The effects of initial rejuvenation on the cold joining behavior of Cu60Zr40 metallic glass

被引:0
作者
Dmitry Olegovich Bokov
Wanich Suksatan
Gunawan Widjaja
Ahmad Khoiri
Mustafa Z. Mahmoud
Zuhair I. Al Mashhadani
Abdullah Hasan Jabbar
Supat Chupradit
Hashim Abbas
Mustafa M. Kadhim
Aravindhan Surendar
Yasser Fakri Mustafa
机构
[1] Institute of Pharmacy,Faculty of Nursing
[2] Sechenov First Moscow State Medical University,Postgraduate Study
[3] HRH Princess Chulabhorn College of Medical Science,Faculty of Public Health
[4] Chulabhorn Royal Academy,Physics Education
[5] Universitas Krisnadwipayana,Department of Radiology and Medical Imaging, College of Applied Medical Sciences
[6] Universitas Indonesia,Faculty of Health
[7] Universitas Sains Alqur an Wonosobo,Optical Department, College of Health and Medical Technology
[8] Prince Sattam bin Abdulaziz University,Department of Occupational Therapy, Faculty of Associated Medical Sciences
[9] University of Canberra,Department of Optics, College of Health and Medical Technology
[10] Al-Nisour University College,Department of Dentistry
[11] Sawa University,College of Technical Engineering
[12] Ministry of Higher Education and Scientific Research,Department of Pharmacy
[13] Al-Muthanaa,Department of Pharmacology, Saveetha Dental College and Hospital
[14] Chiang Mai University,Department of Pharmaceutical Chemistry, College of Pharmacy
[15] Al-Ayen University,undefined
[16] Kut University College,undefined
[17] The Islamic University,undefined
[18] Osol Aldeen University College,undefined
[19] Saveetha Institute of Medical and Technical Sciences,undefined
[20] University of Mosul,undefined
来源
Applied Physics A | 2022年 / 128卷
关键词
Metallic glass; Joining; Molecular dynamics; Rejuvenation;
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摘要
In this work, the cold joining of Cu60Zr40 metallic glass (MG) was performed by the molecular dynamics (MD) simulation, and the effects of temperature (200–600 K) and joining velocity (6–18 m/s) on the plasticity and mechanical properties of the joint zone were evaluated. Moreover, an initial rejuvenation process was carried out to manipulate the atomic structure of MG to find the role of structural variations on the joining performance. The results indicated that the increase of velocity led to the sharp decline of ultimate strength in the raw-MG joints, while the rejuvenated MG experienced a slight decrease of strength under the rise of velocity. This was due to the fact that the presence of a more defective structure in the rejuvenated sample inhibited the accumulation of local strained regions at the interface in higher velocities. On the other side, the rejuvenated sample was more sensitive to the increase in bonding temperature. At the higher temperatures (500–600 K), the more softening events appeared in the rejuvenated structure, leading to extreme convexity and misalignment in the assemblies. As a result, the strength and plasticity sharply deteriorated in the high temperatures. Finally, it is concluded that the rejuvenated sample is more reliable in the joining process with high velocity; however, it is very sensitive to the bonding temperature.
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