Emerald期刊
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作者:M.P. Jenarthanan , Raahul Kumar S , Vinoth S
来源:[J].Pigment & Resin Technology(IF 0.616), 2017, Vol.46 (3), pp.194-202Emerald
摘要:Purpose(#br)This study aimed to develop a mathematical model for delamination and surface roughness during end milling by using grey relational analysis (GRA) and to determine how the input parameters (cutting speed, depth of cut, helix angle and feed rate) influence the out...
作者:M. Sakthivel , S. Vijayakumar , M.P. Jenarthanan
来源:[J].Pigment & Resin Technology(IF 0.616), 2017, Vol.46 (4), pp.276-285Emerald
摘要:Purpose(#br)The purpose of this paper is to optimise the process parameters, namely, point angle, spindle speed and feed rate in the drilling of glass-reinforced stainless steel mesh polymer (GRSSMP) composites using grey relational fuzzy logic. (#br)Design/methodology/approach(#...
作者:M.P. Jenarthanan , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2015, Vol.44 (1), pp.48-55Emerald
摘要:Purpose(#br) – The purpose of this paper is to analyse and optimise the machinability behaviour of Carbon Fibre Reinforced Polymer (CFRP) composites with multiple performance characteristics using the Taguchi method with fuzzy logic. (#br)Design/methodology/approach(#br) – A...
作者:M.P. Jenarthanan , A. Lakshman Prakash , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2016, Vol.45 (6), pp.463-475Emerald
摘要:Purpose(#br)The paper aims to develop a mathematical model for delamination and surface roughness during end milling by using response surface methodology (RSM) and to determine how the input parameters (cutting speed, depth of cut, helix angle and feed rate) influence the o...
作者:M.P. Jenarthanan , A. Lakshman Prakash , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2016, Vol.45 (3), pp.206-214Emerald
摘要:Purpose(#br)This paper aims to develop a mathematical model for analysing surface roughness during end milling by using response surface methodology (RSM) and to determine how the input parameters (cutting speed, depth of cut and feed rate) influence the output parameter (su...
作者:M.P. Jenarthanan , A. Ajay Subramanian , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2016, Vol.45 (2), pp.126-139Emerald
摘要:Purpose(#br) – This paper aims to study the comparison between a response surface methodology (RSM) and artificial neural network (ANN) in the modelling and prediction of surface roughness during endmilling of glass-fibre-reinforced polymer composites. (#br)Design/methodolog...
作者:M.P. Jenarthanan , A. Lakshman Prakash , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2016, Vol.45 (5), pp.371-379Emerald
摘要:Purpose(#br)This paper aims to develop a mathematical model for delamination during end milling by using response surface methodology (RSM) and to determine how the input parameters (cutting speed, depth of cut and feed rate) influence the output response (delamination) in m...
作者:M.P. Jenarthanan , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2014, Vol.43 (1), pp.35-44Emerald
摘要:Purpose(#br) – The purpose of this paper is to develop a mathematical model for the surface delamination through response surface methodology (RSM) and analyse the influences of the entire individual input machining parameters (cutting speed, feed rate and depth of cut) on t...
作者:... Ranjithkumar P , M.P. Jenarthanan , Sathiya Narayanan C
来源:[J].Pigment & Resin Technology(IF 0.616), 2017, Vol.46 (6), pp.507-524Emerald
摘要:Purpose(#br)The purpose of this paper is to develop a statistical model for delamination and thrust forcing during drilling of carbon-fibre reinforced polymer (CFRP) composites using response surface methodology (RSM) to determine the input parameters (drill speed, drill dia...
作者:M.P. Jenarthanan , R. Jeyapaul
来源:[J].Pigment & Resin Technology(IF 0.616), 2013, Vol.42 (5), pp.288-297Emerald
摘要:Purpose(#br) – The purpose of this paper is to report the preparation, characterisation and machinability of resin hybrid GFRP composites, which are made of glass fibre and the mixture of epoxy & polyester resin. (#br)Design/methodology/approach(#br) – Resin hybrid GFRP lami...

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