Details

Title

Technique for spatial objects shaping with abrasive-water jet controlled by virtual image luminance

Journal title

Archive of Mechanical Engineering

Yearbook

2010

Volume

vol. 57

Issue

No 3

Authors

Keywords

abrasive water jet ; bas-relief shaping

Divisions of PAS

Nauki Techniczne

Coverage

247-261

Publisher

Polish Academy of Sciences, Committee on Machine Building

Date

2010.10.29

Type

Artykuły / Articles

Identifier

DOI: 10.2478/v10180-010-0013-z ; ISSN 0004-0738, e-ISSN 2300-1895

Source

Archive of Mechanical Engineering; 2010; vol. 57; No 3; 247-261

References

Borkowski P. (2004), Theoretical and experimental basis of hydro-jet surface treatment. ; Borkowski P. (2008), Creation of bas-relief basing on photography using high-pressure abrasivewater jet, Journal of Machine Engineering, 8, 2, 43. ; Borkowski P. (2008), Hydro-jetting shaping of bas-relief, Journal of Machine Engineering, 13, 1-2, 81. ; Borkowski P.: Hydrojetting method of bas-relief shaping. Advances in Manufacturing Science and Technology. (under review) ACME Ref. No.: 146, 2010. ; Borkowski P. (2006), Basis of three dimensional material forming using high-pressure abrasive-water jet controlled by virtual image luminance, Advances in Manufacturing Science and Technology, 30, 1, 53. ; Hashish M. (1991), Optimization factors in abrasive-waterjet machining, Trans. ASME, Journal of Engineering for Industry, 113, 1, 29. ; Hashish M. (1987), Turning with abrasive-waterjets-a first investigation, Trans. ASME, Journal of Engineering for Industry, 109, 281, doi.org/10.1115/1.3187130 ; Hashish M. (1989), An investigation of milling with abrasive-waterjets, Trans. ASME, Journal of Engineering for Industry, 111, 2, 158, doi.org/10.1115/1.3188745 ; Yong Z. (1997), Modeling of jetflow drilling with consideration of the chaotic erosion histories of particles, Wear, 209, 284, doi.org/10.1016/S0043-1648(97)00032-X ; Borkowski P. (2009), Abrasive-water jet shaping of bas-relief, null. ; Borkowski P. (2006), Three dimensional method of material forming using high-pressure abrasive-water jet controlled by flat image luminance, null, 265. ; Chung Y. (1992), Prediction of the geometry of the kerf created in the course of abrasive waterjet machining of ductile materials, null, 525. ; Fenggang L. (1996), Feasibility study of abrasive waterjet polishing, null, 709. ; Groppetti R. (1998), A Contribution to the analysis of some kerf quality attributes for precision abrasive water jet cutting, null, 253. ; Hashish M. (1984), On the modeling of abrasive-waterjet cutting, null, 249. ; Henning A. (2000), Modelling of contour generation in abrasive waterjet cutting, null, 309. ; Lauand V. (2008), Glass and marble (Cachoeiro de Itapemirim) milling with abrasive water jetting, null, 121. ; Laurinat A. (1993), A model for milling with abrasive water jets, null, 119. ; Momber A. (1995), A generalized abrasive water jet model, null, 359. ; Tan D. (1986), A model for the surface finish in abrasive-waterjet cutting, null, 309. ; Yong Z. (1997), 3D simulation of macro and micro characteristics for AWJ machining, null, 133. ; Zeng J. (1992), Development of an abrasive waterjet kerf cutting model for brittle materials, null, 483. ; Zeng J. (1993), Parameter prediction and cost analysis in abrasive waterjet cutting operations, null, 175. ; Zhang S. (2007), Use of pre-profiling a milled pocket as a means of improving machining and lowering energy costs, null. ; Zhang S. (2004), Experimental investigation of rectangular pocket milling with abrasive water jet using specially designed tool, null, 435.
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