Center of Excellence in Design, Robotics AutomationrnSchool of Mechanical Engineering Sharif University of Technology, Tehran, Iran;
rnCenter for Vehicle Systems and Safety Virginia Tech, Blacksburg, VA 24061 USA;
rnPiezoactive Systems LaboratoryrnDepartment of Mechanical and Industrial EngineeringrnNortheastern University, Boston, MA 02115, USA;
rnCenter of Excellence in Design, Robotics AutomationrnSchool of Mechanical Engineering Sharif University of Technology, Tehran, Iran;
机译:通过集成的低频拨片增强微悬臂梁的光学杠杆灵敏度,以进行动态原子力显微镜检查
机译:用应变梯度弹性理论建模的原子力显微镜微悬臂梁弯曲模式的灵敏度和共振频率研究
机译:原子力显微镜压电致动微悬臂梁在液体环境中的振动响应
机译:分光模式原子力显微镜中微电子的频率响应行为
机译:原子力显微镜中用于细胞成像和表征的微悬臂梁的建模和边界力控制。
机译:加固频率加固量和所需响应力对庇护工场行为的参数影响
机译:在粘性液体中振荡的原子力显微镜微悬臂梁的频率响应:各种方法的比较