Correlations amongst process parameters in metal cutting and their use for establishing the optimum cutting speed

Astakhov, V. P.; Osman, M. O. M.

doi:10.1016/0924-0136(95)02225-2

Cited by 18 publications

(12 citation statements)

References 3 publications

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“…Source: Astakhov and Osman (1996), Mamalis et al (2005) and Taylor (1907) In the case of fibre reinforced plastic composites, their heterogeneous structure and anisotropic properties affect the material removal operations (Bhatnagar et al, 1995;Dandekar and Shin, 2012;Konig et al, 1985). The brittle nature of polymer matrices, especially of thermosets, leads the material to be fractured (Dandekar and Shin, 2012), instead of suffering a plastic deformation process as in the machining of metals and alloys (De et al, 1994;Taylor, 1907;Xiong et al, 2013).…”

Section: Figure 1 Typical Tool Life Curvesmentioning

confidence: 99%

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The applicability of Taylor's model to the drilling of CFRP using uncoated WC-Co tools: the influence of cutting speed on tool wear

Merino-Pérez

Merson

Ayvar-Soberanis

et al. 2014

IJMMM

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This work investigates the applicability of Taylor's model on the drilling of CFRP using uncoated WC-Co tools, by assessing the influence of cutting speed (V c ) on tool wear. Two different resins, possessing low and high glass transition temperatures (T g ), and two different reinforcements, high strength and high modulus woven fabrics, were combined into three different systems. Flank wear rate gradient exhibited to be more reinforcement dependent, while the actual flank wear rate showed to be sensible also to the type of resin. In terms of tool life, all CFRP systems adjusted into a power-type tool life vs. cutting speed curve through the full range of cutting speeds (1,000 RPM to 18,000 RPM). Therefore, Taylor's model can be applied to estimate the tool life in the drilling of CFRP using uncoated WC-Co tools with good accuracy. 96 J.L. Merino-Pérez et al.Keywords: Taylor model; cutting speed; tool wear; flank wear; tool life; glass transition temperature; CFRP; SEM; drilling; machining; machinability.Reference to this paper should be made as follows: Merino-Pérez, J.L., Merson, E., Ayvar-Soberanis, S. and Hodzic, A. (2014) Sabino Ayvar-Soberanis is a Research Associate at the AMRC leading the research field of process modelling and residual stress measurements. He has worked in a range of industrial and research projects focused on the development of computer base models for machining processes as composite machining, metal cutting, and residual stress/machining distortion. He is also working and investigating different techniques for induced and bulk residual stress measurements.

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Section: Figure 1 Typical Tool Life Curvesmentioning

confidence: 99%

“…Figure 1 depicts two tool life vs. cutting speed correlations. Curve 1 shows a monotonous inverse relationship, associated to Taylor-like models, while Curve 2 represents a more realistic dromedary-type dependence that occurs in the machining of every ferrous material (Astakhov and Osman, 1996;Mamalis et al, 2005;Taylor, 1907).…”

Section: Introductionmentioning

confidence: 99%

The applicability of Taylor's model to the drilling of CFRP using uncoated WC-Co tools: the influence of cutting speed on tool wear

Merino-Pérez

Merson

Ayvar-Soberanis

et al. 2014

IJMMM

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“…Because this kind of process produces an effect on the microstructure, it could affect the mechanical properties of the alloy enough to allow a failure. Due to this, researchers have extensively studied the effect of processing the mechanical behavior of the finished biomedical devices to improve their performance without affecting their production on an industrial scale [1]- [5].…”

Section: Mechanical Processes Effectmentioning

confidence: 99%

“…The effect of mechanical processes on metallic materials has been researched in the last decades with the aim of establishing better conditions that will allow optimizing the production without compromising the mechanical properties of materials [1]- [5]. Astakhov have recommended performing specific studies of both processes and materials, appart from only determining general parameters in mechanical properties of a material [1].…”

Section: Introductionmentioning

confidence: 99%

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Estudio metalográfico del efecto de la velocidad de corte en la microestructura del Ti-6Al4V ELI para la empresa Quirúrgicos Especializados

Sánchez-Castillo¹,

Supelano²,

Peña-Ballesteros³

2014

Iteckne

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An experiment study of hard coating and cutting fluid effect in milling aluminum alloy

Tsao¹

2006

Int J Adv Manuf Technol

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Correlations amongst process parameters in metal cutting and their use for establishing the optimum cutting speed

Cited by 18 publications

References 3 publications

The applicability of Taylor's model to the drilling of CFRP using uncoated WC-Co tools: the influence of cutting speed on tool wear

The applicability of Taylor's model to the drilling of CFRP using uncoated WC-Co tools: the influence of cutting speed on tool wear

Estudio metalográfico del efecto de la velocidad de corte en la microestructura del Ti-6Al4V ELI para la empresa Quirúrgicos Especializados

An experiment study of hard coating and cutting fluid effect in milling aluminum alloy

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