Research Article
Year 2019,
Volume: 7 Issue: 1, 25 - 36, 24.03.2019
Abstract
Malzemeler sökülebilen ve sökülemeyen birleştirme yöntemleri
kullanılarak birleştirilirler. Ancak farklı malzeme türlerinin birleştirilmesi
söz konusu olduğunda birçok birleştirme yönteminin kullanılması güç ve
problemlidir. Bu nedenle farklı malzeme türlerinin birleştirilmesinde mekanik
kilitleme yöntemi kullanılarak uygulamada karşılaşılan bazı problemlerin önüne
geçilebilecektir. Yöntem ile seramikler ile metaller, demir esaslı malzemeler
ile demir dışı metaller ve diğer malzeme türleri birbirleri ile
birleştirilebilir. Bu çalışma kapsamında farklı kimyasal bileşime sahip
AISI1040 ve Al 1050 metal çiftleri mekanik kilitleme ile birleştirilerek
yöntemin uygulanabilirliği araştırılmıştır. Birleştirilen numunelere ait
mekanik analizleri yapılmış ve mikro yapı incelemeleri tamamlanmıştır. Yapılan
çalışma sonucunda farklı malzeme çiftlerinin mekanik kilitleme yöntemi ile
başarılı bir şekilde birleştirileceği görülmüştür.
References
- [1] https://www.hindawi.com/journals/jma/si/425934/cfp/ Erişim tarihi 13.05.2018.
- [2] Mercan S., Özdemir N., (2013). AISI 2205 / AISI 1020 malzeme çiftinin sürtünme kaynağı ile birleştirilmesi, NWSA-Technologıcal Applıed Scıences, 8/2, 15-34.
- [3] Liu G.L., Yang S.W., Han W.T., Zhoua L.J., Zhang M.Q., Ding J.W., Dong Y., Wan F.R., Shang C.J., Misra R.D.K., (2018). Microstructural evolution of dissimilar welded joints between reducedactivation ferritic-martensitic steel and 316L stainless steel during the post weld heat treatment, Materials Science & Engineering A 722 182–196.
- [4] Mercan S., (2017), Mekanik Kilitleme Yöntemi, Türk Patent ve Marka Kurumu, No: TR 2015 03256 B 2017/05/22.
- [5] Çöl M., Yılmaz M., (2006). Yüksek frekanslı indüksiyon kaynağından sonra X52 mikroalyajlı çeliklerin ısıl işlem parametrelerinin belirlenmesi, Malzeme ve Tasarım 27 507–512.
- [6] Wang C., Luo T., Zhou J., Yang Y., (2018). Effects of solution and quenching treatment on the residual stress in extruded ZK60 magnesium alloy, Materials Science & Engineering A 722 14–19.
- [7] Robinson J.S., Redington W., (2015). The influence of alloy composition on residual stresses in heat treated aluminium alloys, Mater. Charact. 105 47–55.
- [8] Zheng L., Nie H., Zhang W., Liang W., Wang Y., (2018). Microstructural refinement and improvement of mechanical properties of hot-rolled Mg–3Al–Zn alloy sheets subjected to pre-extrusion and Al-Si alloying, Materials Science & Engineering A 722 58–68.
- [9] Xue Y., Wang X., Wang W., Zhong X., Han F., (2018). Compressive property of Al-based auxetic lattice structures fabricated by 3-D printing combined with investment casting, Materials Science & Engineering A 722 255–262.
- [10] Zhang K., Marthinsen K., Holmedal B., Aukrust T., Segatori A., (2018). Through thickness variations of deformation texture in round profile extrusions of 6063-type luminium alloy: Experiments, FEM and crystal plasticity modelling, Materials Science & Engineering A 722 20–29.
- [11] https://www.google.com.tr/url?sa=t&rct=j&q=&esrc=s&source=web&cd=3&cad=rja&uact=8&ved=0ahUKEwjvhZOLienYAhVDECwKHXhQBuIQFgg2MAI&url=http%3A%2F%2Fakademi.itu.edu.tr%2Fatahanh%2FDosyaGetir%2F74205%2Fch11_Termal&usg=AOvVaw1ZpBm09PFACc3O7mGql_5z/ Erişim tarihi 21.01.2018.
