Production and Aging Heat Treatment of Ceramic Reinforced Al6061 Matrix MMCs by Vacuum Infiltration Method

Kısaoğlu, Nurcihan; Sever, Nimet Kardes; Duran, Hasan; Aksöz, Sinan

doi:10.29109/gujsc.1210102

Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji

2023

DOI: 10.29109/gujsc.1210102

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Production and Aging Heat Treatment of Ceramic Reinforced Al6061 Matrix MMCs by Vacuum Infiltration Method

Nurcihan Kısaoğlu

Nimet Kardes Sever

Hasan Duran

et al.

Abstract: Bu çalışmada, vakum infiltrasyon yöntemiyle Al6061 matrisli, % ağırlıkça farklı miktarlarda TiC, SiC ve B4C içeren hibrit takviyeli kompozitler üretilmiştir. Üretilen numunelere, 540ºC sıcaklıkta 3 saat çözündürme işlemi sonrasında 130ºC sıcaklıkta, 3’er saat aralıklarla toplam 24 saat yaşlandırma ısıl işlemi uygulanmıştır. Üretim ve ısıl işlemlerden sonra hibrit kompozitlere homojenliğini ve ıslatılabilirliğini değerlendirmek için FESEM, EDS ve XRD analizleri yapılmıştır. Analiz sonuçları değerlendirildiğinde… Show more

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2024

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Cited by 2 publications

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Wear properties of Al6061/SiC + B₄C + TiC hybrid composites produced by vacuum infiltration method

Duru,

Kaner,

Kaplan

et al. 2024

Materials Testing

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In the study, hybrid metal matrix composite (HMMC) structures were produced by vacuum infiltration method (VIM) using Al6061 alloy and varying amounts of SiC, B4C, and TiC ceramic powder pairs. Age-hardening processes were applied to these HMMCs. After heat treatment, wear behavior was examined under different loads using the pin-on-disc test method. All Al6061 hybrid composites exhibited better wear performance than unreinforced Al6061. In the wear tests of composite samples, the lowest volume loss and therefore the highest wear resistance were obtained in Al6061 3 wt.% B4C + SiC composites under 5 N force. The lowest wear resistance due to the highest volume loss was determined in Al6061/1 wt.% TiC + B4C composites under 15 N force. Abrasive and adhesive wear characteristics were observed in field emission scanning electron microscopy(FESEM) images of worn surfaces. Additionally, wear debris, smearing, and deep grove formations were determined on the surface. In the EDS analysis performed on the worn surface, O and Fe elements were found in addition to the elements that are likely to be in the structure (such as Al, B, C, Ti, Si, and Mg). The wear tests caused the formation of oxide layers on the sample surfaces.

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Wear properties of Al6061/SiC + B₄C + TiC hybrid composites produced by vacuum infiltration method

Duru,

Kaner,

Kaplan

et al. 2024

Materials Testing

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Mechanical and metallurgical properties of a glass fiber-reinforced Al7075 hybrid composite produced by infiltration and after aging and abrasion

Kaner

2024

Materials Testing

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Within the scope of this study, composite structures were produced by reinforcing Al7075 with 6 mm size glass fiber (GF) scrap at different weight rates (2–3 %) using the infiltration method. Mechanical and metallurgical examination of unreinforced Al7075 samples and reinforced Al7075 composite samples were carried out. After the aging heat treatment of the samples, pin-on-disc wear and hardness tests were performed. FESEM and EDS analyses were conducted to examine the hardness and microstructural changes caused by the applied processes on the samples. It was observed that GF reinforcement increased the hardness of the material and there was full wettability between Al 7075 and GF. Thus, wear resistance increased. The highest hardness and wear resistance were obtained in the 6 h aged 2 wt.% GF-reinforced Al 7075 matrix hybrid composite sample. In addition, it was observed that the distribution of GF scrap added as reinforcement at a rate of 2 wt.% in Al 7075 was homogeneous, and the hardness measurements taken from different areas were similar.

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Production and Aging Heat Treatment of Ceramic Reinforced Al6061 Matrix MMCs by Vacuum Infiltration Method

Cited by 2 publications

References 18 publications

Wear properties of Al6061/SiC + B₄C + TiC hybrid composites produced by vacuum infiltration method

Wear properties of Al6061/SiC + B₄C + TiC hybrid composites produced by vacuum infiltration method

Mechanical and metallurgical properties of a glass fiber-reinforced Al7075 hybrid composite produced by infiltration and after aging and abrasion

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Production and Aging Heat Treatment of Ceramic Reinforced Al6061 Matrix MMCs by Vacuum Infiltration Method

Cited by 2 publications

References 18 publications

Wear properties of Al6061/SiC + B4C + TiC hybrid composites produced by vacuum infiltration method

Wear properties of Al6061/SiC + B4C + TiC hybrid composites produced by vacuum infiltration method

Mechanical and metallurgical properties of a glass fiber-reinforced Al7075 hybrid composite produced by infiltration and after aging and abrasion

Contact Info

Product

Resources

About

Wear properties of Al6061/SiC + B₄C + TiC hybrid composites produced by vacuum infiltration method

Wear properties of Al6061/SiC + B₄C + TiC hybrid composites produced by vacuum infiltration method