摘要
A new extrusion equipment in mechanical vibration was put forward. Mathematical equations of the undulant surface of vibration excitation were built up by analyzing the principle of the screw axial vibration. 3D model of the vibration equipment was created. Through force analysis of the vibration parts,vibration model of the extrusion equipment was established, and key parameters were theoretically deduced. Using the ADAMS software,dynamics simulation experiment of the vibration performance of the screw was carried out. And simulated results prove that this new vibration extrusion equipment is feasible and valid.
A new extrusion equipment in mechanical vibration was put forward. Mathematical equations of the undulant surface of vibration excitation were built up by analyzing the principle of the screw axial vibration. 3D model of the vibration equipment was created. Through force analysis of the vibration parts,vibration model of the extrusion equipment was established, and key parameters were theoretically deduced. Using the ADAMS software,dynamics simulation experiment of the vibration performance of the screw was carried out. And simulated results prove that this new vibration extrusion equipment is feasible and valid.
基金
Science and Technology Planning Project of Guangdong Province,China(No.2012B011300006)