バイオテクノロジーとバイオマテリアル

抽象的な

Wear Corrosion And Biocompatibility Effect Of 316L Stainless Steel For Biomedical Applications: A Review

Dileep Pathote1* Dheeraj Jaiswal2, Vikrant Singh3, C.K Behera4

Austenitic stainless steel like 316L is well known for its specific properties as resistance to corrosion, compatibility as biomaterials, and minimum wear loss tendency. As a biomaterial with properties, it doesn't elicit an adverse response while placed in the service. The combination of synergistic mechanical (wear) and chemical (Corrosion) is termed as corrosion wear mechanism. The removal of the passive layer during the sliding contact results in wear or when the galvanic attacks of subtracting results in blistering of coating, say corrosion. The entire spectrum of local and systematic findings related to metal implants is incorporated concerning an adverse reaction to metal debris. 316L stainless steel implant in a human body is enormously restoring successfully, gratification, and mobility to a mass of individuals every year. This review article analyzed in detail with reference to the possible corrosion and wore effect of 316L stainless steel on biocompatibility.