Tag Archives: aluminum alloys

Fig. 3. (a) Schematic of four-point reversed bending set-up used in this study. Dimensions in mm. (b) Picture of the bending fatigue test set-up. The specimen was fixed by four fixtures, where two outer fixtures were connected to upper moveable shaft for applying the loading. The two internal fixtures were connected to the fixed base in the bottom. Between the fixture and the shaft/base were thin steel spring to ensure that the specimens can bend flexibly. To show the details more clearly, the distance between each fixture shown in the picture is larger than the actual distances used in this study.

Four-point bending fatigue behavior of rheocast AlSi7Mg0.3 alloy: Role of the surface liquid segregation

Author links open overlay panelQing Zhang a, Stefan Jonsson b, Anders E.W. Jarfors aShow moreAdd to MendeleyShareCite https://doi.org/10.1016/j.ijfatigue.2023.107791Get rights and content Under a Creative Commons licenseopen access Highlights Abstract The surface liquid segregation (SLS) layer in semisolid casting presents higher hardness than the surface of specimens cast using high-pressure die casting (HPDC). Bending fatigue tests showed that semisolid castings present better fatigue properties at

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Fig. 3. (a) Schematic of four-point reversed bending set-up used in this study. Dimensions in mm. (b) Picture of the bending fatigue test set-up. The specimen was fixed by four fixtures, where two outer fixtures were connected to upper moveable shaft for applying the loading. The two internal fixtures were connected to the fixed base in the bottom. Between the fixture and the shaft/base were thin steel spring to ensure that the specimens can bend flexibly. To show the details more clearly, the distance between each fixture shown in the picture is larger than the actual distances used in this study.

Four-point bending fatigue behavior of rheocast AlSi7Mg0.3 alloy: Role of the surface liquid segregation

Qing Zhang a, Stefan Jonsson b, Anders E.W. Jarfors a aJönköping University, School of Engineering, Materials and Manufacturing, 551 11 Jönköping, SwedenbKTH Royal Institute of Technology, School of Industrial Engineering and Management, Materials Science and Engineering, SE-100 44 Stockholm, Sweden Abstract The surface liquid segregation (SLS) layer in semisolid casting presents higher hardness than the surface of specimens cast using high-pressure die casting

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Volumetric distribution of porosities in a 3D reconstructed CT image at 60% transparency.

Detection of Porosity in Impregnated Die-Cast Aluminum Alloy Piece by Metallography and Computer Tomography

by  Mihály Réger 1, József Gáti 1, Ferenc Oláh 1,2, Richárd Horváth 1,*, Enikő Réka Fábián 1 and Tamás Bubonyi 3 1Bánki Donát Faculty of Mechanical and Safety Engineering, University of Óbuda, H-1081 Budapest, Hungary 2Doctoral School on Materials Sciences and Technologies, University of Óbuda, H-1081 Budapest, Hungary 3Institute of Metal Formation and Nanotechnology, University of Miskolc, H-3515 Miskolc, Hungary *Author to

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Figure 6. Fluid velocity vector of the cylindrical riser tube (left) and the cone-shaped tube (right) [33]

Low- and High-Pressure Casting Aluminum Alloys: A Review

This paper summary is based on the article “Low and High-Pressure Casting Aluminum Alloys: A Review” presented on DOI: 10.5772/intechopen.109869 website. 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: (The online article does not explicitly

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Development of High-Ductility and Low-Hot-Tearing-Susceptibility Non-heat Treatment Al–Mg–Mn-Based Die Casting Alloy for Automotive Structural Parts

Development of High-Ductility and Low-Hot-Tearing-Susceptibility Non-heat Treatment Al–Mg–Mn-Based Die Casting Alloy for Automotive Structural Parts

International Journal of Metalcasting (2023)Cite this article Abstract Non-heat-treated Al–Mg-based die casting alloys have been developed for the structural parts of automobiles. In previous studies, alloy compositions with at least 1.0%Si have been proposed to reduce the hot tearing susceptibility (HTS). On the other hand, the increase in the Si content reduces the ductility. For some

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Figure 4. General scheme of the LPC cycle [33].

Low- and High-Pressure Casting Aluminum Alloys: A Review

WRITTEN BY Helder Nunes, Omid Emadinia, Manuel F. Vieira and Ana Reis Submitted: December 5th, 2022 Reviewed: January 7th, 2023 Published: February 3rd, 2023 DOI: 10.5772/intechopen.109869 FROM THE EDITED VOLUME Recent Advancements in Aluminum Alloys [Working Title] Dr. Shashanka Rajendrachari CHAPTER METRICS OVERVIEW 13 Chapter DownloadsView Full Metrics REGISTER TO DOWNLOAD FOR FREE Share Cite ADVERTISEMENT ADVERTISEMENT Abstract Low-

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Figure 9- Left: Schematics of a conventional HPDC cold chamber machine [14]; Right: Typical layout of a component produced by a cold chamber machine [15].

High Pressure Die Casting of Zamak Alloys

Steven Richard Pires de OliveiraDissertação de MestradoOrientador na FEUP: Prof. Doutor Rui Jorge de Lemos NetoOrientador no INEGI: Doutora Inês Vieira de Oliveira Abstract The high pressure die casting process has undergone major advances in recent years, due to its increasing use in the automotive sector. Although aluminum alloys are the most widely used, the

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Al Alloys and Manufacturing Processes for Lightweight Applications in Electric Vehicles

Al Alloys and Manufacturing Processes for Lightweight Applications in Electric Vehicles

Abstract. Due to increasing environmental concerns, battery-powered electric vehicles (BEV) have gained popularity in the automotive for the past few years. An induction motor is an essential component of the propulsion system in integrated BEVs working on different operating conditions [1]. Since a rotor of the induction motor is configured with an electrical sheet, a

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Fig.3 Three representative morphologies and compositions of pores : (a) shrinkage (b) micro porosity (c) gas pore

The influence of different vacuum degree on the porosity and mechanical properties of aluminum die casting

진공도가 알루미늄 다이캐스팅의 다공성과 기계적 성질에 미치는 영향 Author links open overlay panelHanxueCaoabMengyaoHaoaChaoShenaPengLiangaShow moreAdd to MendeleyShareCite https://doi.org/10.1016/j.vacuum.2017.09.048Get rights and content Abstract AlSi9Cu3 alloy castings were produced by the vacuum-assisted high pressure die casting (HPDC) process under three different absolute pressures: 500 mbar, 200 mbar and 100 mbar. The influence of absolute pressure in the die cavity on the porosity, microstructure

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Macro Porosity Formation: A Study in High Pressure Die Casting

Macro Porosity Formation: A Study in High Pressure Die Casting

David Blondheim Jr. & Alex Monroe Abstract Porosity formation in high pressure die casting (HPDC) impacts mechanical properties and casting quality. Much is published regarding micro porosity and its impact on mechanical properties, but there is limited research on the actual formation of macro porosity. In production applications, macro porosity plays a critically important role in casting

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