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Abrasive Water Jet Machining of Ceramic Composites
2019This chapter is focused on machining performance of AWJM process during the machining of zirconia (ZrO2) ceramic composites. Experiments are conducted using the Taguchi (L27) method to analyze the influence of AWJM parameters [standoff distance (A), the working pressure (B), and nozzle speed (C)] on the response parameters such as MRR and surface ...
null Jagadish, Kapil Gupta
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Statistical modelling of depth milling in Ti-6AL4V using abrasive water jet machining
Proceedings of the Institution of mechanical engineers. Part E, journal of process mechanical engineeringMulti-objective grey relational analysis optimization technique and multiple regression analysis were employed to determine the optimum values for depth of cut, surface roughness ( Ra), and kerf at entry and exit ([Formula: see text] and [Formula: see ...
Y. Mogul +7 more
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Abrasive Water Jet Machining of Polymer Composites
2019This chapter presents the machining performance of green abrasive water jet machining process on polymer composites. Abrasive water jet machining (AWJM), a commonly known as green machining process and wood dust filler-based reinforced polymer (WDFRP) composites or green composites, is considered in this study.
null Jagadish, Kapil Gupta
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Abrasive Water Jet Machining of Metallic Materials
2019Abrasive water jet machining (AWJM) is a widely accepted sustainable machining method used to machine difficult-to-cut materials in view of both environmental and economic benefits. This chapter discusses the machining performance of sustainable/green machining method on AISI 304 grade steel material. Five process parameters, namely abrasive grain size
null Jagadish, Kapil Gupta
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Miniaturization of injection abrasive water jet machining process
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2006This contribution presents the possibilities of applying abrasive water jet (AWJ) technology for multi-material micromanufacture. The working principles of injection and suspension AWJ systems are presented. Characteristics of this technology, such as the ability to machine virtually any kind of material and the absence of a relevant heat-affected ...
H Orbanic +4 more
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Alternative Machining Operations with Abrasive Water Jets
1998The versatility of the abrasive water jet in cutting almost any engineering material is a very special feature of this technology. Figure 9.1 shows an example for the machining capability of the abrasive water-jet technique. This figure illustrates several steps of manufacturing a certain complex shape in a hard-to-machine material. Besides cutting, as
Andreas W. Momber, Radovan Kovacevic
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Abrasive Water Jet Machining of Composite Materials
2017In order to fulfil various advanced technological requirements in defence, aerospace, automotive and other industrial sectors, the use of composite materials have rapidly been increased. Machining of composite material is one of the important operations while manufacturing different engineered components.
Sumit Bhowmik +2 more
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A study on recycling of abrasives in abrasive water jet machining
Wear, 2003Abstract This paper reports the effect of recycling of local garnet abrasives (origin: southern India) while cutting aluminium using abrasive water jet machining. The influence of pressure, traverse rate, and abrasive flow rate on American Foundrymen’s Society grain fineness number, average particle size, depth of cut, top kerf width, bottom kerf ...
M Kantha Babu, O.V Krishnaiah Chetty
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Machining of Metal Matrix Composite Using Abrasive Water Jet Machine
2021Abrasive water jet machining (AWJM) is one of the unconventional machining processes, in which the material is removed by the impact of high-pressure water, along with entrained abrasives. The input parameters involved in the AWJM system are water jet pressure, abrasive flow rate, orifice diameter, nozzle diameter, particle size of the abrasive ...
E. Soundrapandian +3 more
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Opportunities in Abrasive Water Jet Machining
1997In the recent years the interest in loose abrasive machining processes as efficient, flexible processes is rising. This paper describes the development of a ‘coherent set of models’ for a category of these processes, namely those which use high velocity of the particles to obtain the necessary energy to machine a workpiece surface.
Hoogstrate, A.M. +4 more
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