مورد إلكتروني
Localised Corrosion Studies on FSW Al-Li alloys: Microstructure Effect
| العنوان: | Localised Corrosion Studies on FSW Al-Li alloys: Microstructure Effect |
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| بيانات النشر: | 2020-03-27 |
| تفاصيل مُضافة: | Garg, Vishant (author) |
| نوع الوثيقة: | Electronic Resource |
| مستخلص: | Al-Li alloys were introduced for the use in aerospace applications due to its many advantages over steel such as its low density, good thermal and electrical conductivity and corrosion resistance of these alloys. The current generation of Al-Li alloys were developed to replace the currently used AA2024 alloy in commercial airframes, military and space applications. Traditional joining methods cannot be used to join dissimilar aluminium alloys. Thus, friction stir welding (FSW) was used to join the 2 dissimilar Al-Li alloys - AA2099 T83 and AA2060 T8E30 alloys. FSW causes several changes in the microstructure due to the rotational movement of the tool which results in localised plastic deformation and a thermal cycle in the alloys. This leads to 4 distinct zones in the alloys - the stir zone, thermo-mechanically affected zone, heat affected zone, and the base metal. The differences in microstructure is suggested to cause a change in the mechanical properties and localised corrosion behaviour of the alloys. In this work, the localised corrosion behaviour of the friction stir welded Al-Li alloys were investigated. The effect of FSW on the microstructure and corrosion behaviour was also studied. Microstructural characterisation was done for both the alloys and their respective weld zones. Coarse constituent particles were found in all weld zones with a decreasing trend in average size towards the weld centre. Strengthening precipitates such as the T_1 phase particles were observed on the grain boundaries of the alloys. This had a decreasing trend of distribution density towards the weld centre with virtually no precipitates in the SZ. In order to assess the corrosion performance potentiodynamic polarisation, open circuit potential, linear polarisation resistance, and immersion tests were deployed. Furthermore, scanning electron microscopy with energy dispersive X-ray spectroscopy was used to evaluate the morphology and chemical composition of the of the corroded surface Mechanical Engineering | Vehicle Engineering |
| مصطلحات الفهرس: | Aluminium-Lithium alloys, Corrosion, AA2060 T8E30, AA2099 T83, Anodising, Sol-gel coating, Hydrogen evolution, energy dispersive X-ray spectroscopy, Passivity, Linear polarisation resistance, Intergranular attack, Scanning electron microscopy, Friction stir welding, Immersion tests, Potentiodynamic polarisation, master thesis |
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| الإتاحة: | Open access content. Open access content © 2020 Vishant Garg |
| ملاحظة: | English |
| أرقام أخرى: | NLTUD oai:tudelft.nl:uuid:608628bf-a1bc-45b3-9d06-574861b513ea 1303183216 |
| المصدر المساهم: | DELFT UNIV OF TECHNOL From OAIster®, provided by the OCLC Cooperative. |
| رقم الأكسشن: | edsoai.on1303183216 |
| قاعدة البيانات: | OAIster |
| الوصف غير متاح. |