Tag Archives: Microstructure

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

By Aluminium-E, automotive-E, Technical Data-E, , , , , , ,

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.12 Effect of particle size on bending strength of potassium chloride with mullite cores.

Castability and Strength of Potassium Chloride-Ceramic Composite Salt Cores

By Aluminium-E, Salt Core-E, , , ,

This article introduces the paper “Castability and Strength of Potassium Chloride-Ceramic Composite Salt Cores” presented at the Journal of Japan Foundry Engineering Society (J.JFS). 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. Copyright: *This

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Fig. 1 Liquidus surface and eutectic line of Na⁺-K⁺-Cl⁻-CO₃²⁻ system calculated with Thermo-Calc¹⁵).

Bending Strength of Salt Core Comprised of KCl-NaCl-Na₂CO₃-K₂CO₃ Systems

By Aluminium-E, Salt Core-E, , , , , , , ,

This article introduces the paper “Bending Strength of Salt Core Comprised of KCl-NaCl-Na2CO3-K2CO3 Systems” presented at the J. JFS, Vol. 79, No. 4 (2007) pp. 184~191 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. 3. Shattered surface of crushed rock salts (samples Nos 1, 2) and EDX analysis of chemical composition

Advances in Technology of Soluble Cores for Die Castings

By Aluminium-E, Salt Core-E, , , , , , , ,

This article introduces the paper “Advances in Technology of Soluble Cores for Die Castings” presented at the Archives of Foundry Engineering 1. Overview: 2. Research Background: The increasing complexity of casting designs presents a significant challenge to traditional die casting methods that rely on simple metal cores. These existing methods struggle to meet the rising

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Figure 3.5: SEM images on the fracture surface of HPDC processed primary alloy showing: (a) gas pores, and (b) shrinkage pore. (adapted from [79])

Influence of Die Temperature in High Pressure Die Casting of Thin-Walled Components

By Aluminium-E, automotive-E, Technical Data-E, , , , , , , , , , , ,

This article introduces the paper “Influence of Die Temperature in High Pressure Die Casting of Thin-Walled Components” by M. Wessén and L. Näslund: 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. Copyright: This material

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Figure 1. Organic cores production by the cold-box process: (a) half core box, (b) organic cores.

A COMPARATIVE ANALYSIS ON ORGANIC AND INORGANIC CORE BINDERS FOR A GRAVITY DIECASTING AL ALLOY COMPONENT

By Aluminium-E, Salt Core-E, Technical Data-E, , , , , , ,

This article introduces the paper “A COMPARATIVE ANALYSIS ON ORGANIC AND INORGANIC CORE BINDERS FOR A GRAVITY DIECASTING AL ALLOY COMPONENT” presented at the International Journal of Metalcasting 1. Overview: 2. Research Background: The metal casting industry has witnessed an increasing interest in inorganic binders for core making over the past two decades. This shift

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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

By Aluminium-E, Technical Data-E, , , , , , , , , , , ,

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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Figure 5. Flow characteristics at different velocities of injection: : (a1–a6) 1.0 m/s, (b1–b6) 1.5 m/s

Study on the Influence of Injection Velocity on Hole Defects in Die-Cast Aluminum Alloy

By Aluminium-E, automotive-E, Technical Data-E, , , , , , , ,

This article introduces the paper “Study on the Influence of Injection Velocity on the Evolution of Hole Defects in Die-Cast Aluminum Alloy” presented at the MDPI 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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Figure 1. Structure of the vacuum die-cast equipment

Study on Microstructures and Properties of Al. Alloy Vacuum Die-Cast Parts

By Aluminium-E, automotive-E, Technical Data-E, , , , , , , , ,

This article introduces the paper “Study on Microstructures and Properties of the Al. Alloy Vacuum Die-Cast Parts of TL117 and C611” presented in the Journal of Physics: Conference Series. 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:

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Figure 13. The schematic diagrams of the ACSR Rheo-HPDC process (reprinted with permission from ref. [36], 2022, Elsevier).

Research Progress on Thermal Conductivity of High-Pressure Die-Cast Aluminum Alloys

By Aluminium-E, automotive-E, Technical Data-E, , , , , , , , , , , ,

This article introduces the paper “Research Progress on Thermal Conductivity of High-Pressure Die-Cast Aluminum Alloys” presented at the Metals, MDPI 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. Copyright: This material is Yixian Liu

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