Farklı Gaz Basınçları Kullanılarak Soğuk Metal Transferi (CMT) ile Birleştirilmiş Alüminyum 6082-T6 Bağlantıların Mekanik Özelliklerinin İncelenmesi
Year 2017,
, 606 - 611, 30.09.2017
Uğur Özsaraç
,
Salim Aslanlar
,
Faruk Varol
,
Şafak Işık
Erman Ferik
Abstract
Bu çalışmada, 1,0 milimetre
kalınlığa sahip Alüminyum 6082-T6 plakaları magnezyum esaslı (AlMg5) teliyle
soğuk metal transferi yöntemiyle birleştirilmiştir. Numuneler, alın birleştirme
formunda hazırlanmıştır. Koruyucu gaz olarak argon kullanılmıştır ve birleştirme
işlemleri 20o çalışma açısıyla yapılmıştır. Soğuk metal transferi yöntemiyle
farklı gaz basınçlarında kaynağı yapılan Alüminyum 6082 parçaların çekme
dayanımı değerleri belirlenmiştir, sertlik değerleri ölçülmüş ve makro yapıları
optik mikroskopta incelenmiştir.
References
- [1] Yang, S., Zhang, J., Lian, J., Lei, Y., Welding of aluminum alloy to zinc coated steel by cold metal transfer, Material and Design, 49 (2013) 602-612.
[2] Moreira, P.M.G.P., Jesus, A.M.P., Ribeiro, A.S., Castro, P.M.S.T., Fatigue crack growth in friction stir welds of 6082-T6 and 6061-T6 aluminium alloys: A comparison, Theoretical and Applied Fracture Mechanic, 50 (2008) 81-91.
[3] Feng, J., Zhang, H., He, P., The CMT short-circuiting metal transfer process and its use in thin aluminium sheets welding, Materials and Design, 30 (2009) 1850-1852.
[4] Ahmad, R., Bakar, M.A., Effect of a post-weld heat treatment on the mechanical and microstructure properties of AA6061 joints welded by the gas metal arc welding cold metal transfer method, Materials and Design, 32 (2011) 5120-5126.
[5] Shang, J., Wang, K., Zhou, Q., Zhang, D., Huang, J., Li, G., Microstructure characteristics and mechanical properties of cold metal transfer welding, Mg/Al dissimilar metals, Materials and Design, 34 (2012) 559-565.
[6] Cao, R., Wen, B.F., Chen, J.H., Wang, P.C., Cold metal transfer joining of magnesium AZ31B-to-aluminum A6061-T6, Materials Science and Engineering A, 560 (2013) 256-266.
[7] Rykala, J., Pfeifer, T., Robotised CMT welding of 6xxx series aluminium alloys, Biuletyn Instytutu Spawalnictwa, No. 6, (2013).
[8] Gungor, B., Kaluc, E., Taban, E., Şık, A., Mechanical and microstructural properties of robotic cold metal transfer (CMT) welded 5083-H111 and 6082-T651 aluminum alloys, Materials and Design, 54 (2014) 207-211.
[9] Kumar, R., Dilthey, U., Dwivedi, D.K., Ghosh, P.K., Thin sheet welding of Al 6082 alloy by AC pulse-GMA and AC wave pulse-GMA welding, Materials and Design, 30 (2009) 306-313.
[10] Lorenzin, G., Rutili, G., The innovative use of low heat input in welding: experiences on ‘cladding’ and brazing using the CMT proces, Welding International, 23:8, (2009) 622-632.
[11] Zhang, H.T., Feng, J.C., He, P., Zhang, B.B., Chen, J.M., Wang, L., The arc characteristics and metal transfer behaviour of cold metal transfer and its use in joining aluminium to zinc-coated steel, Materials Science and Engineering A, 499 (2009) 111-113.
[12] Meco, S., Pardal, G., Eder, A., Quintino, L., Software development for prediction of the weld bead in CMT and pulsed-MAG processes, Int J Adv Manuf Technol, 64 (2013) 171-178.
[13] Zhang, H.T., Feng, J.C., He, P., Hackl, H., Interfacial microstructure and mechanical properties of aluminium-zinc-coated steel joints made by a modified metal inert gas welding-brazing process, Materials Characterization, 58 (2007) 588-592.
[14] Cao, R., Huand, Q., Chen, J.H., Wang, P.C., Cold metal transfer spor plug welding of AA6061-T6-to-galvanized steel for automotive applications, Journal of Alloys and Compounds, 585 (2014) 622-632.
[15] Pickin, C.G., Williams, S.W., Lunt, M., Characrterisation of the cold metal transfer (CMT) process and its application for low dilution cladding, Journal of Materials Processing Technology, 211 (2011) 496-502.
