BACH, Friedrich Wilhelm;LOUIS, Hartmut ;VERSEMANN, Ralf ;SCHENK, Alexander . Characterization of a Pure Water-Jet Cleaning Process Process Simulation. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 52, n.7-8, p. 539-545, august 2017. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/article/characterization-of-a-pure-water-jet-cleaning-process-process-simulation/>. Date accessed: 25 apr. 2024. doi:http://dx.doi.org/.
Bach, F., Louis, H., Versemann, R., & Schenk, A. (2006). Characterization of a Pure Water-Jet Cleaning Process Process Simulation. Strojniški vestnik - Journal of Mechanical Engineering, 52(7-8), 539-545. doi:http://dx.doi.org/
@article{.,
author = {Friedrich Wilhelm Bach and Hartmut Louis and Ralf Versemann and Alexander Schenk},
title = {Characterization of a Pure Water-Jet Cleaning Process Process Simulation},
journal = {Strojniški vestnik - Journal of Mechanical Engineering},
volume = {52},
number = {7-8},
year = {2006},
keywords = {cleaning; de-coating; water-jet; models; simulations; },
abstract = {Water-jet cleaning is a widely used technology for decoating surfaces. Its applications range from rough ship-wall cleaning jobs to the surface processing of turbine parts as part of maintenance operations. However, the jetting task layout and planning is very dependent on the particular users skill and often requires preliminary tests in order to ensure a reliable and reproducible surface condition. The presented work describes procedures, techniques and tools for dealing with this problem and introduces an integrated tool and decoating process model. This environment enables the user to design and simulate a complete cleaning task, including tool behaviour and surface reaction and thereby to determine the optimum parameters and machine setups before even switching on the pump for the first time. To put the simulation on solid ground, it is based on a special standardized experiment to normalize the nozzle behaviour and the materials response. Another application of the package is the design and optimisation of the jetting tool itself, e.g., the geometrical arrangement of its nozzles to ensure a homogenous surface load. This can drastically reduce the costs as well as the time-to-market of a new water-jet cleaning device.},
issn = {0039-2480}, pages = {539-545}, doi = {},
url = {https://www.sv-jme.eu/article/characterization-of-a-pure-water-jet-cleaning-process-process-simulation/}
}
Bach, F.,Louis, H.,Versemann, R.,Schenk, A. 2006 August 52. Characterization of a Pure Water-Jet Cleaning Process Process Simulation. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 52:7-8
%A Bach, Friedrich Wilhelm %A Louis, Hartmut %A Versemann, Ralf %A Schenk, Alexander %D 2006 %T Characterization of a Pure Water-Jet Cleaning Process Process Simulation %B 2006 %9 cleaning; de-coating; water-jet; models; simulations; %! Characterization of a Pure Water-Jet Cleaning Process Process Simulation %K cleaning; de-coating; water-jet; models; simulations; %X Water-jet cleaning is a widely used technology for decoating surfaces. Its applications range from rough ship-wall cleaning jobs to the surface processing of turbine parts as part of maintenance operations. However, the jetting task layout and planning is very dependent on the particular users skill and often requires preliminary tests in order to ensure a reliable and reproducible surface condition. The presented work describes procedures, techniques and tools for dealing with this problem and introduces an integrated tool and decoating process model. This environment enables the user to design and simulate a complete cleaning task, including tool behaviour and surface reaction and thereby to determine the optimum parameters and machine setups before even switching on the pump for the first time. To put the simulation on solid ground, it is based on a special standardized experiment to normalize the nozzle behaviour and the materials response. Another application of the package is the design and optimisation of the jetting tool itself, e.g., the geometrical arrangement of its nozzles to ensure a homogenous surface load. This can drastically reduce the costs as well as the time-to-market of a new water-jet cleaning device. %U https://www.sv-jme.eu/article/characterization-of-a-pure-water-jet-cleaning-process-process-simulation/ %0 Journal Article %R %& 539 %P 7 %J Strojniški vestnik - Journal of Mechanical Engineering %V 52 %N 7-8 %@ 0039-2480 %8 2017-08-18 %7 2017-08-18
Bach, Friedrich, Hartmut Louis, Ralf Versemann, & Alexander Schenk. "Characterization of a Pure Water-Jet Cleaning Process Process Simulation." Strojniški vestnik - Journal of Mechanical Engineering [Online], 52.7-8 (2006): 539-545. Web. 25 Apr. 2024
