Relevant bibliographies by topics / Abrasive jet machine

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Abrasive jet machine'

Author: Grafiati
Published: 4 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "Abrasive jet machine"

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Smart, D. S. Robinson, D. P. Rufus, and Lijin George. "Experimental Investigation of Effect of Rotary Abrasive Jet Nozzle on Coating Removal Rate and Surface Finish." Advanced Materials Research 1043 (October 2014): 165–71. http://dx.doi.org/10.4028/www.scientific.net/amr.1043.165.

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An abrasive jet machine can be used effectively for removing the existing coating on the surfaces .A rotating, variable angle abrasive jet nozzle has been designed to produce a swirling abrasive jet .The horizontal and the vertical striking angles of the abrasive jet nozzle has been adjusted as 50° ,40° respectively [1] . Investigations have been carried out to evaluate the effect of Garnet and SiO2 abrasives and the speed of the rotation of the nozzle on coating removal rate. Coated Mild steel, Galvanized Iron and Aluminium were used as specimens for investigations. The rotary abrasive jet no
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Madhu, S., and M. Balasubramanian. "A Review on Abrasive Jet Machining Process Parameters." Applied Mechanics and Materials 766-767 (June 2015): 629–34. http://dx.doi.org/10.4028/www.scientific.net/amm.766-767.629.

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Abrasive jet machining (AJM) also known as abrasive micro-blasting or Pencil blasting is an abrasive blasting machining process that uses abrasives propelled by high velocity gas to erode material from the work piece. It has been applied to rough working such as deburring and rough finishing, machining of ceramics and electronic devices. AJM has become a useful technique for micro machining. It has various distinct advantages over the other non-traditional cutting methods, which are high machining versatility, minimum stresses on the substrate. This paper deals with several experiments that ha
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Sagar, Pachode, Arote Udayraj, Gawas Dhiraj, Ozarkar Suraj, and Sonaane Sanjakumar. "A Review on Abrasive Jet Glass Drilling Machine." Journals of Mechatronics Machine Design and Manufacturing 1, no. 2 (2019): 15–18. https://doi.org/10.5281/zenodo.3527680.

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The paper aims at designing and fabrication of low cost abrasive jet glass drilling machine. Abrasive jet machining is an effective way to cut, abrade, de-burr, de-flash, etch, drill and restore a variety of materials. The abrasive jet machine is a pneumatic device powered by forced air. Applications are made possible with the help of pressurized air and very fine powder mixture in pressure chamber and a powerful abrasive mixture is produced. The abrasive mixture is then sent through the hand piece and nozzle creating a precise abrasive stream. The abrasive jet machine is very easy to use. The
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Kumari, DR Lakshmi. "Fabrication of abrasive jet machining." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 01 (2025): 1–9. https://doi.org/10.55041/ijsrem41140.

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Abrasive Jet Machining (AJM) is a non-traditional machining process that utilizes a high-velocity stream of air or gas mixed with abrasive particles to remove material from a workpiece. This method is highly effective for delicate and intricate machining of brittle materials like glass. The key benefits of AJM are its precision, minimal thermal damage, and ability to operate without direct contact with the workpiece. The fabrication of an Abrasive Jet Machine (AJM) specifically designed for glass processing involves careful consideration of various factors, including material selection, design
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Arivazhagan, R., C. Dominic Savio, K. Aakash, M. Ahamed Abuthahir, and C. Ganesh. "An Investigation on Cut Quality of Aluminum Matrix Composites Cut by Abrasive Waterjet." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (2022): 535–43. http://dx.doi.org/10.22214/ijraset.2022.41263.

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Abstract: Metal matrix composites are difficult to machine in traditional machining methods. Abrasive water jet machining is a state-of-the art technology which enables machining of practically all engineering materials. Abrasive water jet machining is a very efficient machining process which overcomes tool wear issues and cutting temperature issues. This experimental investigates a particular study performed on hybrid metal matrix composites prepared by AA6082 and reinforced 7.5% of TiB2 and 1% graphite in aluminum alloy and processed with abrasive water jets that are formed with garnet 80 me
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Lei, Yu Yong, Dai Jun Jiang, Ke Fu Liu, and Pu Hua Tang. "Experiments on Dicing Monocrystalline Silicon Wafer Using Micro Abrasive Water Jet." Advanced Materials Research 287-290 (July 2011): 2863–68. http://dx.doi.org/10.4028/www.scientific.net/amr.287-290.2863.

