-type thermocouple sensor was chosen to gauge the aggressive environment inside the mold cavity. An ejector pin was adapted for the installation of this sensor,

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Figure 1. High pressure die-casting [1].

An Industrial Perspective on Magnesium Alloy Wheels: A Process and Material Design

An Industrial Perspective on Magnesium Alloy Wheels: A Process and Material Design Miaomiao Wang1,21China Copper Institute of Engineering and Technology, Beijing, China.2Kunming Metallurgical Research Institute Co., Ltd. Beijing Branch, Beijing, China.DOI: 10.4236/msa.2023.141002PDFHTML XML18 Downloads   134 Views Abstract Light weights wheels improve vehicle performance with respect to road handling, cornering as well providing fuel economy and reduced greenhouse gas emissions. Aluminum

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Fig. 3 Photographs of specimens at ambient temperature. (a) KCl–30 mol%NaCl. (b) K2CO3–50 mol% Na2CO3.

Strength of Salt Core Composed of Alkali Carbonate and Alkali Chloride Mixtures Made by Casting Technique

Jun Yaokawa, Daisuke Miura, Koichi Anzai, Youji Yamada, Hiroshi Yoshii Abstract The strength of four binary systems NaCl–Na2CO3, KCl–K2CO3, KCl–NaCl and K2CO3–Na2CO3 was investigated in order to develop expendable salt core for high pressure die casting processes. Four point bending test was conducted to determine the strength of specimens made from molten salts by using the permanent mold casting technique.

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Fig. 1. a) Pin holes observed in the top side casting; b) Blow holes observed in tapped holes; c) Porosity is observed in top side of the casting.

Numerical and experimental approach to eliminate defects in al alloy pump- crank case processed through gravity die casting route

S.AravindP.RagupathiG.VigneshDepartment of Mechanical Engineering, Karpagam Academy of Higher Education, Coimbatore, Tamil Nadu 641 021, India Received 30 June 2020, Accepted 14 July 2020, Available online 14 August 2020. Abstract A numerical investigation was carried out with the help of computer based casting simulation software to eliminate defects such as shrinkage due to solidification, cracks, imperfect

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