Table 2.
Materials and AM technologies selected for the porous implant design
| Study | Material | Selected AM technology |
|---|---|---|
| [30] | Titanium (alloy) | SLM |
| [25] | Titanium (alloy) | SLM |
| [56] | Titanium (alloy) | SLM |
| [58] | Titanium (alloy) | SLM |
| [69] | Titanium (alloy) | SLM |
| [51] | Titanium (alloy) | SLM |
| [59] | Titanium (alloy) | SLM |
| [60] | Titanium (alloy) | SLM |
| [52, 53] | Titanium (alloy) | SLM |
| [61] | Titanium (alloy) | SLM |
| [34] | Titanium (alloy) | SLM |
| [38] | Titanium (alloy) | SLM |
| [41] | Titanium (alloy) | SLM |
| [63] | Titanium (alloy) | SLM |
| [99] | Cobalt-chrome | SLM |
| [15] | Cobalt-chrome | SLM |
| [57] | Titanium (alloy) | EBM |
| [81] | Titanium (alloy) | EBM |
| [40] | Titanium (alloy) | EBM |
| [36, 37] | Titanium (alloy) | EBM |
| [31] | Titanium (alloy) | DMP |
| [26, 42] | Titanium (alloy) | DMLS |
| [14, 27] | Titanium (alloy) | DMLS |
| [33] | Stainless steel | DMLS |
| [29] | Cobalt-chrome | DMLS |
| [48] | Titanium (alloy), stainless steel, functionally graded material (FGM)—titanium, stainless steel | – |
| [84] | Titanium (alloy) | – |
| [43] | Titanium (alloy) | – |
| [47] | Titanium (alloy) | – |
| [39] | Titanium (alloy) | – |
| [44] | Titanium (alloy) | – |
| [50] | Titanium (alloy) | – |
| [64] | Titanium (alloy) | – |
| [49] | Titanium (alloy) | – |
| [67] | Titanium (alloy) | – |
| [46] | Titanium (alloy) | – |
| [55] | Titanium (alloy) | – |
| [28] | Titanium (alloy) | – |
| [65] | Titanium (alloy) | – |
| [62] | Titanium (alloy) | – |
| [45] | Titanium (alloy) | – |
| [66] | Titanium (alloy) | – |
| [35] | Titanium (alloy) | – |
| [68] | Titanium (alloy) | – |
| [54] | Functionally graded material (FGM)—titanium, alumina ceramic | – |
| [70] | Functionally graded material (FGM)—titanium, alumina ceramic | – |