materials and manufacturing processes investigation of chip formation characteristics in orthogonal cutting of graphite

Milling Performance of CFRP Composite and Atomised

Chip Formation Characterization Processes After machining, chips were collected for each of the cutting directions (0, 30, 45, 60, and 90) relative to fiber orientations (TFOA) of CFRP. These chips were then measured and imaged employing a S-4800 FESEM.

Investigation of cutting temperatures distribution in machining

Continuous chip formation in orthogonal cutting process. Figure 2. Forces acting on the shear plane and the tool with resultant stress distribution on the tool rake face (Kapat et al., 2005). c x T d v c v t T q d v c z T y T x T dvk u w w w w w w w w

Investigation of Effects of Tool Geometry Parameters on

Manufacturing processes for metal products. Kendall Hunt Publishing Company, 2010. [3] T. Ozel, I. Llanos, J. Soriano And P. J. Arrazola. 3D finite element modelling of chip formation process for machining inconel 718: comparison of fe software predictions

Nikolaos Karkalos

In this paper, orthogonal cutting finite elements models are built for the investigation of the impact of large negative rake angles on the friction coefficient in the tool-chip interface in machining. The simulation results give an insight on the mechanism of chip formation

Comprehensive Materials Processing

Comprehensive Materials Processing provides students and professionals with a one-stop resource consolidating and enhancing the literature of the materials processing and manufacturing universe. It provides authoritative analysis of all processes, technologies, and techniques for converting industrial materials from a raw state into finished parts or products.

Chip formation in orthogonal trimming of graphite/epoxy

1996/1/1(Keywords: graphite/epoxy composite; orthogonal cutting; chip formation) The study of chip formation in orthogonal cutting of metals and other homogeneous materials has been instrumental in evaluating the material removal process.

Analysis and Fabrication of a Mechanical Quick

Metal cutting is one of the most important machining processes in manufacturing industry. Thorough understanding of metal cutting process facilitates the optimization in selection of cutting tools and machining parameters. There are several methods used for studying phenomena in metal cutting process. Using a quick-top device is an efficient technique for investigation cutting process in which

Department of Mechanical and Production Engineering, AUST

Faculty of Engineering Department of Mechanical and Production Engineering Ahsanullah University of Science and Technology 141 142, Love Road, Tejgaon Industrial Area, Dhaka-1208 Tel. (8802) 8870422, Ext. 107, 114, Fax : (8802) 8870417-18 Email: info


2020/9/2Relevant cutting experiments showed that the established 3D model accurately predicted the material removal, chip morphology, machined surface finish, and cutting forces. It was found that the matrix-particle-tool interactions led to particle fractures, mainly in the primary shear and secondary deformation zones along the cutting path and beneath the machined surface.

Lund University

The approach is to use an analytical cutting model to map the measurable out-puts of cutting experiments to material deformation characteristics. The method is validated with simulations. Additionally, a new material model is investigated for modeling work material thermal softening damping behavior that was observed during the state-of-the-art method.

Nikolaos Karkalos

In this paper, orthogonal cutting finite elements models are built for the investigation of the impact of large negative rake angles on the friction coefficient in the tool-chip interface in machining. The simulation results give an insight on the mechanism of chip formation

Mechanics of Advanced Materials and Modern Processes

2020/8/2Green manufacturing demands least wastage. Minimum chip formation reduces adverse effect on environment. Nose radius has a major role in reducing development of chips. Selection of proper nose radius and machining parameters will reduce amount of chip, therefore protect the environment. In finish turning of Al alloy-SiC, nose radius wear mainly affect the surface feature of the

An Experimental Investigation on Cryogenic Milling of Inconel

cutting mechanism and chip formation consequently of excessive tool wear, shorter tool life, poor surface quality, limitation of cutting speed, high machining cost and low productivity. Fig. 1. Schematic of chip formation and heat generation in metal

