Results 241 to 250 of about 25,210 (289)
Recent Advances in Precision Diamond Wheel Dicing Technology. [PDF]
Micromachines (Basel)Chen F +7 more
europepmc +1 more source
Study on Nano-Grinding Characteristics and Formation Mechanism of Subsurface Damage in Monocrystalline Silicon. [PDF]
Micromachines (Basel)Yan H, Zhang H, Cao S, Wang C.
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Influence of the three-body abrasion kinematics on the surface characteristics of an SLS-fabricated tool during machining of ceramics. [PDF]
Sci RepAgebo SW, Zieliński D, Deja M.
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ICALEO '97: Proceedings of the Laser Materials Processing Conference, 1997
This paper describes basic phenomena and the characteristics of a new laser machining process - abrasive laser machining (ALM) in which a high speed abrasive particle jet is used to brake up and remove the molten material in the laser generated meltpool. The effects of machining conditions, such as abrasive material, particle injection angle, workpiece
L. Li +3 more
openaire +1 more source
This paper describes basic phenomena and the characteristics of a new laser machining process - abrasive laser machining (ALM) in which a high speed abrasive particle jet is used to brake up and remove the molten material in the laser generated meltpool. The effects of machining conditions, such as abrasive material, particle injection angle, workpiece
L. Li +3 more
openaire +1 more source
2010
Impact abrasive machining is a broad class of manufacturing processes that include surface cleaning, descaling, deburring, sand-blasting, shot-peening, abrasive water or air jet micromachining, and abrasive waterjet (AWJ) cutting, milling, turning, and drilling. Starting from the basic principles of fluid and solid mechanics, this chapter describes the
Yasser M. Ali, Jun Wang
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Impact abrasive machining is a broad class of manufacturing processes that include surface cleaning, descaling, deburring, sand-blasting, shot-peening, abrasive water or air jet micromachining, and abrasive waterjet (AWJ) cutting, milling, turning, and drilling. Starting from the basic principles of fluid and solid mechanics, this chapter describes the
Yasser M. Ali, Jun Wang
openaire +1 more source
2016
The chapter presents some elements related to Abrasive Flow Machining (AFM), specifically state of the art, elements of technological system, and construction of equipment as well as experimental results. The technological system comprises machine, tooling, working media, carrier, abrasive grains. This equipment could be the base for further researches
N. Ionescu +3 more
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The chapter presents some elements related to Abrasive Flow Machining (AFM), specifically state of the art, elements of technological system, and construction of equipment as well as experimental results. The technological system comprises machine, tooling, working media, carrier, abrasive grains. This equipment could be the base for further researches
N. Ionescu +3 more
openaire +1 more source
1989
Abstract Abrasive jet machining (AJM) is a process that removes material from a workpiece through the use of abrasive particles entrained in a high-velocity gas stream. This article discusses the operation of principal components, advantages, and disadvantages of the AJM system.
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Abstract Abrasive jet machining (AJM) is a process that removes material from a workpiece through the use of abrasive particles entrained in a high-velocity gas stream. This article discusses the operation of principal components, advantages, and disadvantages of the AJM system.
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PC Controlled Toothbrush/Dentifrice Abrasion Machine
Journal of Medical Systems, 1999A toothbrush/dentifrice abrasion machine was developed to use in dental research laboratory. The mechanism was designed as a hexagonal block driven by two stepping motors which move the mechanism in four directions. In order to control the stepping motors speed, position and direction commands or signals were generated by a software written in C ...
Bekiroǧlu, Erdal +2 more
openaire +3 more sources
1989
Abstract Abrasive flow machining (AFM) finishes surfaces and edges by extruding viscous abrasive media through or across the workpiece. This article commences with a schematic illustration of the AFM process that uses two opposed cylinders to extrude semisolid abrasive media back and forth through the passages formed by the workpiece and
Lawrence J. Rhoades, Hilary A. Clouser
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Abstract Abrasive flow machining (AFM) finishes surfaces and edges by extruding viscous abrasive media through or across the workpiece. This article commences with a schematic illustration of the AFM process that uses two opposed cylinders to extrude semisolid abrasive media back and forth through the passages formed by the workpiece and
Lawrence J. Rhoades, Hilary A. Clouser
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CIRP Annals, 1990
Monocrystalline silicon is presently the most commonly used substrate material for the production of microelectronic components (microchips) worldwide. The machining of this material is critical to high quality standards. Abrasive processes such as ID cut-off grinding, surface grinding, lapping, polishing and dicing are applied to monocrystalline ...
H.K. Tönshoff +4 more
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Monocrystalline silicon is presently the most commonly used substrate material for the production of microelectronic components (microchips) worldwide. The machining of this material is critical to high quality standards. Abrasive processes such as ID cut-off grinding, surface grinding, lapping, polishing and dicing are applied to monocrystalline ...
H.K. Tönshoff +4 more
openaire +1 more source