Alloying elements

Effect of Material Segregations Due to Squeeze Parameters on Mechanical Properties of High Pressure Diecast Parts

By user2025/12/22Aluminium-J, Technical Data-JAl-Si alloy, Alloying elements, aluminum alloy, ANOVA, CAD, Die casting, High pressure die casting, High pressure die casting (HPDC), Microstructure, Quality Control

HPDCにおけるスクイズ起因の材質偏析：欠陥か、それとも無害な現象か？最新研究が機械的特性への真の影響を解明この技術概要は、[Ferencz PETI¹, Petru ȘERBAN²]によって執筆され、[Acta Ma

$Fig. 1: Two-parameter Weibull plot for fatigue life of a Sr-modified A356 casting alloy sorted by type of crack origin (pore, oxides, or slip bands) observed on fracture [1, 13]$

高品位軽金属鋳物を実現する溶湯管理：成分と清浄度制御のベストプラクティス

By user2025/12/18Aluminium-J, Technical Data-JAl-Si alloy, Alloying elements, aluminum alloy, aluminum alloys, Aluminum Casting, CAD, Efficiency, Microstructure, Quality Control, Review, 자동차 산업

Best practices for making high integrity lightweight metal castings – molten metal composition and cleanliness

Interaction of Creep and Ageing Behaviors in Zinc Die Castings

By user2025/12/10Aluminium-J, Technical Data-JAlloying elements, aluminum alloy, Aluminum Casting, CAD, Die casting, Die Casting Congress, Mechanical Property, Microstructure, Quality Control, 금형

亜鉛ダイカストのクリープ挙動を解明：時効処理と肉厚が長期信頼性に与える影響本技術概要は、F. E. Goodwin氏、L. H. Kallien氏、W. Leis氏によって執筆され、[北米ダイカスト協会（NADCA）]

Analysis and Evaluation of Effect of Manganese Content on Properties of EN AC 46000 Aluminum Alloy

By user2025/11/26Aluminium-J, Technical Data-JAl-Si alloy, Alloying elements, aluminum alloy, aluminum alloys, Aluminum Die casting, CAD, Die casting, Efficiency, Microstructure, Quality Control, 금형, 알루미늄 다이캐스팅, 자동차 산업

マンガン含有量の最適化：EN AC 46000アルミニウム合金の強度と品質を向上させる鍵この技術概要は、Martyna Pasternak、Marcin Brzeziński、Gabriela Piwowarczyk各

EFFECTS OF SPIN AND DIE CASTING ON MICROSTRUCTURE AND CORROSION BEHAVIOUR OF Al-Mg-Si ALLOY

By user2025/11/22Aluminium-J, Technical Data-JAlloying elements, aluminum alloy, aluminum alloys, CAD, Casting Technique, Die casting, Microstructure, Quality Control, Sand casting, STP, 알루미늄 다이캐스팅, 자동차 산업

ダイカストの耐食性を最大化：Al-Mg-Si合金における鋳造法比較研究から学ぶ本技術概要は、Henry Kayode TALABI氏らによる学術論文「EFFECTS OF SPIN AND DIE CASTING ON

Low-cycle fatigue behavior of permanent mold cast and die-cast Al-Si-Cu-Mg alloys

By user2025/11/11Aluminium-J, Technical Data-JAlloying elements, aluminum alloy, aluminum alloys, CAD, Die casting, Microstructure, Permanent mold casting, Quality Control, STP, 금형, 자동차 산업

ダイカスト vs. 金型鋳造：Al-Si-Cu-Mg合金の疲労寿命を最大化する鋳造法とは？本技術概要は、Chen Lijia氏、Wang Di氏、Che Xin氏、およびLi Feng氏によって執筆され、CHINA F

The Influence of Casting Defects on Fatigue Resistance of Elektron 21 Magnesium Alloy

By user2025/11/07Aluminium-J, Technical Data-JAir cooling, Alloying elements, CAD, Efficiency, Magnesium alloys, Microstructure, Quality Control, Sand casting, 自動車産業, 자동차, 자동차 산업

Elektron 21マグネシウム合金の疲労寿命を最大化する方法：鋳造欠陥と熱処理の影響この技術概要は、I. Pikos, A. Kiełbus, J. Adamiecによって執筆され、ARCHIVES of FOUN

高圧ダイカスト用マグネシウム合金の最新動向：自動車および未来のアプリケーションへの展開

By user2025/10/28Aluminium-J, Technical Data-JAlloying elements, aluminum alloy, AZ91D, CAD, Die casting, Efficiency, Electric vehicles, Heat Sink, High pressure die casting, Microstructure, Quality Control, thermophysical properties, 알루미늄 다이캐스팅, 자동차 산업

次世代自動車の軽量化を加速する、高圧ダイカスト用マグネシウム合金の最新開発トレンドこの技術概要は、Gerry Gang Wang氏とJ.P. Weiler氏によって執筆され、Journal of Magnesium a

Friction and Wear of Aluminum-Silicon Alloys

By user2025/10/26Aluminium-J, Technical Data-JAl-Si alloy, Alloying elements, aluminum alloy, aluminum alloys, CAD, Die casting, Efficiency, Microstructure, Quality Control, Review, 자동차 산업

耐摩耗性アルミニウム-シリコン合金の冶金学的探求：HPDC部品の性能を飛躍させる鍵この技術概要は、Barrie S. Shabel、Douglas A. Granger、William G. Trucknerによって執

電気自動車（EV）の品質と生産性を飛躍させるアルミニウムアーク溶接技術

By user2025/10/24Aluminium-J, Technical Data-JAlloying elements, aluminum alloy, aluminum alloys, Applications, CAD, Electric vehicles, Microstructure, Quality Control, Review, STEP, 버스바, 자동차 산업

電気自動車（EV）製造の鍵を握る：高品質アルミニウムアーク溶接の実現方法本技術概要は、学術論文「Aluminum Arc Welding Technology to Improve Quality and Produc

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