Herein, an extensive review of the design of titanium alloys with low elastic modulus as
implant materials is provided. Due to the high specific strength, low elastic modulus, fatigue …

Developing the new titanium alloys with excellent biomechanical compatibility has been an
important research direction of surgical implants materials. Present paper summarizes the …

Metallic biomaterials constitute approximately 70%-80% of all implant materials, and thus
represent a very important class of biomaterials. Among the various metallic biomaterials …

Biomedical titanium alloy materials have become the main raw materials for orthopedic,
dental and cardiovascular implants or devices, but their biological and mechanical …

The design of new low-cost Ti-alloys with high biocompatibility for implant applications,
using ubiquitous alloying elements in order to establish the strategic method for suppressing …

Titanium and its alloys are the most suitable materials for structural biomaterials among
metallic biomaterials. Nowadays, Pure Ti and Ti-6Al-4V ELI are the most widely used in the …

β‐type titanium alloys with low Young′ s modulus are required to inhibit bone atrophy and
enhance bone remodeling for implants used to substitute failed hard tissue. At the same …

The low Young's modulus of β-type titanium alloys makes them advantageous for use in
medical implant devices, as they are effective in both preventing bone resorption and …

Pure titanium and α+ β type Ti–6Al–4V ELI alloys are currently used widely as structural
biomaterials for instruments for replacing failed hard tissues such as artificial hip joints …

One of the most important development directions of the Ti and its alloys is the applications
in medical field. Development of new Ti alloys with low elastic modulus and/or favorable …