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The experiments on dicing monocrystalline silicon wafer using micro abrasive water jet turning were performed. A specifically designed water jet machine tool with four axes was developed and a specially designed cutting head has developed, in which the inside diameter of orifice and focusing tube is f125 mm and f500 mm respectively, while the silicon carbide solid abrasives with average diameter of 25-100 mm was used. In order to control the flow rate of micro abrasives precisely, an abrasive feed system with auger mechanism driven by DC motor reducer was used. The diameters of monocrystalline
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Sasikumar, KSK, KP Arulshri, K. Ponappa, and M. Uthayakumar. "A study on kerf characteristics of hybrid aluminium 7075 metal matrix composites machined using abrasive water jet machining technology." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 232, no. 4 (2016): 690–704. http://dx.doi.org/10.1177/0954405416654085.

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Metal matrix composites are difficult to machine in traditional machining methods. Abrasive water jet machining is a state-of-the art technology which enables machining of practically all engineering materials. This article deals with the investigation on optimization of process parameters of abrasive water jet machining of hybrid aluminium 7075 metal matrix composites with 5%, 10% and 15% of TiC and B4C (equal amount of each) reinforcement. The kerf characteristics such as kerf top width, kerf angle and surface roughness were studied against the abrasive water jet machining process parameters
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Yadav, Navneetsinh S., and Neeraj K. Chavda. "To Investigate the Reduction in Kerf Taper Angle & Abrasive Waterjet lagging of Hard Ductile Inconel 625 with Abrasive Water Jet Machining with using Mathematical Model." International Journal of Membrane Science and Technology 9, no. 2 (2022): 149–54. http://dx.doi.org/10.15379/ijmst.v9i2.3676.

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Inconel 625 were studied to reduce in kerf taper angle by reducing water jet lagging with added polymer (PAM) to reduce the softening area when cutting the material on the abrasive waterjet cutting machine and to obtain a flat surface using the above listed materials. Used a combination of water pressure, abrasive particle size, nozzle size, polymer additive & Abrasives (Silica Sand) additive by percentage mass as process parameters & to check validation by mathematical model.
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Hou, Rong Guo, Chuan Zhen Huang, Hong Tao Zhu, and Jun Wang. "Study on Experiment Device of Abrasive Water Jet Micro-Turning." Advanced Materials Research 500 (April 2012): 339–44. http://dx.doi.org/10.4028/www.scientific.net/amr.500.339.

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An abrasive water jet micro-turning experiment device is designed to solve the problem for micromachining the revolving parts. This device is composed of the machine body, hydraulic system, collection devices and control equipment etc. This paper emphasizes on the structure design of the moving parts of the abrasive water jet turning process, clamp, lathe bed, abrasive water jet injecting system and collection system. The turning spindle system and feed drive mechanism are designed, and the strength, stiffness and precision of the ball screw transmission mechanism are calculated and checked to
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Gajera, Vijay M., and Chetan Swarrop. "Process Modeling and Simulation of Abrasive Jet Machine-A Review." Indian Journal of Applied Research 4, no. 6 (2011): 1–3. http://dx.doi.org/10.15373/2249555x/june2014/186.

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Dissertations / Theses on the topic "Abrasive jet machine"

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Kubín, Matěj. "Obrábění těžkoobrobitelných materiálů pomocí vodního paprsku s abrazivem." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2019. http://www.nusl.cz/ntk/nusl-402519.

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The diploma thesis deals with unconventional technology of material separation by water jet with abrasive. It describes the influence and specification of technological parameters of the water jet on the quality of the cutting surface. The work contains an experiment, where the aim was to achieve from the theory the influence of tech-nological parameters on surface roughness on composite materials from glass fiber and carbon fiber.
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Fowler, Gary. "Abrasive water-jet : controlled depth milling of titanium alloys." Thesis, University of Nottingham, 2003. http://eprints.nottingham.ac.uk/11436/.

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Abrasive waterjet (AWJ) technology is used in a routine manner in manufacturing industry to cut materials that are difficult to cut by other methods. Whilst the technology for through cutting of materials is mature, the process is also being developed for controlled depth milling (CDM) of materials. The aerospace industry have a requirement to remove redundant material from components manufactured from difficult to machine Ti6Al4V and titanium aluminide alloys and thus reduce component weight. The two main processes available to facilitate this are chemical milling and AWJ-CDM. The two process
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Biswal, Shatabdi. "Fabrication of abrasive jet machine." Thesis, 2013. http://ethesis.nitrkl.ac.in/4956/1/109ME0363.pdf.

