Influence of Cutting Parameters to Surface Area Roughness in Dimple Machining Using Milling Process

Abstract: Surface quality is among the predominant criterion in measuring machining process performance, including milling. It is extremely dependent on the process variable, such as cutting parameters and cutting tool conditions. The main intention of this research work is to study the effect of the milling machining parameters, including depth of cut, spindle speed, feed rate as well as machining pattern to the final surface area roughness of the fabricated dimple structure. The concave profile of the dimple is machin… Show more

“…In tribological applications, micro-cavities such as dimples, grooves, and scratches enhance the tribological performance, particularly in reducing wear and friction on the tribo-contact pairs. The micro-cavities are fabricated on the targeted sliding surface to serve as a lubricant reservoir and minimize the contact area between sliding contact pairs [8].…”

An Experimental Investigation of Dimple-Texturing on the Tribological Performance of Hardened AISI H-13 Steel

“…In tribological applications, micro-cavities such as dimples, grooves, and scratches enhance the tribological performance, particularly in reducing wear and friction on the tribo-contact pairs. The micro-cavities are fabricated on the targeted sliding surface to serve as a lubricant reservoir and minimize the contact area between sliding contact pairs [8].…”

An Experimental Investigation of Dimple-Texturing on the Tribological Performance of Hardened AISI H-13 Steel