Jetting Technology
British Hydromechanics Research Group Series (PEP)
September 2000
436 Pages, Hardcover
Wiley & Sons Ltd
ISBN:
978-1-86058-253-0
John Wiley & Sons
Including new applications, new developments and improved equipment, this text reflects the range of new industries adopting jetting techniques for production, environmental and recycling applications.
Part 1 Equipment I: an in-line concentration measurement device for abrasive suspension jet systems
Controlling of high-pressure abrasive water suspension jets
Development of micro-abrasive water-jets
Mixing head for abrasive-water-jet cutting with an annular driving jet.
Part 2 Demilitarization/decommissioning: cutting of hollow structures with abrasive water suspension jets
Application of a hand-controlled abrasive water-jet system for dismantling of metal components
Water and ice technology for removing explosives for unused ammunition
Cutting and washout of chemical weapons with high-pressure ammonia jets
Abrasive suspension jet cutting system for the ship repair industry.
Part 3 Civils I: evaluation of tests on water-jet equipment
Hydroemolition of concrete structures by robotic equipment - basic and field experience
Study of cutting quality and efficency in stone production.
Part 4 Manufacturing I: the application of water-jets in developing objects of art
Environmental system of AWJ after cut-process abrasive recycling
Optimization of abrasive-workpiece matching.
Part 5 Medical/health and safety: water-jet cutting in medical use - an overview.
Part 6 Surface preparation: numerical simulation of high-velocity pure water-jet impingement on coated material
Ice-based decontamination of sensitive surfaces.
Part 7 Equipment II: modelling of abrasive water-jet nozzle wear profiles
Reverse flow nozzle for generating natural cavitating or pulsed water-jet -basic study and application
Flow structures and erosive properties of rectangular cavitating jets
Preliminary investigations on the possibility of applying water-jets in tunnel excavation.
Part 8 Civils II: measurement of noise characteristics of hydro-jet cutting tools.
Part 9 Modelling: a lower limit for the feed rate in AWJ precision machining
Application of soft computing techniques for modelling and optimization of water-jet-based surface processing
Modelling of contour generation in abrasive water-jet cutting
Finite element modelling of abrasive water-jet machining (AWJM)
Study on the removal of brittle polymers with pure water-jets.
Part 10 Manufacturing II: AWJ parameters selection - A technical and economical evaluation
Observations on precision turning with AWJ
Micro-logistics of AWJ machining processes
A suspension water-jet system for commercial applications.
Part 11 Cleaning: a new abrasive jetting system for oil-well scale removal
The use of the water-jet technology for cleaning, cutting, wearing away and renovation of non-accessible pipes and sewers.
Controlling of high-pressure abrasive water suspension jets
Development of micro-abrasive water-jets
Mixing head for abrasive-water-jet cutting with an annular driving jet.
Part 2 Demilitarization/decommissioning: cutting of hollow structures with abrasive water suspension jets
Application of a hand-controlled abrasive water-jet system for dismantling of metal components
Water and ice technology for removing explosives for unused ammunition
Cutting and washout of chemical weapons with high-pressure ammonia jets
Abrasive suspension jet cutting system for the ship repair industry.
Part 3 Civils I: evaluation of tests on water-jet equipment
Hydroemolition of concrete structures by robotic equipment - basic and field experience
Study of cutting quality and efficency in stone production.
Part 4 Manufacturing I: the application of water-jets in developing objects of art
Environmental system of AWJ after cut-process abrasive recycling
Optimization of abrasive-workpiece matching.
Part 5 Medical/health and safety: water-jet cutting in medical use - an overview.
Part 6 Surface preparation: numerical simulation of high-velocity pure water-jet impingement on coated material
Ice-based decontamination of sensitive surfaces.
Part 7 Equipment II: modelling of abrasive water-jet nozzle wear profiles
Reverse flow nozzle for generating natural cavitating or pulsed water-jet -basic study and application
Flow structures and erosive properties of rectangular cavitating jets
Preliminary investigations on the possibility of applying water-jets in tunnel excavation.
Part 8 Civils II: measurement of noise characteristics of hydro-jet cutting tools.
Part 9 Modelling: a lower limit for the feed rate in AWJ precision machining
Application of soft computing techniques for modelling and optimization of water-jet-based surface processing
Modelling of contour generation in abrasive water-jet cutting
Finite element modelling of abrasive water-jet machining (AWJM)
Study on the removal of brittle polymers with pure water-jets.
Part 10 Manufacturing II: AWJ parameters selection - A technical and economical evaluation
Observations on precision turning with AWJ
Micro-logistics of AWJ machining processes
A suspension water-jet system for commercial applications.
Part 11 Cleaning: a new abrasive jetting system for oil-well scale removal
The use of the water-jet technology for cleaning, cutting, wearing away and renovation of non-accessible pipes and sewers.
R. Ciccu is the author of Jetting Technology, published by Wiley.