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Abrasive Jet Machining (AJM) is the process of material removal from a work piece by the application of a high speed stream of abrasive particles suspended in a gas medium from a nozzle. The material removal process is mainly caused by brittle fracture by impingement and then by erosion. The AJM will chiefly be used to cut shapes, drill holes and de-burr in hard and brittle materials like glass, ceramics etc. In this project, a model of the Abrasive Jet Machine was designed using CAD packages like AutoCAD and CATIA. Care was taken to efficiently use the available material and space. The machin
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Pradhan, Krushna Prasad. "Design and Fabrication of Abrasive Jet Machine." Thesis, 2009. http://ethesis.nitrkl.ac.in/336/1/10503048.pdf.

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Abrasive Jet Machining (AJM) is the process of material removal from a workpiece by the application of a high speed stream of abrasive particles carried in a gas medium from a nozzle. The material removal process is mainly by erosion. The AJM will chiefly be used to cut shapes in hard and brittle materials like glass, ceramics etc. the machine will be automated to have 3 axes travel. The different components of AJM are Horizontal motion module (X-Y Table), Vertical motion module (Z- motion), Vibrator, dehumidifier, Pressure Regulator, and Dust filter etc. The different components are selected
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Padhy, Jukti Prasad. "Design and Fabrication of Abrasive Jet Machine." Thesis, 2013. http://ethesis.nitrkl.ac.in/4798/1/2013_211ME2353_JKPadhy_Design.pdf.

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Abrasive Jet Machining (AJM) is a non-conventional machining process where a high-pressure air stream with small abrasive particles to impinge the work surface through a nozzle. A CNC milling machine was modified to an AJM, using the C-frame, X-Y table, stepper motor and other parts of the CNC. Using CAD software, CATIA and AUTOCAD, a model of AJM was designed. The working chamber and nozzle holding arrangement was fabricated in our institute work shop. Cheap and easily available material like aluminum sheet, steel rod, mild steel, glass fiber, polythene sheet, alien bolt and spring are used f
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徐黎榮. "The study of precision maching for SKD61 by Abrasive Jet Maching method." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/45603498618991107926.

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碩士<br>建國科技大學<br>自動化工程系暨機電光系統研究所<br>101<br>In this study, the use of abrasive jet machining method (Abrasive Jet Machining,AJM) surface machining on milling explore on SKD61 mold steel processing and milling the surface of the polishing improvement. From the experimental results find that use the best combination of parameters by Taguchi Method ,the surface roughness value can drop from 0.76 μmRa to 0.21 μmRa and 4.57 μmRmax to 0.92 μmRmax, the improvement rate up to 72% and the surface is similar to a reflection mirror. Furthermore, study also investigated the surface characteristic of workpi
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Yin-Shing, Chong. "A numerical and experimental investigation of rectangular abrasive jets for drilling operations." Thesis, 1995. http://hdl.handle.net/1957/35548.

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Kowsari, Kavin. "The Effects of Dilute Polymer Solutions on the Shape, Size, and Roughness of Abrasive Slurry Jet Micro-machined Channels and Holes in Brittle and Ductile Materials." Thesis, 2013. http://hdl.handle.net/1807/42988.

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The present study investigated the effect of dilute polymer solutions on the size, shape, and roughness of channels and holes, machined in metal and glass using a novel abrasive slurry-jet micro-machining (ASJM) apparatus. The apparatus consisted of a slurry pump and a pulsation damper connected to an open reservoir tank to generate a 140-micron turbulent jet containing 1 wt% 10-micron alumina particles. With the addition of 50 wppm of 8-M (million) molecular weight polyethylene oxide (PEO), the widths of the channels and diameters of holes machined in glass decreased by an average amount of 2
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Books on the topic "Abrasive jet machine"

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Momber, Andreas W. Principles of Abrasive Water Jet Machining. Springer London, 1998.

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Yin-Shing, Chong. A numerical and experimental investigation of rectangular abrasive jets for drilling operations. 1995.

