Waterjet machining has attracted great attention in the conditions of hard-to-machine
materials, microstructures, or complicated industrial components, and it has become well …

A long time ago, nature proved that even the hardest engineering materials change their
shape and form when water is applied to them. The new shape formed by this phenomenon …

Recent breakthroughs in component downsizing and miniaturization emphasise the
requirement for deep-hole drilling with an increased aspect ratio, especially in the …

The main innovation of this article is the determination of the impact of curvature of a shape
cut out in a brittle material using an abrasive water jet (AWJ) process as an important factor …

Abrasive waterjet machining is applied in various industries for contour cutting of heat-
sensitive and difficult-to-cut materials like austenitic stainless steel 304L, with the goal of …

An experimental study of the abrasive water jet cutting process of Inconel 718 alloy samples
with varying values of cutting speed, abrasive flow rate and cutting material height was …

The use of magnesium alloys in various industries and commerce is increasing due to their
properties such as high strength and casting properties, high vibration damping capability …

The paper concerns the application a high-pressure abrasive waterjet (AWJ) for cutting the
most commonly used rock materials such as granite, limestone, basalt and marble. Based …

The present study attempts to analyze the impact of abrasive water jet machining (AWJM)
process parameters on surface roughness and kerf taper properties of hardened AISI 440C …

Controlled depth abrasive waterjet machining (AWJM) is an unconventional and promising
process for materials introducing challenges in conventional machining for high value …