Friction welding of Al-Cu-SiC composite to AISI 304 austenitic stainless steel
Year 2017,
Volume: 1 Issue: 1, 9 - 12, 30.06.2017
Niyazi Özdemir
,
Zülküf Balaban
Abstract
The present study investigates the
feasibility of joining an aluminium matrix composite reinforced with 5, 10 and
15 vol. % of SiCp particles to AISI 304 austenitic stainless steel by using
friction welding technique. In the present study, optical and electron
microscopy as well as lap shear strength test and microhardness measurements
were used to evaluate the quality of bonding of Al-Cu-SiC and AISI 304
austenitic stainless steel joints produced by friction welding
References
- [1] Z. Balalan, Weldability of Al based SiCp reinforced composite to 304 stainless steel by friction welding. Ph Thesis,Üniversity of Fırat, 2013.
- [2] Sahin M. Joining of stainless-steel and aluminium materials by friction welding. Int J Adv Manuf Technol 2009;41:487–97
.
[3] Uday MB, Ahmad-Fauzi MN, Zuhailawati H, Ismail AB. Effect of welding speed on mechanical strength of friction welded joint of YSZ–alumina composite and 6061 aluminum alloy. Mater Sci Eng: A 2011;528:4753–60.
- [4] Hasçalik A, Ünal E, Özdemir N. Fatigue behaviour of AISI 304 steel to AISI 4340 steel welded by friction welding. J Mater Sci 2006;41:3233–9.
- [5] Özdemir N, SarsIlmaz F, HasçalIk A. Effect of rotational speed on the interface properties of friction-welded AISI 304L to 4340 steel. Mater Des 2007;28:301–7.
- [6] Rafi HK, Ram G, Phanikumar. G, Rao KP. Microstructure and tensile properties of friction welded aluminum alloy AA7075-T6. Mater Des 2010;31:2375–80.
- [7] Dolatkhah A, Golbabaei P, Besharati Givi MK, Molaiekiya F. Investigating effects of process parameters on microstructural and mechanical properties of Al5052/SiC metal matrix composite fabricated via friction stir processing. Mater Des 2012;37:458–64.
- [8] Mishra RS, Ma ZY, Charit I. Friction stir processing: a novel technique for fabrication of surface composite. Mater Sci Eng A 2003;341:307–10.
Year 2017,
Volume: 1 Issue: 1, 9 - 12, 30.06.2017
Niyazi Özdemir
,
Zülküf Balaban
References
- [1] Z. Balalan, Weldability of Al based SiCp reinforced composite to 304 stainless steel by friction welding. Ph Thesis,Üniversity of Fırat, 2013.
- [2] Sahin M. Joining of stainless-steel and aluminium materials by friction welding. Int J Adv Manuf Technol 2009;41:487–97
.
[3] Uday MB, Ahmad-Fauzi MN, Zuhailawati H, Ismail AB. Effect of welding speed on mechanical strength of friction welded joint of YSZ–alumina composite and 6061 aluminum alloy. Mater Sci Eng: A 2011;528:4753–60.
- [4] Hasçalik A, Ünal E, Özdemir N. Fatigue behaviour of AISI 304 steel to AISI 4340 steel welded by friction welding. J Mater Sci 2006;41:3233–9.
- [5] Özdemir N, SarsIlmaz F, HasçalIk A. Effect of rotational speed on the interface properties of friction-welded AISI 304L to 4340 steel. Mater Des 2007;28:301–7.
- [6] Rafi HK, Ram G, Phanikumar. G, Rao KP. Microstructure and tensile properties of friction welded aluminum alloy AA7075-T6. Mater Des 2010;31:2375–80.
- [7] Dolatkhah A, Golbabaei P, Besharati Givi MK, Molaiekiya F. Investigating effects of process parameters on microstructural and mechanical properties of Al5052/SiC metal matrix composite fabricated via friction stir processing. Mater Des 2012;37:458–64.
- [8] Mishra RS, Ma ZY, Charit I. Friction stir processing: a novel technique for fabrication of surface composite. Mater Sci Eng A 2003;341:307–10.