- [12] Acarer M., Demir H., (2008). An investigation of mechanical and metallurgical properties of explosive welded aluminum dual phase steel. Mater Lett, 62, 4158-4160.
- [13] Erdem M. (2015). Investigation of structure and mechanical properties of copper-brass plates joined by friction stir welding. Int J Adv Manuf Technol, 76: 1583–1592.
- [14] Balasubramanıan M., (2015). Development of processing windows for diffusion bonding of Ti−6Al−4V titanium alloy and 304 stainless steel with silver as intermediate layer. Trans. Nonferrous Met. Soc. China , 25, 2932−2938.
- [15] Atasoy E, Kahraman N. (2008). Diffusion bonding of commercially pure titanium to low carbon steel using a silver interlayer, Materials Characterization, 59, 1481−1490.
- [16] Cheng X., Gao Y., FU H., Xing J., Bai B., (2010). Microstructural characterization and properties of Al/Cu/steel diffusion bonded joints, Metals and Materials International, 16:4, 649−655.
- [17] Arık H., Semerci P., Kırmızı G., (2017). Sıcak Presleme ile Alüminyum Matrisli ve Al2O3 takviyeli toz metal kompozit malzeme üretimi ve aşınma davranışının araştırılması, GU J Sci, Part C, 5(4): 87-97 Gazi Üniversitesi Fen Bilimleri Dergisi PART C: Tasarım ve Teknoloji.
- [18] Meriç C., Köksal N.S., M. Erdoğan T., Okur A., (2008). Sürtünme kaynağı ile birleştirilmiş farklı malzemelerin kaynak bölgesinin incelenmesi, C.B.Ü. Fen Bilimleri Dergisi, 4.2 135–144, ISSN 1305-1385.
- [19] Saarimäki J., Lundberg M., Brodin H., Moverare J.J., (2018). Dwell-fatigue crack propagation in additive manufactured Hastelloy X, Materials Science & Engineering A 722, 30–36.
Year 2019,
Volume: 7 Issue: 1, 25 - 36, 24.03.2019
Abstract
The materials are assembled using assembly and disassembly
methods. However, when joining dissimilar material types comes into question,
it is difficult and troublesome to use many joining methods. For this reason,
some problems encountered in the application can be prevented by using
mechanical locking methods for joining of dissimilar material types. With the
method, ceramics and metals, ferrous materials, non-ferrous metals and other
material types can be joined with each other. In this study, the applicability
of the method was investigated by joining
metal pairs AISI
1040 and Al 1050 with different chemical compositions
via mechanical locking method. Mechanical analyses of the joined samples were
carried out and microstructure studies were completed. As a result of this
study, it was observed that different material pairs will be successfully
joined with the mechanical locking method.
References
- [1] https://www.hindawi.com/journals/jma/si/425934/cfp/ Erişim tarihi 13.05.2018.
- [2] Mercan S., Özdemir N., (2013). AISI 2205 / AISI 1020 malzeme çiftinin sürtünme kaynağı ile birleştirilmesi, NWSA-Technologıcal Applıed Scıences, 8/2, 15-34.
- [3] Liu G.L., Yang S.W., Han W.T., Zhoua L.J., Zhang M.Q., Ding J.W., Dong Y., Wan F.R., Shang C.J., Misra R.D.K., (2018). Microstructural evolution of dissimilar welded joints between reducedactivation ferritic-martensitic steel and 316L stainless steel during the post weld heat treatment, Materials Science & Engineering A 722 182–196.
- [4] Mercan S., (2017), Mekanik Kilitleme Yöntemi, Türk Patent ve Marka Kurumu, No: TR 2015 03256 B 2017/05/22.
- [5] Çöl M., Yılmaz M., (2006). Yüksek frekanslı indüksiyon kaynağından sonra X52 mikroalyajlı çeliklerin ısıl işlem parametrelerinin belirlenmesi, Malzeme ve Tasarım 27 507–512.
