Details

Title

Roughness Parameters Calculation By Means Of On-Line Vibration Monitoring Emerging From AWJ Interaction With Material

Journal title

Metrology and Measurement Systems

Yearbook

2015

Volume

vol. 22

Issue

No 2

Authors

Keywords

abrasive water jet ; surface topography ; material vibration ; vibration measurement

Divisions of PAS

Nauki Techniczne

Coverage

315-326

Publisher

Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Type

Artykuły / Articles

Identifier

DOI: 10.1515/mms-2015-0024 ; ISSN 2080-9050, e-ISSN 2300-1941

Source

Metrology and Measurement Systems; 2015; vol. 22; No 2; 315-326

References

Hreha (2015), Determination of vibration frequency depending on abrasive mass flow rate during abrasive water jet cutting The Inter of Advan Manufact, Tech, 77. ; Babu (2002), Studies on recharging of abrasives in abrasive water jet machining The Inter of Advan Manufact, Tech, 19, 697. ; Boud (2010), Abrasive waterjet cutting of a titanium alloy : The influence of abrasive morphology and mechanical properties on workpiece grit embedment and cut quality of Mater, Proce Tech, 210. ; Tonshoff (2000), Using acoustic emission signals for monitoring of production processes, Ultrasonics, 37. ; Perzel (2011), Vibration emission as a potential source of information for abrasive waterjet quality process control The Intern of Advan Manufact, Tech, 61, 1. ; Brezina (1991), Surface roughness , importance of roughness quantify metrology aspects development trends of Fine Mech, Opt, 7, 245. ; Asraf (2004), On - line monitoring of depth of cut in AWJ cutting of Machine Tools and Manufact, Intern, 44, 595. ; Vikram (2002), Modelling and analysis of abrasive water jet cut surface topography of Machine Tools and Manufact, Intern, 42, 1345. ; Monno (2005), The effect of cutting head vibrations on the surfaces generated by waterjet cutting of Mach Tools and Manufact, Intern, 45, 355. ; Azmir (2008), Investigation on glass / epoxy composite surfaces machined by abrasive water jet machining of Mater, Proc Tech, 198. ; Fowler (2009), The effect of particle hardness and shape when abrasive water jet milling titanium alloy Ti, Wear, 6, 266. ; Kong (2010), Aspects of material removal mechanism in plain waterjet milling on gamma titanium aluminide of Mater, Proc Tech, 210. ; He (2014), Automatic calibration system for digital display vibrometers based on machine vision, Metrol Meas Syst, 21, 317, doi.org/10.2478/mms-2014-0027 ; Bitter (1963), A study of erosion phenomena Part I, Wear, 6, 5, doi.org/10.1016/0043-1648(63)90003-6 ; Ravishankar (2000), Application of acoustic emission in drilling of composite laminates, International, 33, 101. ; Hashish (1991), Optimization factors in abrasive waterjet machining of Engineering for Industry - Transactions of the ASME, Journal, 113. ; Foldyna (2009), Effects of pulsating water jet impact on aluminium surface of Materials Processing Technology, Journal, 209. ; Sharma (2011), Multi response optimization of process parameters based on Taguchi - Fuzzy model for coal cutting by water jet technology The Inter of Adv Manufact, Tech, 56, 9. ; Arola (1997), Material removal in abrasive waterjet machining of metals surface integrity and texture, Wear, 210. ; Momber (1999), On - line analysis of hydro - abrasive erosion of precracked materials by acoustic emission Theoretical and Applied Fracture, Mechanics, 17, 1.
×