Results 171 to 180 of about 1,520 (193)

Influence of graphene filler on surface quality of hybrid composite during AWJM

Materials and Manufacturing Processes, 2021
Surface quality is an important output measure in all the machining processes. In this research, cotton and viscose fabrics were used as a reinforcement, graphene was used as a filler (1.5, 3, 4.5 ...
Arunkumar. K, Murugarajan. A
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Machinability of Titanium alloy 6242 by AWJM through Taguchi method

Materials Today: Proceedings, 2023
Abstract Titanium alloy is difficult to machining in the conventional machining process. Hybrid production technology for abrasive water jet machining (AWJM) allows the machining of all engineering applications. This paper explores the optimization of the process variables of Titanium alloy AWJM (Ti- 6Al- 2Sn- 4Zr- 2Mo).
A. Perumal, C. Kailasanathan, Vincent Herald Wilson, T. Sampath Kumar, B. Stalin, P.R. Rajkumar   +5 more
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Optimization of Abrasive Water Jet Machining (AWJM)

2020
Abrasive Water Jet Machining (AWJM) is an advanced version of Abrasive Jet Machining (AWJ) which employs water as the carrier medium for abrasive particles. The AWJM process can machine complex shapes and importantly, doesn’t generate heat concentrated zones.
Apoorva Shastri, Aniket Nargundkar, Anand J. Kulkarni   +2 more
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Study of effect on machinability by hybrid abrasive materials in AWJM

AIP Conference Proceedings, 2021
Abrasive water jet machining (AWJM) is a unique, ‘cold’ machining process and has a high Material Removal Rate (MRR), implicitly zero Tool Wear Rate (TWR) and negligible Heat-Affected Zone (HAZ). The working principle of AWJM is material removal by abrasive wear.
Wasif Mukaddam, Arjun Ramchandran, M. Sugavaneswaran   +2 more
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A Short Review on AWJM of Natural Fibre Reinforced Composite Materials

Applied Mechanics and Materials, 2023
A composite is a solid material created by combining two or more different substances, each with its own set of qualities, to create a new substance with properties that outperform the original components for a specific use. Currently composite materials are widely applied across various fields due to its superior properties.
N. Pragadish, S. Kaliappan, L. Natrayan, M. Selvam, Pravin P. Patil, C. K. Arvinda Pandian   +5 more
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Surface roughness prediction on drilled holes on strenx steel using AWJM process

Materials Today: Proceedings, 2021
Abstract The irregularities surface of the drilled holes which are inherent in the production process. Manual inspection or measurement is not suitable when the roughness irregularities are too small. The Surface Roughness (SR) measuring instrument is possible method to measure the surface quality of the drilled holes.
S. Chandravadhana, R. Ohmsakthi Vel, D. Shameer, S. Kannappan, R. Nandhakumar, R. Kalyanasundaram   +5 more
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Taguchi Optimization of AWJM Process Parameters on Aluminium Hybrid Composite

2020
Metal matrix composites are used in the aircraft structural components and automobile sectors. Abrasive waterjet machining is most economic and effective non-traditional machining process for machine aluminium metal matrix composites. The fabrications have been carried out of AA2024-B4C-TiC hybrid composites and the experiments conducted on a water jet
P. Ganesan, C. Sivakandhan, S. Marichamy, D. Madan, B. Stalin, V. Dhinakaran   +5 more
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Surface morphology and parametric optimization of AWJM parameters using GRA on aluminum HMMC

Materials Today: Proceedings, 2020
Abstract Cutting force arises as a major problem in machining of Hybrid Metal Matrix Composites (HMMCs) using conventional machining owed to the presence of reinforcement materials. Hence a non-conventional machining process namely Abrasive Water Jet Machining (AWJM) is preferred.
T.S. Senthilkumar, R. Muralikannan, S. Senthil Kumar   +2 more
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AWJM Performance of jute/polyester composite using MOORA and analytical models

Materials and Manufacturing Processes, 2017
This work addresses the machinability performance of jute/polyester composites with variable laminate thickness using Abrasive water jet machining (AWJM) process.
S. Kalirasu, N. Rajini, S. Rajesh, J.T. Winowlin Jappes, K. Karuppasamy   +4 more
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Comparison of drilling of Inconel 625 by AWJM and WEDM

Aircraft Engineering and Aerospace Technology
Purpose This study aims to comparatively analyze the cut parts obtained as a result of cutting the Ni-based Inconel 625 alloy, which is widely used in the aerospace industry, with the wire electro-discharge machining (WEDM) and abrasive water jet machining (AWJM) methods in terms of macro- and microanalyses. Design/methodology/approach In this study,
Ceritbinmez, Ferhat, Günen, Ali
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