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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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Recent Development of Abrasive Water Jet Machining Technology
Key Engineering Materials, 2006Abrasive waterjet (AWJ) machining is a new non-conventional machining technology. Compared with other conventional and non-conventional machining technologies, AWJ offers the following advantages: no thermal distortion, small machining force, high machining versatility, etc.
Chuan Zhen Huang +3 more
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Machinability of Nickel-Based Superalloy by Abrasive Water Jet Machining
Materials and Manufacturing Processes, 2015This paper deals with the machinability of nickel-based superalloys using abrasive water jet machining process. The machining studies were carried out with three different parameters such as water jet pressure, traverse speed of jet nozzle, and standoff distance at three different levels.
M. Uthayakumar +4 more
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Evolutionary optimization of jet lag in the abrasive water jet machining
The International Journal of Advanced Manufacturing Technology, 2018One of the main characteristics of abrasive water jet machining (AWJM) is jet lag effect. In this case, by controlling basic machining parameters (water pressure, cutting speed, and abrasive mass flow rate), evolutionary algorithm is used for modeling and optimization of trajectory curvature in AWJM process. Based on experimental investigation, genetic
Marin Gostimirovic +4 more
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Performance of different abrasive materials during abrasive water jet machining of glass
Journal of Materials Processing Technology, 2007Abstract Different types of abrasives are used in abrasive water-jet machining like garnet, aluminum oxide, olivine, silica sand, silicon carbide, etc. The present work gives a comparative analysis of the performance of garnet, aluminum oxide and silicon oxide during abrasive water-jet machining of glass.
A.A. Khan, M.M. Haque
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