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Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys

Yıl 2019, Cilt: 3 Sayı: 2, 165 - 172, 10.10.2019

Öz



AlSi7
and AlSi11 are the most commonly used materials in aluminum alloy wheel
production. The main difference is the heat treatment application; for wheel
production AlSi7 is usually used in heat treated form while AlSi11 is not. Heat
treatment processes play a vital role on production costs. More than fifty
percent of aluminum wheels are heat treated however the exact value varies
between different manufacturers. Additional heat treatment costs directly
affect the competitiveness of the manufacturer. In this study the material
properties of an alternative Si level between AlSi7 and AlSi11 are examined and
the effects of these intermediate Si levels on mechanical properties are
compared with that of AlSi7 and AlSi11. The aim of this study to examine the
possibility of obtaining mechanical properties of heat treated AlSi7 with a
non-heat-treated material differing only in Si content. In this experiment all
processes and casting parameters for different material types are the same
except for the Si content. In addition to an experimental study, the mechanical
properties of the alternative material are simulated by utilizing a material
analysis software and these properties are compared with experimental results.
Thus, correlation between simulation and experimental study results can also be
examined. As a conclusion, the alternative non-heat-treated material is
presented to manufacturers. These results may be used to bypass the heat
treatment process and to decrease the cost of final product.




Kaynakça

  • [1]. J. Pezda and A. Jarco, Effect of T6 Heat Treatment Parameters on Technological Quality of the AlSi7Mg Alloy, Arcihes of Foundry Engineering Volume 16, Issue 4 / 95 – 100, 2016
  • [2]. L.Y. Pio, Effect of T6 Heat Treatment on the Mechanical Properties of Gravity Die Cast A356 Aluminium Alloy, Journal of Applied Sciences 11 (11): 2048-2052, 2011
  • [3]. V. Grubisic, Air Tightness Control of Passenger Car Wheels, Scientific Research Publishing, 171-180, 2017
  • [4]. T. LIPIŃSKI, Double Modification of AlSi₉Mg Alloy with Boron, Titanium and Strontium, Archives of Metallurgy and Materials, Volume 60 Issue 3: 2415-2419, 2015
  • [5]. AlSiMg Alloy, Sr-Refined, Artificially Aged, Cevher Inner Standard – Specification, 2014
  • [6]. Sr-Refined Eutectic AlSi Alloy, Cevher Inner Standard – Specification, 2004
  • [7]. Rheinfelden, Primary Aluminium Casting Alloys, Datasheet L 2.06/3-KH
  • [8]. Y. Birol, Effect of solution heat treatment on the age hardening capacity of dendritic and globular AlSi7Mg0.6 Alloys, International Journal of Materials Research (formerly Zeitschrift fuer Metallkunde): 439-444, March 2010
  • [9]. Testing of metallic materials – Tensile test pieces, Prüfung metallischer Werkstoffe – Zugproben Deutsche Norm DIN 50125, 2016
  • [10]. Metallic materials - Tensile testing - Part 1: Method of test at room temperature, Metalik malzemeler - Çekme deneyi - Bölüm 1: Ortam sıcaklığında deney metodu, TS EN ISO 6892-1:2016, 2016
  • [11]. Road vehicles — Wheels/rims for commercial vehicles — Test methods, Karayolu taşıtları - Ticari taşıtlar için tekerlekler/jantlar - Deney yöntemleri, TS ISO 3894, 2015
  • [12]. Road vehicles — Light alloy wheels – Impact test, ISO 7141, 2005
  • [13]. R.B. Thakare, Stress Analysis in Wheel Rim by using Dynamic Cornering Fatigue Test Under Different Conditions, IJARIIE: International Journal of Advance Research and Innovative Ideas Vol-3 Issue-2, 2017
  • [14]. Metallic materials — Charpy pendulum impact test — Part 1: Test method, ISO 148-1 2009
Yıl 2019, Cilt: 3 Sayı: 2, 165 - 172, 10.10.2019