Investigation of Chip Formation Characteristics in Orthogonal Cutting of Graphite, Materials and Manufacturing Processes, 2009.12 (JCR,SCI IF: 3.35 ) 5. Tool Wear Characteristics in High Speed Milling of Graphite Using Micro Coated Carbide Endmill, Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture, 2009.03 (JCR, SCI IF: 1.166)

Precision manufacturing lab

Anupam Alok, Manas Das, Cost-effective way of hard turning with newly developed HSN2-coated tool, Materials and Manufacturing Processes, Vol 33, pp. 1003-1010, 2017. Chandan Kumar, Manas Das, Experimental investigation and metallographic characterization of fiber laser beam welding of Ti-6Al-4V alloy using response surface method, Optics and Lasers in Engineering, Vol.95, pp. 52-68, 2017.

The International Journal of Advanced Manufacturing

2021/5/5The International Journal of Advanced Manufacturing Technology bridges the gap between pure research journals and the more practical publications on advanced manufacturing and systems. It therefore provides an outstanding forum for papers covering applications-based research topics relevant to manufacturing processes, machines and process integration.

Towards understanding the brittle–ductile transition in the

2021/2/24The BRM is an obvious characteristic of materials, such as stone, advanced engineering ceramic and semiconductor, which are used in manufacturing processes at the conventional deformation scale. However, the DRM has been found in some manufacturing processes, such as single point diamond turning, ultra-precision grinding and micro-milling [ 40 – 42 ], in which the

An investigation of force components in orthogonal

Baron, S, Ahearne, E. Characterisation of chip morphology in orthogonal cutting of medical grade cobalt chromium alloy (ASTM F1537). In: Proceedings of the 32nd international manufacturing conference IMC, Belfast, 3–4 September 2015. Google Scholar

Investigation of cutting temperatures distribution in machining

Investigation of cutting temperatures distribution in machining heat treated medium carbon steel on a lathe A. G. F. Alabi 1, T. K. Ajiboye 1 * and H.D. Olusegun 2 1 Department of Mechanical Engineering, Faculty of Engineering, University of Ilorin, Kwara State 2

Factors Influencing the Machinability during Turning Sinter

matrix of surface roughness, chip formation, cutting forces, and tool wear to assess the machinability of sintered parts. Cutting speeds of 50, 150, and 250 m/min, feed rates of 0.05, 0.1, and 0.15 mm/rev, and cutting depths of 0.2, 0.4, and 0.6 mm were

AMST'02 Advanced Manufacturing Systems and

The work contains the results of the Sixth International Conference on Advanced Manufacturing Systems and Technology – AMST'02, which was held in Udine in June 2002. It presents up-to-date information on the latest developments – research results and

Material Removal Mechanism of Green Machining on

To analyze machined surface quality at different rounded edge radii, special cutting tools, with 10 rake angles and a set of rounded edge radii of 20 μm, 40 μm, 60 μm, 90 μm, and 120 μm, were prepared.Figure 3(b) presents the effect of the rounded cutting edge radius on the machined surface roughness when the cutting thicknesses are 0.1 mm and 0.2 mm.


metal cutting process, better modelling is a requisite in predicting metal cutting processes. This development has helped in selection of cutting tools and process parameters because numerical methods have become efficient tool for investigation of

Paweł Rokicki

Nowadays, high-speed cutting of difficult-to-machine metallic materials gets more important in industry to reduce manufacturing times and hence production costs. On the other hand, increased cutting speed is one of the most important factors influencing tool life, as it enhances built-up edge formation, oxidation of the tool#39;s surface and tool wear.

Experimental investigation of chip formation, flow, and

2015/9/10Cutting low-leaded copper-zinc (brass) alloys (Pb lt; 0.2nbsp;%) is often characterized by low process stability due to the formation of unfavorable chips. This paper therefore deals with an experimental investigation on the influence of material properties, lead content, and tool design on natural and forced chip formation, flow, and breakage in free orthogonal cutting of brass alloys. As

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