[16] Ehab, A., Danaf, E., El-Rayes, M.M., Microstructure and mechanical properties of friction stir welded 6082 AA in as welded and post weld heat treated conditions, Materials and Design, 46 (2013) 561-572.
[17] Scialpi, A., De Filippis, L.A.C., Cavaliere, P., Influence of shoulder geometry on microstructure and mechanical properties of friction stir welded 6082 aluminium alloy, Materials and Design, 28 (2007) 1124-1129.
Year 2017,
, 606 - 611, 30.09.2017
Uğur Özsaraç
,
Salim Aslanlar
,
Faruk Varol
,
Şafak Işık
Erman Ferik
References
- [1] Yang, S., Zhang, J., Lian, J., Lei, Y., Welding of aluminum alloy to zinc coated steel by cold metal transfer, Material and Design, 49 (2013) 602-612.
[2] Moreira, P.M.G.P., Jesus, A.M.P., Ribeiro, A.S., Castro, P.M.S.T., Fatigue crack growth in friction stir welds of 6082-T6 and 6061-T6 aluminium alloys: A comparison, Theoretical and Applied Fracture Mechanic, 50 (2008) 81-91.
[3] Feng, J., Zhang, H., He, P., The CMT short-circuiting metal transfer process and its use in thin aluminium sheets welding, Materials and Design, 30 (2009) 1850-1852.
[4] Ahmad, R., Bakar, M.A., Effect of a post-weld heat treatment on the mechanical and microstructure properties of AA6061 joints welded by the gas metal arc welding cold metal transfer method, Materials and Design, 32 (2011) 5120-5126.
[5] Shang, J., Wang, K., Zhou, Q., Zhang, D., Huang, J., Li, G., Microstructure characteristics and mechanical properties of cold metal transfer welding, Mg/Al dissimilar metals, Materials and Design, 34 (2012) 559-565.
[6] Cao, R., Wen, B.F., Chen, J.H., Wang, P.C., Cold metal transfer joining of magnesium AZ31B-to-aluminum A6061-T6, Materials Science and Engineering A, 560 (2013) 256-266.
[7] Rykala, J., Pfeifer, T., Robotised CMT welding of 6xxx series aluminium alloys, Biuletyn Instytutu Spawalnictwa, No. 6, (2013).
[8] Gungor, B., Kaluc, E., Taban, E., Şık, A., Mechanical and microstructural properties of robotic cold metal transfer (CMT) welded 5083-H111 and 6082-T651 aluminum alloys, Materials and Design, 54 (2014) 207-211.
[9] Kumar, R., Dilthey, U., Dwivedi, D.K., Ghosh, P.K., Thin sheet welding of Al 6082 alloy by AC pulse-GMA and AC wave pulse-GMA welding, Materials and Design, 30 (2009) 306-313.
[10] Lorenzin, G., Rutili, G., The innovative use of low heat input in welding: experiences on ‘cladding’ and brazing using the CMT proces, Welding International, 23:8, (2009) 622-632.
[11] Zhang, H.T., Feng, J.C., He, P., Zhang, B.B., Chen, J.M., Wang, L., The arc characteristics and metal transfer behaviour of cold metal transfer and its use in joining aluminium to zinc-coated steel, Materials Science and Engineering A, 499 (2009) 111-113.
[12] Meco, S., Pardal, G., Eder, A., Quintino, L., Software development for prediction of the weld bead in CMT and pulsed-MAG processes, Int J Adv Manuf Technol, 64 (2013) 171-178.
[13] Zhang, H.T., Feng, J.C., He, P., Hackl, H., Interfacial microstructure and mechanical properties of aluminium-zinc-coated steel joints made by a modified metal inert gas welding-brazing process, Materials Characterization, 58 (2007) 588-592.
[14] Cao, R., Huand, Q., Chen, J.H., Wang, P.C., Cold metal transfer spor plug welding of AA6061-T6-to-galvanized steel for automotive applications, Journal of Alloys and Compounds, 585 (2014) 622-632.
[15] Pickin, C.G., Williams, S.W., Lunt, M., Characrterisation of the cold metal transfer (CMT) process and its application for low dilution cladding, Journal of Materials Processing Technology, 211 (2011) 496-502.
[16] Ehab, A., Danaf, E., El-Rayes, M.M., Microstructure and mechanical properties of friction stir welded 6082 AA in as welded and post weld heat treated conditions, Materials and Design, 46 (2013) 561-572.
[17] Scialpi, A., De Filippis, L.A.C., Cavaliere, P., Influence of shoulder geometry on microstructure and mechanical properties of friction stir welded 6082 aluminium alloy, Materials and Design, 28 (2007) 1124-1129.
There are 1 citations in total.