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A generalisation of the Hill's quadratic yield function for planar plastic anisotropy to consider loading direction (2017)
Journal Article
Cardoso, R. P., & Adetoro, O. B. (2017). A generalisation of the Hill's quadratic yield function for planar plastic anisotropy to consider loading direction. International Journal of Mechanical Sciences, 128-129, 253-268. https://doi.org/10.1016/j.ijmecsci.2017.04.024

© 2017 The Authors In this work, a new generalised quadratic yield function for plane stress analysis that is able to describe the plastic anisotropy of metals and also the asymmetric behaviour in tension-compression typical of the Hexagonal Closed-P... Read More about A generalisation of the Hill's quadratic yield function for planar plastic anisotropy to consider loading direction.

Benchmark 2 - Springback of a Jaguar Land Rover Aluminium (2016)
Journal Article
Allen, M., Oliveira, M., Hazra, S., Adetoro, O., Das, A., & Cardoso, R. (2016). Benchmark 2 - Springback of a Jaguar Land Rover Aluminium. Journal of Physics: Conference Series, 734(2), https://doi.org/10.1088/1742-6596/734/2/022002

The aim of this benchmark is the numerical prediction of the springback of an aluminium panel used in the production of a Jaguar car. The numerical simulation of springback has been very important for the reduction of die try outs through the design... Read More about Benchmark 2 - Springback of a Jaguar Land Rover Aluminium.

Trimming simulation of forming metal sheets isogeometric models by using NURBS surfaces (2016)
Journal Article
Herrero-Adan, D., Cardoso, R., & Adetoro, O. B. (2016). Trimming simulation of forming metal sheets isogeometric models by using NURBS surfaces. Journal of Physics: Conference Series, 734(B), https://doi.org/10.1088/1742-6596/734/3/032144

Some metal sheets forming processes need trimming in a final stage for achieving the net-shape specification and for removing micro-cracks and irregularities. In numerical simulation, since the exact final edge location is a priori unknown in the ori... Read More about Trimming simulation of forming metal sheets isogeometric models by using NURBS surfaces.

Stability lobes prediction for corner radius end mill using nonlinear cutting force coefficients (2012)
Journal Article
Adetoro, O. B., Sim, W. M., & Wen, P. H. (2012). Stability lobes prediction for corner radius end mill using nonlinear cutting force coefficients. Machining Science and Technology, 16(1), 111-130. https://doi.org/10.1080/10910344.2012.648570

There are a vast number of different types of end mill tools used in the manufacturing industry, each type with a unique shape. These tool shapes have a direct influence on the cutting force it generates during machining. This article presents a more... Read More about Stability lobes prediction for corner radius end mill using nonlinear cutting force coefficients.

A novel approach to thin-wall machining of aerospace structures- Stability margin prediction using a new damping modelling approach (2011)
Journal Article
Sim, W. M., Adetoro, O. B., & Wen, P. H. (2011). A novel approach to thin-wall machining of aerospace structures- Stability margin prediction using a new damping modelling approach. Advanced Materials Research, 223, 632-641. https://doi.org/10.4028...entific.net/AMR.223.632

The eco-friendly and economic challenges are driving more and more aerostructure components with thin wall and deep pocket features. These features are getting thinner and deeper and become impractical during part manufacturing. Therefore, there is a... Read More about A novel approach to thin-wall machining of aerospace structures- Stability margin prediction using a new damping modelling approach.

A new damping modelling approach and its application in thin wall machining (2010)
Journal Article
Adetoro, O. B., Wen, P. H., & Sim, W. M. (2010). A new damping modelling approach and its application in thin wall machining. International Journal of Advanced Manufacturing Technology, 51(5-8), 453-466. https://doi.org/10.1007/s00170-010-2658-7

In this paper, a new approach to modelling the damping parameters and its application in thin wall machining is presented. The approach to predicting the damping parameters proposed in this paper eliminates the need for experiments otherwise used to... Read More about A new damping modelling approach and its application in thin wall machining.

On the numerical prediction of stability in thin wall machining (2010)
Journal Article
Adetoro, O. B., Vepa, R., Sim, W. M., & Wen, P. H. (2010). On the numerical prediction of stability in thin wall machining. Lecture Notes in Electrical Engineering, 60 LNEE, 681-690. https://doi.org/10.1007/978-90-481-8776-8_58

In this chapter, the numerical prediction of stability margin in thin wall machining is introduced. The Nyquist criterion is applied to the stability model presented by Adetoro, while a newly discovered damping prediction approach is presented, which... Read More about On the numerical prediction of stability in thin wall machining.

An improved prediction of stability lobes using nonlinear thin wall dynamics (2010)
Journal Article
Adetoro, O. B., Sim, W. M., & Wen, P. H. (2010). An improved prediction of stability lobes using nonlinear thin wall dynamics. Journal of Materials Processing Technology, 210(6-7), 969-979. https://doi.org/10.1016/j.jmatprotec.2010.02.009

With manufactured sections getting much thinner due to weight requirements, there is the vital need for more accurate prediction of stable cutting conditions in machining. The tools used in machining vary in shapes and design hence a more robust mode... Read More about An improved prediction of stability lobes using nonlinear thin wall dynamics.

Prediction of mechanistic cutting force coefficients using ALE formulation (2010)
Journal Article
Adetoro, O. B., & Wen, P. H. (2010). Prediction of mechanistic cutting force coefficients using ALE formulation. International Journal of Advanced Manufacturing Technology, 46(1-4), 79-90. https://doi.org/10.1007/s00170-009-2079-7

This paper demonstrated the use of an efficient and accurate numerical tool (i.e., FEA) in simulating the cutting process and determining both the average and instantaneous cutting force coefficients. The main advantage of this approach compared to o... Read More about Prediction of mechanistic cutting force coefficients using ALE formulation.

Numerical and experimental investigation for stability lobes prediction in thin wall machining (2009)
Journal Article
Adetoro, O., Wen, P., Sim, W., & Vepa, R. (2009). Numerical and experimental investigation for stability lobes prediction in thin wall machining

A Finite Element Analysis (FEA) and Fourier transform approach to obtain frequency response function (FRF) is presented in this paper. The aim in this paper is to eliminate the need for the classical impact experimental approach used in extracting st... Read More about Numerical and experimental investigation for stability lobes prediction in thin wall machining.

The fundamental solution of Mindlin plates with damping in the Laplace domain and its applications (2008)
Journal Article
Wen, P. H., Adetoro, M., & Xu, Y. (2008). The fundamental solution of Mindlin plates with damping in the Laplace domain and its applications. Engineering Analysis with Boundary Elements, 32(10), 870-882. https://doi.org/10.1016/j.enganabound.2007.12.005

In this paper, a fundamental solution for the Mindlin plate theory with damping is derived in the Laplace transform domain first time. The applications of this fundamental solution are demonstrated by the method of fundamental solution (MFS). All var... Read More about The fundamental solution of Mindlin plates with damping in the Laplace domain and its applications.


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