The Effect of Pin Shape and the Ratio of Tool Rotational Speed to Welding Speed on the Mechanical Properties
Yıl 2017,
, 0 - 0, 31.01.2017
Şefika Kasman
Fatih Kahraman
,
Haydar Kahraman
Anıl Emiralioğlu
Öz
In the present study, the effect of two different pins which shaped in the triangular and straight helical threaded were associated with the ratio of the tool rotational speed to the welding speed on the mechanical properties of dissimilar friction stir welding (FSW) of EN AW 6082 and EN AW 5754. The responses of FSW process were investigated by the UTS, Ɛ% and hardness of weld joint. The results showed that the ratio of the tool rotational speed to the welding speed have a dominant effect on the weld joint strength.
Kaynakça
- Lakshminarayanan A. K., Balasubramanian V., Elangovan K.: Effect of welding processes on tensile properties of AA6061 aluminium alloy joints”, Int J Adv Manuf Technol., 2009, 40: 286–296.
- DebRoy T., Bhadeshia H. K. D. H. “Friction stir welding of dissimilar alloys – a perspective”, Science and Technology of Welding and Joining, 2010, 15: 266–270.
- http://www.aalco.co.uk/datasheets/Aalco-Metals-Ltd_Aluminium-Alloy-6082-T6T651-Plate_148.pdf.ashx.
- http://www.aalco.co.uk/datasheets/Aalco-Metals-Ltd_Aluminium-Alloy-5754-H22-Sheet-and-Plate_153.pdf.ashx.
- Ambriz R.R., Mayagoitia V. “Welding of Aluminum Alloys. Recent Trends in Processing and Degradation of Aluminium Alloys, InTech., 2011.
- Aval H. J., Serajzadeh S., Sakharova N. A., Kokabi A. H., Loureiro A. “A study on microstructures and residual stress distributions in dissimilar friction-stir welding of AA5086–AA6061”, J Mater Sci., 2012, 47: 5428–5437.
- Peel M.J., Steuwer A., Withers P.J. “Dissimilar Friction Stir Welds in AA5083-AA6082.Part II: Process Parameter Effects on Microstructure”, Metallurgical and Materials Transactions A, 2006, 37: 2195–2206.
- Palanivel R., Mathews P.K., Murugan N., Dinaharan I. “Effect of tool rotational speed and pin profile on microstructure and tensile strength of dissimilar friction stir welded AA5083-H111 and AA6351-T6 aluminum alloys”, Materials and Design, 2012, 40: 7–16.
- Kasman Ş. “Multi-response optimization using the Taguchi-based grey relational analysis: a case study for dissimilar friction stir butt welding of AA6082-T6/AA5754-H111”, Int J Adv Manuf Technol., 2013, 68: 795–804.
- Alvarez P., Arruti E., Aldanondo E., Echeverria A. “Understanding material flow in FSW and its implications”, The 2nd International Conference on Friction Stir Welding and Processing. FSWP'2012, Saint Étienne/France, 26-27 January 2012.
- Khodir S. A., Shibayanagi T. “Friction stir welding of dissimilar AA2024 and AA7075 aluminum alloys”, Materials Science and Engineering B, 2008, 148: 82–87.
Takım Dönme Hızının Kaynak Hızına Oranı ve Pim Şeklinin Mekanik Özellikler Üzerine Etkisi
Yıl 2017,
, 0 - 0, 31.01.2017
Şefika Kasman
Fatih Kahraman
,
Haydar Kahraman
Anıl Emiralioğlu
Öz
Bu çalışmada EN AW 6082 ve EN AW 5754 malzemelerin birbiri ile FSW kaynağında helisel diş açılmış
ve üçgen şekilli iki farklı pim ile takım dönme hızının kaynak hızına oranının mekanik özellikler üzerine etkisi
incelenmiştir. FSW işleminin sonuçları kaynaklı bağlantının maksimum çekme mukavemeti, % şekil değiştirme
ve sertliği ele alınarak incelenmiştir. Sonuçlar takım dönme hızının kaynak hızına oranının kaynaklı bağlantının
mukavemeti üzerine çok önemli bir etkiye sahip olduğunu göstermiştir.
Kaynakça
- Lakshminarayanan A. K., Balasubramanian V., Elangovan K.: Effect of welding processes on tensile properties of AA6061 aluminium alloy joints”, Int J Adv Manuf Technol., 2009, 40: 286–296.
- DebRoy T., Bhadeshia H. K. D. H. “Friction stir welding of dissimilar alloys – a perspective”, Science and Technology of Welding and Joining, 2010, 15: 266–270.
- http://www.aalco.co.uk/datasheets/Aalco-Metals-Ltd_Aluminium-Alloy-6082-T6T651-Plate_148.pdf.ashx.
- http://www.aalco.co.uk/datasheets/Aalco-Metals-Ltd_Aluminium-Alloy-5754-H22-Sheet-and-Plate_153.pdf.ashx.
- Ambriz R.R., Mayagoitia V. “Welding of Aluminum Alloys. Recent Trends in Processing and Degradation of Aluminium Alloys, InTech., 2011.
- Aval H. J., Serajzadeh S., Sakharova N. A., Kokabi A. H., Loureiro A. “A study on microstructures and residual stress distributions in dissimilar friction-stir welding of AA5086–AA6061”, J Mater Sci., 2012, 47: 5428–5437.
- Peel M.J., Steuwer A., Withers P.J. “Dissimilar Friction Stir Welds in AA5083-AA6082.Part II: Process Parameter Effects on Microstructure”, Metallurgical and Materials Transactions A, 2006, 37: 2195–2206.
- Palanivel R., Mathews P.K., Murugan N., Dinaharan I. “Effect of tool rotational speed and pin profile on microstructure and tensile strength of dissimilar friction stir welded AA5083-H111 and AA6351-T6 aluminum alloys”, Materials and Design, 2012, 40: 7–16.
- Kasman Ş. “Multi-response optimization using the Taguchi-based grey relational analysis: a case study for dissimilar friction stir butt welding of AA6082-T6/AA5754-H111”, Int J Adv Manuf Technol., 2013, 68: 795–804.
- Alvarez P., Arruti E., Aldanondo E., Echeverria A. “Understanding material flow in FSW and its implications”, The 2nd International Conference on Friction Stir Welding and Processing. FSWP'2012, Saint Étienne/France, 26-27 January 2012.
- Khodir S. A., Shibayanagi T. “Friction stir welding of dissimilar AA2024 and AA7075 aluminum alloys”, Materials Science and Engineering B, 2008, 148: 82–87.