Die casting | CASTMAN

Corrosion Protection of Joining Areas in Magnesium Die-Cast and Sheet Products

By user02/12/2025Aluminium-E, automotive-E, Technical Data-Ealuminum alloy, Applications, CAD, Die casting, Magnesium alloys

This article introduces the paper “Corrosion Protection of Joining Areas in Magnesium Die-Cast and Sheet Products.” 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 Wenyue Zheng, C. Derushie, J. Lo

SPH: A NEW WAY OF MODELLING HIGH PRESSURE DIE CASTING

By user02/12/2025Aluminium-E, automotive-E, Technical Data-EApplications, CAD, CFD, Die casting, Efficiency, High pressure die casting, High pressure die casting (HPDC), STEP, 생산성, 자동차, 자동차 부품, 자동차 산업, 제품 개발, 해석

This article introduces the paper “SPH: A NEW WAY OF MODELLING HIGH PRESSURE DIE CASTING,” presented at the Third International Conference on CFD in the Minerals and Process Industries in 2003. This paper explores the application of Smoothed Particle Hydrodynamics (SPH) for simulating the complex fluid dynamics of High Pressure Die Casting (HPDC). 1. Overview:

Optimization in Novel Partial-Solid High Pressure Aluminum Die Casting by Taguchi Method

By user02/12/2025Aluminium-E, automotive-E, Technical Data-Ealuminum alloys, Aluminum Die casting, AUTOMOTIVE Parts, CAD, Die casting, High pressure die casting, High pressure die casting (HPDC), Microstructure, Taguchi method, 금형, 알루미늄 다이캐스팅, 자동차, 자동차 부품, 해석

This article introduces the paper “Optimization in Novel Partial-Solid High Pressure Aluminum Die Casting by Taguchi Method,” providing a comprehensive overview of its key aspects for experts and those interested in die casting technology. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology: 5. Main Research Results: 6. Conclusion and

Multi-component topology optimization for die casting (MTO-D)

By user02/11/2025Aluminium-E, Technical Data-EApplications, CAD, Die casting, Efficiency, Microstructure, Review

This article introduces the paper “Multi-component topology optimization for die casting (MTO-D)” published in Structural and Multidisciplinary Optimization in 2019. This summary is intended for informational purposes and to facilitate understanding of the paper’s content. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology 5. Main Research Results: 6. Conclusion

Visualization for Runner System Design in Die Casting

By user02/11/2025Aluminium-E, Technical Data-EApplications, CAD, Die casting, Die casting Design, Efficiency, Review, STEP

This article introduces the paper “Visualization for Runner System Design in Die Casting” by Zhaohui Ning, presented to The Ohio State University in 2009. This research focuses on developing a die casting runner system design process with enhanced visualization capabilities. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology: 5.

Analytical Cost Estimation Model in High Pressure Die Casting

By user02/11/2025Aluminium-E, automotive-E, heat sink-E, Salt Core-E, Technical Data-EApplications, CAD, Die casting, Efficiency, High pressure die casting, High pressure die casting (HPDC), STEP

This article introduces the paper “Analytical cost estimation model in High Pressure Die Casting” published in Procedia Manufacturing in 2017. 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 was summarized based

Computer Aided Manufacturability Analysis of Die-cast Parts

By user02/11/2025Aluminium-E, Technical Data-EApplications, CAD, Die casting, Efficiency, Review, STEP

This article introduces the paper “Computer Aided Manufacturability Analysis of Die-cast Parts”. 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 was summarized based on the above paper, and unauthorized use for

PROPOSAL OF A CLASSIFICATION OF DEFECTS OF HIGH-PRESSURE DIECAST PRODUCTS

By user02/11/2025Aluminium-E, Technical Data-Ealuminum alloy, aluminum alloys, Applications, CAD, Die casting, Microstructure, Quality Control, Review

This article introduces the paper “PROPOSAL OF A CLASSIFICATION OF DEFECTS OF HIGH-PRESSURE DIECAST PRODUCTS”. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology 5. Main Research Results: The analysis of rejection causes (Fig. 3) reinforces the importance of addressing metallurgical defects, particularly gas porosity, shrinkage porosity, and cold laps,

Die Casting Technology for Welding Application: A Detailed Summary

By user02/11/2025Aluminium-E, automotive-E, Technical Data-Ealuminum alloy, aluminum alloys, Applications, CAD, Casting Technique, Die casting, Quality Control

This article introduces the paper “[Original Paper Title]” focusing on die casting technology for welding applications, originally published in the Journal of the Korea Foundry Society. 1. Overview: 2. Research Background: 3. Research Purpose and Research Questions: 4. Research Methodology: The study also compared the weld bead quality of components produced using the HIVAC-V method

AN INITIAL STUDY OF A LIGHTWEIGHT DIE CASTING DIE USING A MODULAR DESIGN APPROACH

By user02/11/2025Aluminium-E, Technical Data-Ealuminum alloy, Aluminum Casting, Applications, AZ91D, CAD, conformal cooling, Die casting, Die Casting Congress, die temperature uniformity, Efficiency, High pressure die casting, Review

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.

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