TY - JOUR AU - Bach, Friedrich Wilhelm AU - Louis, Hartmut AU - Versemann, Ralf AU - Schenk, Alexander PY - 2006 TI - Characterization of a Pure Water-Jet Cleaning Process Process Simulation JF - Strojniški vestnik - Journal of Mechanical Engineering DO - KW - cleaning; de-coating; water-jet; models; simulations; N2 - Water-jet cleaning is a widely used technology for decoating surfaces. Its applications range from rough ship-wall cleaning jobs to the surface processing of turbine parts as part of maintenance operations. However, the jetting task layout and planning is very dependent on the particular users skill and often requires preliminary tests in order to ensure a reliable and reproducible surface condition. The presented work describes procedures, techniques and tools for dealing with this problem and introduces an integrated tool and decoating process model. This environment enables the user to design and simulate a complete cleaning task, including tool behaviour and surface reaction and thereby to determine the optimum parameters and machine setups before even switching on the pump for the first time. To put the simulation on solid ground, it is based on a special standardized experiment to normalize the nozzle behaviour and the materials response. Another application of the package is the design and optimisation of the jetting tool itself, e.g., the geometrical arrangement of its nozzles to ensure a homogenous surface load. This can drastically reduce the costs as well as the time-to-market of a new water-jet cleaning device. UR - https://www.sv-jme.eu/article/characterization-of-a-pure-water-jet-cleaning-process-process-simulation/
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author = {Bach, F., Louis, H., Versemann, R., Schenk, A.},
title = {Characterization of a Pure Water-Jet Cleaning Process Process Simulation},
journal = {Strojniški vestnik - Journal of Mechanical Engineering},
volume = {52},
number = {7-8},
year = {2006},
doi = {},
url = {https://www.sv-jme.eu/article/characterization-of-a-pure-water-jet-cleaning-process-process-simulation/}
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TY - JOUR AU - Bach, Friedrich Wilhelm AU - Louis, Hartmut AU - Versemann, Ralf AU - Schenk, Alexander PY - 2017/08/18 TI - Characterization of a Pure Water-Jet Cleaning Process Process Simulation JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 52, No 7-8 (2006): Strojniški vestnik - Journal of Mechanical Engineering DO - KW - cleaning, de-coating, water-jet, models, simulations, N2 - Water-jet cleaning is a widely used technology for decoating surfaces. Its applications range from rough ship-wall cleaning jobs to the surface processing of turbine parts as part of maintenance operations. However, the jetting task layout and planning is very dependent on the particular users skill and often requires preliminary tests in order to ensure a reliable and reproducible surface condition. The presented work describes procedures, techniques and tools for dealing with this problem and introduces an integrated tool and decoating process model. This environment enables the user to design and simulate a complete cleaning task, including tool behaviour and surface reaction and thereby to determine the optimum parameters and machine setups before even switching on the pump for the first time. To put the simulation on solid ground, it is based on a special standardized experiment to normalize the nozzle behaviour and the materials response. Another application of the package is the design and optimisation of the jetting tool itself, e.g., the geometrical arrangement of its nozzles to ensure a homogenous surface load. This can drastically reduce the costs as well as the time-to-market of a new water-jet cleaning device. UR - https://www.sv-jme.eu/article/characterization-of-a-pure-water-jet-cleaning-process-process-simulation/
Bach, Friedrich, Louis, Hartmut, Versemann, Ralf, AND Schenk, Alexander. "Characterization of a Pure Water-Jet Cleaning Process Process Simulation" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 52 Number 7-8 (18 August 2017)
Strojniški vestnik - Journal of Mechanical Engineering 52(2006)7-8, 539-545
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
Water-jet cleaning is a widely used technology for decoating surfaces. Its applications range from rough ship-wall cleaning jobs to the surface processing of turbine parts as part of maintenance operations. However, the jetting task layout and planning is very dependent on the particular users skill and often requires preliminary tests in order to ensure a reliable and reproducible surface condition. The presented work describes procedures, techniques and tools for dealing with this problem and introduces an integrated tool and decoating process model. This environment enables the user to design and simulate a complete cleaning task, including tool behaviour and surface reaction and thereby to determine the optimum parameters and machine setups before even switching on the pump for the first time. To put the simulation on solid ground, it is based on a special standardized experiment to normalize the nozzle behaviour and the materials response. Another application of the package is the design and optimisation of the jetting tool itself, e.g., the geometrical arrangement of its nozzles to ensure a homogenous surface load. This can drastically reduce the costs as well as the time-to-market of a new water-jet cleaning device.