Öz

Kaynakça

  • [1]. J. Pezda and A. Jarco, Effect of T6 Heat Treatment Parameters on Technological Quality of the AlSi7Mg Alloy, Arcihes of Foundry Engineering Volume 16, Issue 4 / 95 – 100, 2016
  • [2]. L.Y. Pio, Effect of T6 Heat Treatment on the Mechanical Properties of Gravity Die Cast A356 Aluminium Alloy, Journal of Applied Sciences 11 (11): 2048-2052, 2011
  • [3]. V. Grubisic, Air Tightness Control of Passenger Car Wheels, Scientific Research Publishing, 171-180, 2017
  • [4]. T. LIPIŃSKI, Double Modification of AlSi₉Mg Alloy with Boron, Titanium and Strontium, Archives of Metallurgy and Materials, Volume 60 Issue 3: 2415-2419, 2015
  • [5]. AlSiMg Alloy, Sr-Refined, Artificially Aged, Cevher Inner Standard – Specification, 2014
  • [6]. Sr-Refined Eutectic AlSi Alloy, Cevher Inner Standard – Specification, 2004
  • [7]. Rheinfelden, Primary Aluminium Casting Alloys, Datasheet L 2.06/3-KH
  • [8]. Y. Birol, Effect of solution heat treatment on the age hardening capacity of dendritic and globular AlSi7Mg0.6 Alloys, International Journal of Materials Research (formerly Zeitschrift fuer Metallkunde): 439-444, March 2010
  • [9]. Testing of metallic materials – Tensile test pieces, Prüfung metallischer Werkstoffe – Zugproben Deutsche Norm DIN 50125, 2016
  • [10]. Metallic materials - Tensile testing - Part 1: Method of test at room temperature, Metalik malzemeler - Çekme deneyi - Bölüm 1: Ortam sıcaklığında deney metodu, TS EN ISO 6892-1:2016, 2016
  • [11]. Road vehicles — Wheels/rims for commercial vehicles — Test methods, Karayolu taşıtları - Ticari taşıtlar için tekerlekler/jantlar - Deney yöntemleri, TS ISO 3894, 2015
  • [12]. Road vehicles — Light alloy wheels – Impact test, ISO 7141, 2005
  • [13]. R.B. Thakare, Stress Analysis in Wheel Rim by using Dynamic Cornering Fatigue Test Under Different Conditions, IJARIIE: International Journal of Advance Research and Innovative Ideas Vol-3 Issue-2, 2017
  • [14]. Metallic materials — Charpy pendulum impact test — Part 1: Test method, ISO 148-1 2009
Toplam 14 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Onur Ozaydin

Yayımlanma Tarihi 10 Ekim 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 3 Sayı: 2

Kaynak Göster

APA Ozaydin, O. (2019). Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys. European Journal of Engineering and Natural Sciences, 3(2), 165-172.
AMA Ozaydin O. Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys. European Journal of Engineering and Natural Sciences. Ekim 2019;3(2):165-172.
Chicago Ozaydin, Onur. “Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys”. European Journal of Engineering and Natural Sciences 3, sy. 2 (Ekim 2019): 165-72.
EndNote Ozaydin O (01 Ekim 2019) Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys. European Journal of Engineering and Natural Sciences 3 2 165–172.
IEEE O. Ozaydin, “Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys”, European Journal of Engineering and Natural Sciences, c. 3, sy. 2, ss. 165–172, 2019.
ISNAD Ozaydin, Onur. “Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys”. European Journal of Engineering and Natural Sciences 3/2 (Ekim 2019), 165-172.
JAMA Ozaydin O. Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys. European Journal of Engineering and Natural Sciences. 2019;3:165–172.
MLA Ozaydin, Onur. “Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys”. European Journal of Engineering and Natural Sciences, c. 3, sy. 2, 2019, ss. 165-72.
Vancouver Ozaydin O. Influence of Different Si Levels on Mechanical Properties of Aluminium Casting Alloys. European Journal of Engineering and Natural Sciences. 2019;3(2):165-72.