Abstract
The staking quality of Self-lubricating Spherical Plain Bearings (SSPBs) directly affects the safety of aircraft and the service life of bearings. Reliable loading process control methods and precise process parameter indexes will come into the creation of efficacious staking quality. Therefore, this paper aims to analyze the mechanical state of the roller staking process and give a load control method and corresponding parameter indexes for the high-quality roller staking process. First, based on the analysis of quality inspection requirements, five states of the deformation degree of the flanging lip of the V groove during the roller staking process were proposed, and their relationship with the requirements was studied. Then, the mechanical states corresponding to the five deformation states of the flanging lip deformation were obtained by numerical simulation, and the feeding displacement was determined. Meanwhile, a Multi-Stage Composite Loading (MSCL) process control method was first proposed to control the material damage of the flanging lip, i.e., the rotate speed of the roller tool was constant during the roller staking process, and the displacement–time control was adopted first; when the staking load reaches a staking value, the force–time control was used to make the staking quality meet the requirements. Finally, the staking quality of the MSCL method was verified though the test. The research shows that the feeding displacement needs to be added to the requirements, and the recommended value is 0.5–0.6 times of the V groove depth. A good surface quality and non-material-damage of the flanging lip is more likely to be obtained by the MSCL process control method. The research reveals the formation mechanism of process deformation, and gives more precise process control indexes. At the same time, it provides a theoretical reference for more reliable technical standards.
Highlights
Aviation Self-lubricating Spherical Plain Bearings (SSPBs) are widely used in aerospace and other precision transmission fields because of their advantages of self-lubrication, large carrying capacity, and being maintenance free
The roller staking process is a developing installation method for SSPBs, which realizes the connection of bearings with housing chamfers through the local and gradual plastic deformation of the flanging lip of the V groove
BSa1s4e1d01o-9nstehlfe-lnuubmriceartiicnagl sspimheurliactaiol pnlaainnd beexapreinrigmwenatsaul asendalyassiasnofetxhaemrpollleerinsttahkiisnpgappreorc.eBssa,sfeidveodnetfhoremnautmioenrsictaatlessimofutlhaetifolannagnindg elxippedruimrienngtatlhaenraollylesirssotfakthinegropllreorcsetsaskwinegreprdoecfeisnse,dfivaenddetfhoermreaatsioonnasbtaletefseeodf itnhge fldaisnpgliancgelimpednutriwngasthdeerteorllmerinsteadk.inMgeparnowcehsislew, eareMduelfitni-eSdtaagnedCthoemrpeoassoitneaLbloeafdeiendgin(gMdSiCspLl)acpermoceensts wcoans tdroetlemrmetinhoedd. wMaesanpwrohpioles,ead,Maunldti-tShteagsteaCkionmg pqousaitlietyLooafdtihnigs pwraoscevsesrcifoiendtrobly mteestthso. d was proposed, and the staking quality of this method was verified by tests
Summary
Aviation Self-lubricating Spherical Plain Bearings (SSPBs) are widely used in aerospace and other precision transmission fields because of their advantages of self-lubrication, large carrying capacity, and being maintenance free. The roller staking process is a developing installation method for SSPBs, which realizes the connection of bearings with housing chamfers through the local and gradual plastic deformation of the flanging lip of the V groove ( known as incremental forming technology).
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
