Funding: This work was funded by the National Natural Science Foundation of China, Grant No. 11972174 (Jinxing Liu) and Grant No. 11672119 (Jinxing Liu).Peer reviewedPublisher PD
The acoustoplastic effect in metals is routinely utilised in industrial processes involving forming,...
In this paper, a phenomenological crystal plasticity model is modified to account for acoustic (ultr...
Ultrasonic tension (with a frequency of 20 kHz and maximum output of 700W) test were performed on AA...
The effect of softening due to vibrations induced on metals has been used in many industrial process...
Ultrasonic softening effect refers to the phenomenon where the superimposed ultrasonic vibration can...
The mechanism of ultrasonic softening effect has been widely investigated and used in the metal mate...
The present paper aims to model ultrasonic effects such as temporary softening and residual hardenin...
The present paper aims to model ultrasonic effects such as temporary softening and residual hardenin...
In this study, the influence of ultrasonic vibration on the plasticity of lightweight metals (alumin...
Ultrasonic additive manufacturing (UAM) is a rapid prototyping technology that features a metal joi...
Blaha and Langenecker are the first to document the phenomena known as “acoustic softening”: a signi...
Many industrial applications make use of ultrasonic vibration to soften metals. The existing underst...
Ultrasonic additive manufacturing (UAM) is a rapid prototyping technology that features a metal joi...
The mechanical-behaviour of metallic materials subjected to plastic deformation is altered with the ...
The mechanical-behaviour of metallic materials subjected to plastic deformation is altered with the ...
The acoustoplastic effect in metals is routinely utilised in industrial processes involving forming,...
In this paper, a phenomenological crystal plasticity model is modified to account for acoustic (ultr...
Ultrasonic tension (with a frequency of 20 kHz and maximum output of 700W) test were performed on AA...
The effect of softening due to vibrations induced on metals has been used in many industrial process...
Ultrasonic softening effect refers to the phenomenon where the superimposed ultrasonic vibration can...
The mechanism of ultrasonic softening effect has been widely investigated and used in the metal mate...
The present paper aims to model ultrasonic effects such as temporary softening and residual hardenin...
The present paper aims to model ultrasonic effects such as temporary softening and residual hardenin...
In this study, the influence of ultrasonic vibration on the plasticity of lightweight metals (alumin...
Ultrasonic additive manufacturing (UAM) is a rapid prototyping technology that features a metal joi...
Blaha and Langenecker are the first to document the phenomena known as “acoustic softening”: a signi...
Many industrial applications make use of ultrasonic vibration to soften metals. The existing underst...
Ultrasonic additive manufacturing (UAM) is a rapid prototyping technology that features a metal joi...
The mechanical-behaviour of metallic materials subjected to plastic deformation is altered with the ...
The mechanical-behaviour of metallic materials subjected to plastic deformation is altered with the ...
The acoustoplastic effect in metals is routinely utilised in industrial processes involving forming,...
In this paper, a phenomenological crystal plasticity model is modified to account for acoustic (ultr...
Ultrasonic tension (with a frequency of 20 kHz and maximum output of 700W) test were performed on AA...
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