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The process of the abrasive water jet cutting of materials, supported by the   theories of fluid mechanics, abrasive wear and damage mechanics, is a   high-tech technologies that provides unique capabilities compared to   conventional machining processes. This paper, along the theoretical   derivations, provides original contributions in the form of mathematical   models of the quantity of the cut surface damage, expressed by the values of   cut surface roughness. The particular part of this paper deal with the   results of the original experimental research. The research aim was connected   with the demands of industry, i.e. the end user. Having in mind that the   conventional machining processes are not only lagging behind in terms of   quality of cut, or even some requests are not able to meet, but with the   advent of composite materials were not able to machine them, because they   occurred unacceptable damage (mechanical damage or delamination, fiber   pull-out, burning, frayed edges)

Process parameters effect on material removal mechanism and cut quality of abrasive water jet machining