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dc.contributor.authorOjolo, S. J.
dc.contributor.authorOgundare, A. A.
dc.contributor.authorIsmail, S. O.
dc.contributor.authorKofoworola, O. T.
dc.contributor.editorCase, Keith
dc.contributor.editorThorvald, Peter
dc.date.accessioned2019-02-22T11:02:33Z
dc.date.available2019-02-22T11:02:33Z
dc.date.issued2018-09-30
dc.identifier.citationOjolo , S J , Ogundare , A A , Ismail , S O & Kofoworola , O T 2018 , Investigation on Induced-Residual Stress During End Milling Operation Using Analytical Modelling . in K Case & P Thorvald (eds) , Advances in Manufacturing Technology XXXII - Proceedings of the 16th International Conference on Manufacturing Research, ICMR 2018, incorporating the 33rd National Conference on Manufacturing Research : Proceedings of the 16th International Conference on Manufacturing Research, incorporating the 33rd National Conference on Manufacturing Research, University of Skövde, Sweden . 1 edn , vol. 8 , IOS Press , Netherlands , pp. 39 - 44 . https://doi.org/10.3233/978-1-61499-902-7-39
dc.identifier.isbn978-1-61499-901-0
dc.identifier.isbn978-1-61499-902-7
dc.identifier.otherPURE: 15447072
dc.identifier.otherPURE UUID: 932c4681-466a-4647-8484-3b383b61e361
dc.identifier.otherScopus: 85057414422
dc.identifier.urihttp://hdl.handle.net/2299/21147
dc.description© 2018 The authors and IOS Press.
dc.description.abstractDuring end milling operation, the residual stresses are developed from two sources: plastic deformation of workpiece material and thermal energy generated. These two sources of residual stresses are often combined as one toward prediction of the efficient combined milling parameters which consequently minimised the residual stresses induced in the material. Hence, a mathematical model for predicting the magnitude of induced-residual stresses during end milling of 304L stainless steel was formulated, using analytical approach. The formulated model captured both mechanical and thermal (thermo-mechanical) stresses, which play a significant role during material deformation prior to fracture. The model was simulated with MATLABTM software. The mill cutter has a nose radius of 0.4 mm and operated at a constant cutting speed of 3 m/min. The simulation results showed that when the depth of cut was increased from 0.1 mm to 0.4 mm, the resultant residual stress varied from 150 MPa to 500 MPa, respectively. Evidently, the value of the residual stress value recorded same in both xx and zz-directions, at a particular depth of cut. However, the residual stress decreased exponentially as it approached zero under the surface of the material. Therefore, this model is capable of predicting the residual stresses induced during end milling operation, depending on the material (workpiece) properties, tooling material and selected end milling parameters.en
dc.format.extent6
dc.language.isoeng
dc.publisherIOS Press
dc.relation.ispartofAdvances in Manufacturing Technology XXXII - Proceedings of the 16th International Conference on Manufacturing Research, ICMR 2018, incorporating the 33rd National Conference on Manufacturing Research
dc.subject304L stainless steel
dc.subjectEnd milling
dc.subjectResidual stresses
dc.subjectSimulation
dc.subjectThermo-mechanical stresses
dc.subjectComputer Science Applications
dc.subjectIndustrial and Manufacturing Engineering
dc.subjectSoftware
dc.subjectAlgebra and Number Theory
dc.subjectStrategy and Management
dc.titleInvestigation on Induced-Residual Stress During End Milling Operation Using Analytical Modellingen
dc.contributor.institutionMaterials and Structures
dc.contributor.institutionCentre for Engineering Research
dc.contributor.institutionSchool of Engineering and Technology
dc.description.statusPeer reviewed
dc.identifier.urlhttp://www.scopus.com/inward/record.url?scp=85057414422&partnerID=8YFLogxK
dc.relation.schoolSchool of Engineering and Technology
rioxxterms.versionVoR
rioxxterms.versionofrecordhttps://doi.org/10.3233/978-1-61499-902-7-39
rioxxterms.typeOther
herts.rights.accesstypeclosedAccess


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