Abstract
The joining of dissimilar materials in a hybrid structure is a line of research of great interest at present. Nevertheless, the machining of materials with different machinability requires specific processes capable of minimizing defectology in both materials and achieving a correct surface finish in terms of functional performance. In this article, abrasive water jet machining of a hybrid carbon fiber-reinforced thermoplastics (CFRTP)/Steel structure and the generated surface finish are studied. A parametric study in two stacking configurations (CFRTP/Steel and Steel/CFRTP) has been established in order to determine the range of cutting parameters that generates the lowest values in terms of arithmetic mean roughness (Ra) and maximum profile height (Rz). The percentage contribution of each cutting parameter has been identified through an ANOVA analysis for each material and stacking configuration. A combination of 420 MPa hydraulic pressure with an abrasive mass flow of 385 g/min and a travel speed of 50 mm/min offers the lowest Ra and Rz values in the CFRTP/Steel configuration. The stacking order is a determining factor, obtaining a better surface quality in a CFRTP/Steel stack. Finally, a series of contour diagrams relating surface quality to machining conditions have been obtained.
Highlights
Carbon fiber-reinforced thermoplastics (CFRTP) composites have an excellent weight-to-mechanical property ratio and high impact and corrosion resistance [1]
We show the results obtained in the first CFRTP/speed and the first material (Steel) configuration in order to determine the influence of the cutting parameters
Surface quality in machining processes is a key parameter in terms of functional performance
Summary
Carbon fiber-reinforced thermoplastics (CFRTP) composites have an excellent weight-to-mechanical property ratio and high impact and corrosion resistance [1]. These are very interesting materials due to their ability to be remolded after curing, adopting new geometries and being of great interest for mass production [2]. The shaping of this matrix together with carbon fibers results in a flexible compound that can be adapted to various uses [4]
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