Slash Scrap Rates: A Pareto-Lorenz HPDC Defect Analysis for EN AC-435000 Alloy This technical summary is based on the academic paper “DEFECT ANALYSIS OF EN AC-435000 ALLOY DIE CASTINGS USING THE PARETO-LORENTZ DIAGRAM” by Mariusz HEJNE, Jarosław PIĄTKOWSKI, and Robert WIESZAŁA, published in SCIENTIFIC PAPERS OF SILESIAN UNIVERSITY OF TECHNOLOGY ORGANIZATION AND MANAGEMENT SERIES NO.
Squeeze Casting vs. Die Casting: A Data-Driven Comparison for A319 Aluminum Alloy Components This technical summary is based on the academic paper “A Comparative Work on Die Casting and Squeeze Casting Techniques of A319 Cast Aluminium Alloy” by M. Naveen Kumar, V. Mohanavel, C. Jayasekar, N. Dineshbabu and S. Udishkumar, published in the 11th International
![Fig. 9. Freezing time [s] of materials CP-Al, 2124, 2218, and 6063 prepared at 0, 25, 75, 100, 125 and 150 MPa](https://castman.co.kr/wp-content/uploads/image-3015.webp)
How Liquid Forging Pressure Unlocks Superior Hardness and Reduces Porosity in Aluminum Alloys This technical summary is based on the academic paper “EFFECT OF LIQUID FORGING PRESSURE ON SOLUBILITY AND FREEZING COEFFICIENTS OF CAST ALUMINUM 2124, 2218 AND 6063 ALLOYS” by Vineet Tirth and Amir Arabi, published in Archives of Metallurgy and Materials (2020). It
Paper Title Metal vs. Sand Molds: How Cooling Rate Dictates Al-Si Alloy Microstructure and Performance This technical summary is based on the academic paper “The Effect of Casting Mold Material on Microstructure of Al-Si Alloys” by Tomas Vlach and Jaromir Cais, published in MANUFACTURING TECHNOLOGY (2022). It has been analyzed and summarized for technical experts
This introduction paper is based on the paper “[Optimization of process parameters of High Pressure Die Casting process for ADC12 Aluminium alloy using Taguchi method]” published by “[International Journal of Pure and Applied Mathematics]”. 1. Overview: 2. Abstract: A study has been carried out to optimize the die casting process parameters in order to achieve
Mastering Shrinkage in US 413 Aluminum Alloy: A Guide to Casting Simulation This technical summary is based on the academic paper “CALCULATION OF SHRINKAGE CHARACTERISTIC OF US 413 CAST ALUMINIUM ALLOY USING CASTING SIMULATION” by S Santhi, S B Sakri, D Hanumantha Rao and S Sundarrajan, published in International Journal of Mechanical Engineering and Robotics
How Vacuum Casting Intensifies HPDC Cavitation and What to Do About It This technical summary is based on the academic paper “Effect of Cavitation Phenomenon on the Quality of High-Pressure Aluminium Alloy Castings” by Marcin Brzeziński and Jakub Wiśniowski, published in the Journal of Casting & Materials Engineering (2023). It has been analyzed and summarized
Unlocking Performance in Recycled Aluminum: A Deep Dive into Secondary AlZn10Si8Mg Alloy Microstructure This technical summary is based on the academic paper “CHARACTERIZATION OF PHASES IN SECONDARY AlZn10Si8Mg CAST ALLOY” by Eva Tillová, Emília Ďuriníková, and Mária Chalupová, published in Materials Engineering – Materiálové inžinierstvo (2011). Keywords Executive Summary The Challenge: Why This Research Matters
Unlocking the Secrets of Die-Casting Die Heat-Checking: New Research Reveals Root Causes and Mitigation Clues This technical summary is based on the academic paper “MATERIAL PROPERTIES OF DIE-CASTING DIE AROUND HEAT-CHECKING CREATED BY A HIGH-PRESSURE ALUMINUM ALLOY DIE-CASTING OPERATION” by Mitsuhiro Okayasu and Junya Shimazu, published in International Journal of Metalcasting (2025). It has been
Predicting Casting Aluminum Alloy Fluidity with AI: A New Model for Defect-Free Production This technical summary is based on the academic paper “PREDICTION OF FLUIDITY OF CASTING ALUMINUM ALLOYS USING ARTIFICIAL NEURAL NETWORK” by Yuan Gao, Hengcheng Liao, Xiaojing Suo, and Qigui Wang, published in Contributed Papers from Materials Science and Technology 2019 (MS&T19) (2019).
