RESEARCH ON SEALING PERFORMANCE OF MECHANlCAL SEAL FOR EXClTATION OF ROTATING SHAFT
In this study, liquid film perturbed pressure equation is derived firstly using a Tarlor Series expanding pressure formula.By linear film assumption,the axiaI stiffness and damping copfficients of the mechanical seal are derived. Then kinematical equation of the rotating shaftmechanical seal system is established.The research focus on solving response of the rotating shaft-mechanical seal system and leakage of the mechanical seal when the rotating shaft is under different frequencies excitatied or under frequency disturbed in difierent form excitatied in this paper.The analytical results show that response of the rotating shaft-mechanical seal system can finally be close to the stable state.when exeitatied frequency of the rotating shaft is disturbed iu different form. But for amplitude of the displace between the stationary ring. rotating ring and rotating shaft occurs mutation point at the time when the excitatied frequency is disturbed.meanwhile the excitatied frequency of the rotating shaft is disturbed in rectangular pulse form or in instant maximum pulse form.It will cause liquid film thickness to happen mutation until the leakage increases and mechanical seal fails at Iast.The study results show that the sealing performance of mechanical seal and exeitatied frequency of the rotating shaft has closely positive correlation.The rotating shaft-mechanical seal system can be optimization design and performance prediction based on the study of this paper.
Rotating Shaft-lechanical seal System Dynamic Characteristics Liquid Film Stiffness Damping Coefficients Stationary Ring Rotating Ring Harmonic Excitation Rectangular Pulse Excitation Instant Maxinmum Pulse Excitation
WU Zhao Gui Yu
School of Mechanical and Power Engineering Henan Polytechnic University Jiao zuo,P.R.China
国际会议
海口
英文
341-345
2011-02-22(万方平台首次上网日期,不代表论文的发表时间)