- [6] Wang C., Luo T., Zhou J., Yang Y., (2018). Effects of solution and quenching treatment on the residual stress in extruded ZK60 magnesium alloy, Materials Science & Engineering A 722 14–19.
- [7] Robinson J.S., Redington W., (2015). The influence of alloy composition on residual stresses in heat treated aluminium alloys, Mater. Charact. 105 47–55.
- [8] Zheng L., Nie H., Zhang W., Liang W., Wang Y., (2018). Microstructural refinement and improvement of mechanical properties of hot-rolled Mg–3Al–Zn alloy sheets subjected to pre-extrusion and Al-Si alloying, Materials Science & Engineering A 722 58–68.
- [9] Xue Y., Wang X., Wang W., Zhong X., Han F., (2018). Compressive property of Al-based auxetic lattice structures fabricated by 3-D printing combined with investment casting, Materials Science & Engineering A 722 255–262.
- [10] Zhang K., Marthinsen K., Holmedal B., Aukrust T., Segatori A., (2018). Through thickness variations of deformation texture in round profile extrusions of 6063-type luminium alloy: Experiments, FEM and crystal plasticity modelling, Materials Science & Engineering A 722 20–29.
- [11] https://www.google.com.tr/url?sa=t&rct=j&q=&esrc=s&source=web&cd=3&cad=rja&uact=8&ved=0ahUKEwjvhZOLienYAhVDECwKHXhQBuIQFgg2MAI&url=http%3A%2F%2Fakademi.itu.edu.tr%2Fatahanh%2FDosyaGetir%2F74205%2Fch11_Termal&usg=AOvVaw1ZpBm09PFACc3O7mGql_5z/ Erişim tarihi 21.01.2018.
- [12] Acarer M., Demir H., (2008). An investigation of mechanical and metallurgical properties of explosive welded aluminum dual phase steel. Mater Lett, 62, 4158-4160.
- [13] Erdem M. (2015). Investigation of structure and mechanical properties of copper-brass plates joined by friction stir welding. Int J Adv Manuf Technol, 76: 1583–1592.
- [14] Balasubramanıan M., (2015). Development of processing windows for diffusion bonding of Ti−6Al−4V titanium alloy and 304 stainless steel with silver as intermediate layer. Trans. Nonferrous Met. Soc. China , 25, 2932−2938.
- [15] Atasoy E, Kahraman N. (2008). Diffusion bonding of commercially pure titanium to low carbon steel using a silver interlayer, Materials Characterization, 59, 1481−1490.
- [16] Cheng X., Gao Y., FU H., Xing J., Bai B., (2010). Microstructural characterization and properties of Al/Cu/steel diffusion bonded joints, Metals and Materials International, 16:4, 649−655.
- [17] Arık H., Semerci P., Kırmızı G., (2017). Sıcak Presleme ile Alüminyum Matrisli ve Al2O3 takviyeli toz metal kompozit malzeme üretimi ve aşınma davranışının araştırılması, GU J Sci, Part C, 5(4): 87-97 Gazi Üniversitesi Fen Bilimleri Dergisi PART C: Tasarım ve Teknoloji.
- [18] Meriç C., Köksal N.S., M. Erdoğan T., Okur A., (2008). Sürtünme kaynağı ile birleştirilmiş farklı malzemelerin kaynak bölgesinin incelenmesi, C.B.Ü. Fen Bilimleri Dergisi, 4.2 135–144, ISSN 1305-1385.
- [19] Saarimäki J., Lundberg M., Brodin H., Moverare J.J., (2018). Dwell-fatigue crack propagation in additive manufactured Hastelloy X, Materials Science & Engineering A 722, 30–36.
There are 19 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Tasarım ve Teknoloji |
| Authors | |
| Publication Date | March 24, 2019 |
| Submission Date | June 27, 2018 |
| Published in Issue | Year 2019 Volume: 7 Issue: 1 |
