Neeraj Sharma scite author profile

NiTi is a shape memory alloy, mostly employed in cardiovascular stents, orthopedic implants, orthodontic wires, micro-electromechanical systems and so on. The effective and net shape machining of NiTi is very critical for excellent response of this material in medical and other applications. The present experimental work on wire electrical discharge machining process identifies the influence of process parameters that affect the cutting rate, dimensional shift and surface roughness while machining of porous nickel–titanium (Ni40Ti60) alloy. Porous Ni40Ti60 alloy was produced in-house using powder metallurgy technique. Response surface methodology–based central composite rotatable design has been used for the planning of experiments on wire electrical discharge machining. Empirical relations have been developed between the process parameters (pulse on-time, pulse off-time, servo voltage and peak current) and response variables. Desirability approach has been used for optimizing the three response variables simultaneously. Confirmation experiments were also performed at the optimized settings and reflect a close agreement between the predicted and experimental values (percentage error varies from −6.13% to +6.85%). Using wire electrical discharge machining, NiTi alloy can be machined easily and successfully in single-cutting operation, but after the first cut in wire electrical discharge machining, a surface projection appears on work surface which is the unmachined material on work surface.

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Modeling and optimization of Wire-EDM parameters for machining of Ni55.8Ti shape memory alloy using hybrid approach of Taguchi and NSGA-II

Magabe

Sharma

Gupta

et al. 2019

Int J Adv Manuf Technol

100

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Modeling and multiresponse optimization on WEDM for HSLA by RSM

Sharma¹,

Khanna

Gupta

et al. 2012

Int J Adv Manuf Technol

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Multiple performance characteristics optimization for Al 7075 on electric discharge drilling by Taguchi grey relational theory

et al. 2015

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Electric discharge drill machine (EDDM) is a spark erosion process to produce micro-holes in conductive materials. This process is widely used in aerospace, medical, dental and automobile industries. As for the performance evaluation of the electric discharge drilling machine, it is very necessary to study the process parameters of machine tool. In this research paper, a brass rod 2 mm diameter was selected as a tool electrode. The experiments generate output responses such as tool wear rate (TWR). The best parameters such as pulse on-time, pulse off-time and water pressure were studied for best machining characteristics. This investigation presents the use of Taguchi approach for better TWR in drilling of Al-7075. A plan of experiments, based on L 27 Taguchi design method, was selected for drilling of material. Analysis of variance (ANOVA) shows the percentage contribution of the control factor in the machining of Al-7075 in EDDM. The optimal combination levels and the significant drilling parameters on TWR were obtained. The optimization results showed that the combination of maximum pulse on-time and minimum pulse off-time gives maximum MRR.

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Fabrication of NiTi alloy: A review

Sharma

Jangra

Raj

2015

Proceedings of the Institution of Mechanical Engineers, Part L:

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Nitinol (NiTi) is categorized as a smart material which is highly recognized material for medical and other engineering applications. The behaviour of NiTi can be modified by altering the composition, modifying the porosity and applying external thermal and mechanical treatment. Due to high composition sensitivity, there are several impediments in fabrication of NiTi with conventional techniques which impel the use of additive manufacturing methods. But due to very high cost of equipments, these processes have not been commercialized till now. This paper presents a review on applications, manufacturing NiTi alloy and its various production routes from conventional to rapid prototyping, porous NiTi, effect of additives on properties of the alloy and its challenges.

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Neeraj Sharma

Parameter optimization and experimental study on wire electrical discharge machining of porous Ni₄₀Ti₆₀ alloy

Modeling and optimization of Wire-EDM parameters for machining of Ni55.8Ti shape memory alloy using hybrid approach of Taguchi and NSGA-II

Modeling and multiresponse optimization on WEDM for HSLA by RSM

Multiple performance characteristics optimization for Al 7075 on electric discharge drilling by Taguchi grey relational theory

Fabrication of NiTi alloy: A review

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Neeraj Sharma

Parameter optimization and experimental study on wire electrical discharge machining of porous Ni40Ti60 alloy

Modeling and optimization of Wire-EDM parameters for machining of Ni55.8Ti shape memory alloy using hybrid approach of Taguchi and NSGA-II

Modeling and multiresponse optimization on WEDM for HSLA by RSM

Multiple performance characteristics optimization for Al 7075 on electric discharge drilling by Taguchi grey relational theory

Fabrication of NiTi alloy: A review

Contact Info

Product

Resources

About

Parameter optimization and experimental study on wire electrical discharge machining of porous Ni₄₀Ti₆₀ alloy