The effect of SMAT-induced grain refinement and dislocations on the corrosion behavior of Ti–25Nb–3Mo–3Zr–2Sn alloy

“…Osteosynthesis plates also suffer from failure, caused by fatigue fractures, usually initiated at the surface. Fatigue strength and bending strength of materials can be enhanced after shot-peening and SMAT treatment as confirmed by previous publications Starker et al, 1991, Bauer M et al, 2013, Huang and Han, 2013Torres and Voorwald, 2002). Our data showed a significant mechanical strength improvement of Indonesian-made osteosynthesis plates upon surface modifications.…”

“…SMAT also results in better refinement of nanostructured surface layer due to the utilization of bigger and spherical smooth balls with lower velocity compared to shot peening as reviewed by Lu et al (Lu and Lu, 2004). Study by Huang R et al showed that SMAT can help the formation of more stable and much thicker passive protection films on the nanograined structure (Huang and Han, 2013). In addition, SMAT-treatment can enhance subsurface hardness and improve surface morphology, roughness, and wettability that might not be achieved by conventional surface treatments such as shot peening (Lu and Lu, 2004;Arifvianto et al, 2011).…”

Redesign of Indonesian-made osteosynthesis plates to enhance their mechanical behavior

“…Osteosynthesis plates also suffer from failure, caused by fatigue fractures, usually initiated at the surface. Fatigue strength and bending strength of materials can be enhanced after shot-peening and SMAT treatment as confirmed by previous publications Starker et al, 1991, Bauer M et al, 2013, Huang and Han, 2013Torres and Voorwald, 2002). Our data showed a significant mechanical strength improvement of Indonesian-made osteosynthesis plates upon surface modifications.…”

“…SMAT also results in better refinement of nanostructured surface layer due to the utilization of bigger and spherical smooth balls with lower velocity compared to shot peening as reviewed by Lu et al (Lu and Lu, 2004). Study by Huang R et al showed that SMAT can help the formation of more stable and much thicker passive protection films on the nanograined structure (Huang and Han, 2013). In addition, SMAT-treatment can enhance subsurface hardness and improve surface morphology, roughness, and wettability that might not be achieved by conventional surface treatments such as shot peening (Lu and Lu, 2004;Arifvianto et al, 2011).…”

Redesign of Indonesian-made osteosynthesis plates to enhance their mechanical behavior

“…Specifically, gradient microstructures generated through surface mechanical attrition treatments or SMAT have additional benefits over other hierarchical microstructures from a surface science/tribological standpoint by concentrating the nanocrystalline properties in the surface region. For instance, nanostructured surface layers have shown improved corrosion resistance [6][7][8][9], wear [10,11] and fatigue [12][13][14], and irradiation resistance [15].…”

Mechanical Behavior of Ultrafine Gradient Grain Structures Produced via Ambient and Cryogenic Surface Mechanical Attrition Treatment in Iron

“…[1][2][3][4] However, the low hardness values and poor wear resistance have seriously restricted its applications in some engineering fields. [5,6] It is well known that wear fatigue originates from the titanium surface, but the service life of the titanium plate can be improved by hardening the surface.…”

Influence of Ultrafine‐Grained Layer on Gaseous Nitriding of Large‐Sized Titanium Plate