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Physiological effects caused by power ultrasound radiation are of therapeutic benefits for fracture healing. However, these effects are hard to detect with current instrumentations. The aim of this paper is to analyze the behavior of bone subject to therapeutic ultrasound and provide data reference for an intelligent bone ultrasonic system. In this paper, we adopted a 3-D finite element method as...
Physiological effects caused by power ultrasound irradiation are of therapeutic benefits for fracture healing, but sometimes will cause tissue damage. However, these effects are hard to detect by current instruments. The aim of this study is to analyze the behavior of the cancellous bone subject to therapeutic ultrasonic vibration excitation. In this work we adopted a three-dimensional Finite Element...
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