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Book chapters on the topic "Abrasive jet machine"

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Soundrapandian, E., A. Tajdeen, K. Kamal Basha, and P. Vivekkumar. "Machining of Metal Matrix Composite Using Abrasive Water Jet Machine." In Springer Proceedings in Materials. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-8319-3_30.

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Jadav, Shaishav M., and Ramesh R. Lekurwale. "Effect of Process Parameters While Machining Using Abrasive Jet Machine (AJM)." In Proceedings of International Conference on Intelligent Manufacturing and Automation. Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-2490-1_53.

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Vanmore, Vinod V., and Uday A. Dabade. "Machining of titanium alloys by using micro abrasive jet machine: an experimental investigation." In Recent Advances in Material, Manufacturing, and Machine Learning. CRC Press, 2024. http://dx.doi.org/10.1201/9781003450252-59.

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Klich, Jiri, Dagmar Klichova, Guoyi Peng, and Libor Sitek. "Drilling Difficult-to-Machine Al2O3 Ceramics Using an Injection Abrasive Water Jet." In Advances in Manufacturing Engineering and Materials II. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-71956-2_4.

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Momber, Andreas W., and Radovan Kovacevic. "Geometry, Topography and Integrity of Abrasive Water-Jet Machined Parts." In Principles of Abrasive Water Jet Machining. Springer London, 1998. http://dx.doi.org/10.1007/978-1-4471-1572-4_8.

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Sreekanth, D. V., P. Santosh Kumar Patra, and M. Sreenivasa Rao. "Microstructural Evaluation of Tungsten Carbide GT30 Machined by Abrasive Jet Machining." In Advances in Lightweight Materials and Structures. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-7827-4_56.

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Bhandarkar, Vivek V., Rahul A. Jibhakate, and T. V. K. Gupta. "Influence of Process Parameters on Abrasive Water Jet Machined Pockets on Inconel 718 Alloy." In Smart Technologies for Energy, Environment and Sustainable Development. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-6148-7_59.

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Chaouch, Faten, Ated Ben Khalifa, Redouane Zitoune, and Mondher Zidi. "Investigation on the Surface Quality of GFRP Composite Laminates Machined by Abrasive Water Jet." In Lecture Notes in Mechanical Engineering. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-14615-2_91.

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Kumar, Piyush, Suryank Dwivedi, Akash Nag, Ranjib Biswas, and Amit Rai Dixit. "Quality Characteristics of Borosilicate Glass Machined Through Abrasive Water Jet: An Optimization and Experimental Approach." In Lecture Notes in Networks and Systems. Springer Nature Switzerland, 2024. http://dx.doi.org/10.1007/978-3-031-65656-9_18.

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Sawant, Dhruv A., Vijaykumar S. Jatti, Nitin K. Khedkar, Vinaykumar S. Jatti, and Sachin Salunkhe. "Chapter 11 k-Nearest neighbor-based machine learning algorithm to predict the taper angle during abrasive water-jet machining of stainless steel." In Abrasive Water Jet Machining of Composites. De Gruyter, 2024. https://doi.org/10.1515/9783111240244-011.

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Conference papers on the topic "Abrasive jet machine"

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R, Thamizhvel, Manikandan A, Praveen Kumar S, and Sivasankaran S. "Potential Use of Cathode Ray Tube as an Abrasive Particle in Abrasive Jet Machine." In 2023 International Conference on Energy, Materials and Communication Engineering (ICEMCE). IEEE, 2023. http://dx.doi.org/10.1109/icemce57940.2023.10434107.

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Pasken, Greg, Jianfeng Ma, Muhammad P. Jahan, and Shuting Lei. "Numerical Simulation of Pure Water Jet Machining of Al 6061-T6 With Experimental Validation." In ASME 2019 14th International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/msec2019-2712.

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Abstract Pure water jets are not as effective as abrasive water jets for cutting hard materials at large scales. Pure water jets can have kerfs as small as 0.076 mm, which is approximately the width of a human hair. This allows for small detailed cuts on workpiece material [1]. Research into using pure water jet to machine aluminum at small scales is important, as this will allow small scale and precision machining of the work piece material. At micro scales, water jet cutting with typical abrasives is not possible because the abrasive particles are typically in the micron range which is aroun
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Patel, Divyansh, and Puneet Tandon. "Optimization of Kerf Surface and Material Removal Rate Using Abrasive Water-Slurry Jet Machining Setup." In ASME 2013 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/imece2013-64245.

