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.
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.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
R. Ciccu is the author of Jetting Technology, published by Wiley.
Inhaltsangabe
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.
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.
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Internetauftritt der buecher.de internetstores GmbH
Geschäftsführung: Monica Sawhney | Roland Kölbl | Günter Hilger
Sitz der Gesellschaft: Batheyer Straße 115 - 117, 58099 Hagen
Postanschrift: Bürgermeister-Wegele-Str. 12, 86167 Augsburg
Amtsgericht Hagen HRB 13257
Steuernummer: 321/5800/1497
USt-IdNr: DE450055826
