Mechanical properties of hyaline and repair cartilage studied by nanoindentation

## Abstract Nanoindentation has recently emerged to be the primary method to study the mechanical behavior and reliability of human enamel. Its hardness and elastic modulus were generally reported as average values with standard deviations that were calculated from the results of multiple nanoinden

Despite extensive research in the design of biomaterials for articular cartilage repair, there remains a need for the development of materials with the mechanical compliance to function synergistically with healthy cartilage, but porous enough to allow for tissue integration. In this study, superpor

## Abstract Nanoindentation was used to characterize the intrinsic mechanical properties of bone tissue from eight (8) children with type III Osteogenesis Imperfecta (OI). The bone samples were harvested from the cortex portion at the site of bowing (the mid 2/3 of the shaft of the tibia/femur). Un

A plasma-polymerized tetravinylsilane film of about 1 μm thickness was prepared under steady-state deposition conditions on polished silicon wafer using plasma-enhanced chemical vapor deposition. Nearsurface mechanical properties such as the reduced modulus and hardness of the plasma polymer film we

## Abstract The effects of two key experimental parameters on the measured nanomechanical properties of lamellar and interlamellar tissue were examined in dehydrated rabbit cancellous bone. An anhydrous sample preparation protocol was developed to maintain surface integrity and produce RMS surface