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This work presents a description of abrasive water-slurry jet machining (AWSJM) to improve machining capabilities of conventional abrasive water jet machine. The present work proposes a new approach of AWSJM by equipping the conventional abrasive water jet machine (AWJM) with a programmable servomotor controlled abrasive flow control valve and fabricating a setup for injecting polymer solution into the abrasive water jet nozzle, which improves the performance of abrasive jet. Three types of concentrations are prepared to perform the experiments at different values of pressure, abrasive flow ra
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Haghbin, Naser, Farbod Ahmadzadeh, Jan K. Spelt, and Marcello Papini. "Micro-Machining of Channels using a High Pressure Abrasive Slurry Jet Machine (HASJM)." In Proceedings of the 4M/ICOMM2015 Conference. Research Publishing Services, 2015. http://dx.doi.org/10.3850/978-981-09-4609-8_110.

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Henning, Axel, Peter Liu, and Carl Olsen. "Economic and Technical Efficiency of High Performance Abrasive Waterjet Cutting." In ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference. ASMEDC, 2010. http://dx.doi.org/10.1115/pvp2010-25789.

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Abrasive water jets have recently become a popular tool for mechanical machining. With its great advantages of geometric and material flexibility and its ability to cut hard-to-machine materials the technology is quickly spreading throughout many industries. With this near net-shape production becomes feasible, while significantly reducing the time necessary for secondary operations like programming, clamping, or tool changing. This allows a significant optimization of the overall manufacturing process chain. In this paper different approaches to increase the economic and technical efficiency
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Xia, Wu, De-an Zhao, Zhijin Li, and Bo Chen. "Intelligent Control System Design of the Abrasive Water-jet Cutting Machine Based on ARM9+ Mu C/OS." In 2010 Second International Workshop on Education Technology and Computer Science. IEEE, 2010. http://dx.doi.org/10.1109/etcs.2010.468.

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Gupta, T. V. K., Puneet Tandon, J. Ramkumar, and Nalinaksh S. Vyas. "Influence of Process Parameters on the Dimensions of the Channels Prepared Using Abrasive Water Jet Machining." In ASME 2013 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/imece2013-64063.

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Preparation of micro/macro channels using unconventional machining methods/processes on hard to machine materials is increasingly in demand in the micro machining industry. AWJM is one such process that can be used for the creation of these channels. Achieving the dimensional accuracy is a challenge because process is influenced by large set of process parameters and further in depth milling process, it is much more challenging than anticipated unlike in conventional machining process. The current research is an attempt to create a channel with varying operating parameters (abrasive size, flow
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Xia, Wu, De-an Zhao, Jinliang Guo, and Bo Chen. "Research on the Abrasive Water-Jet Cutting Machine Information Fusion Fault Diagnosis System Based on Fuzzy Neural Network." In 2010 International Conference on Biomedical Engineering and Computer Science (ICBECS). IEEE, 2010. http://dx.doi.org/10.1109/icbecs.2010.5462416.

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Abbas, Adel T., Mohamed Aly, and Karim Hamza. "Multiobjective Optimization Under Uncertainty in Advanced Abrasive Machining Processes via a Fuzzy-Evolutionary Approach." In ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/detc2015-46311.

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This paper considers multiobjective optimization under uncertainty (MOOUC) for the selection of optimal cutting conditions in advanced abrasive machining processes. Processes considered are water-jet machining, abrasive water-jet machining and ultra-sonic machining. Decisions regarding the cutting conditions can involve optimization for multiple competing goals; such as surface finish, machining time and power consumption. In practice, there is also an issue of variations in the ability to attain the performance goals. This can be due to limitations in machine accuracy or variations in materia
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Alsayyed, Basel, and Frederick O. Malm. "Waterjet Process Parameters Optimization." In ASME 2023 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/imece2023-115307.

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Abstract Abrasive Water Jet Machining (AWJM) is a non-conventional machining process widely used in modern manufacturing industries due to its versatile cutting capabilities. The optimal performance of AWJM depends on the appropriate selection of process input parameters, which include water pressure, abrasive mass flow rate, material thickness, and cutting feed. However, the impact of material thickness variation on the AWJM process has been overlooked in previous research studies. To address this research gap, this study aims to investigate the effect of material thickness variation on the p
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