Tag Archives: Microstructure

Fig. 3.11: Equivalent alternating stress for aluminium alloy

Effect of Die Geometry on Fatigue Analysis of Aluminium Alloy (ADC12 Aluminium A383) using Pressure Die Casting Process

論文タイトル 金型寿命を最大化する冷却チャネル設計:ADC12アルミ合金の熱疲労解析から学ぶ新知見 この技術概要は、Poshan Dewangan氏らによる学術論文「Effect of Die Geometry

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Figure.1. Optical micrographs of the as cast samples (a) Die casting specimen, (b) Squeeze Casting at pressure of 50MPa, (c) Squeeze Casting at pressure of 75MPa, (d) Squeeze Casting at pressure of 100MPa

A Comparative Work on Die Casting and Squeeze Casting Techniques of A319 Cast Aluminium Alloy

論文タイトル:スクイズキャストが切り拓くA319アルミニウム合金の新たな可能性:重力鋳造を超える機械的特性の実現 この技術概要は、[11th International Conference on Science Eng

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Fig. 9. Freezing time [s] of materials CP-Al, 2124, 2218, and 6063 prepared at 0, 25, 75, 100, 125 and 150 MPa

EFFECT OF LIQUID FORGING PRESSURE ON SOLUBILITY AND FREEZING COEFFICIENTS OF CAST ALUMINUM 2124, 2218 AND 6063 ALLOYS

液圧鍛造圧力の最適化:アルミニウム合金の気孔率を低減し、硬度を最大化する新知見 本技術概要は、VINEET TIRTH氏およびAMIR ARABI氏によって執筆され、Arch. Metall. Mater. (2020)

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Fig. 2 Macrostructure of AlSi10.5Cu1.2Mn0.8Ni1.2Pb0.5 alloy a) sand mold b) metal mold

The Effect of Casting Mold Material on Microstructure of Al-Si Alloys

鋳造金型材質がAl-Si合金の微細構造と機械的特性に与える影響:金属鋳型 vs. 砂型 この技術概要は、[Tomas Vlach氏、Jaromir Cais氏]によって執筆され、[MANUFACTURING TECHNO

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Fig. 16. Thin wall heat dissipation shells (a, b, and c — front, back, and perspective view, respectively), which are produced by air cooled stirring rod (ACSR) process combined with high-pressure die casting machine [51]. Here, A, B, C, and D — regions from which the samples were prepared [51] to study their microstructure and mechanical properties

CASTING QUALITY ENHANCEMENT USING NEW BINDERS ON SAND CASTING AND HIGH-PRESSURE RHEO-DIE CASTING

レオHPDC革命:従来法を超える機械的特性と品質を実現する新技術 本技術概要は、P. PUSPITASARI氏およびJ.W. DIKA氏によって執筆され、Prog. Phys. Met.(2019年)に掲載された学術論文

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Figure 1. Photographs of the die-casting die used for manufacturing mechanical parts after the diecasting operation, showing (a) the die cavity and heat-checking and (b) the core pin.

MATERIAL PROPERTIES OF DIE-CASTING DIE AROUND HEAT-CHECKING CREATED BY A HIGH-PRESSURE ALUMINUM ALLOY DIE-CASTING OPERATION

金型ヒートチェックの謎を解く:残留応力の逆転が金型寿命を縮めるメカニズム 本技術概要は、Okayasu Mitsuhiro氏およびShimazu Junya氏によって執筆され、International Journal

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