Methods

Feedstock powders of 15–45 micron Grade 5 Ti-64 (Renishaw Plc) and Ag-999 powder (CooksonGold) were characterized using laser particle size analysis, ICP-OES, LECO-ONH, and morphological analysis in SEM. A blend of Ti-64 with 3 wt% Ag-999 powder (Ti-643) was produced by tumble blending, and validated by SEM and EDS. Parameters for manufacture were established using a 17 point design of experiment (DoE) exploring a 2D parameter space of applied laser power and laser scanning speed. Samples were manufactured using a ConceptLaser M2 LaserCusing SLM. Density was assessed by He pycnometry, and cross-sections analysed for defects by optical microscopy. Silver distribution was mapped by micro X-Ray Fluoroscopy (µXRF) and energy-dispersive X-ray spectroscopy (EDS). Optimum parameters were identified and used to manufacture all subsequent samples.

Cylindrical Ti-643 samples were manufactured for further physical characterization and bacterial investigation, alongside control Ti-64 samples manufactured using existing optimum parameters. Samples were polished using silicon carbide papers to a 4000-grit surface finish. Contact angle measurements were made by goniometry. Silver elution characteristics were assessed by immersion in water refreshed on a daily basis, and sampled over a 14 day period using ICP-OES. Viability of S. aureus was compared to control samples according to the Japanese standard test method, JIS Z 2801:2000.