Search
Search Results
-
Surface Modification Aspects for Improving Biomedical Properties in Implants: A Review
The primary focus during surgery is to ensure successful implantation by achieving long-term and stable fixation of implants. Orthopaedic surgery is...
-
A review of carbon-based materials and their coating techniques for biomedical implants applications
Carbon-based materials have emerged as an excellent class of biomedical materials due to their exceptional mechanical properties, lower surface...
-
Characterization of powder metallurgy processed magnesium alloys for biomedical implants
Magnesium (Mg) and its alloys, with their mechanical behavior, biodegradable material with unique antibacterial features, and nontoxicity, find...
-
SLM Additive Manufacturing of NiTi Porous Implants: A Review of Constitutive Models, Finite Element Simulations, Manufacturing, Heat Treatment, Mechanical, and Biomedical Studies
Nitinol shape memory alloy is a biocompatible material that is suitable for biomedical applications due to its superelasticity, shape memory effect,...
-
Additive Manufacturing Technologies for Biomedical Implants Using Functional Biocomposites
The tremendous development of Additive Manufacturing (AM) made significant progress in biomedical and tissue engineering applications. AM has a smart... -
Additive Manufacturing of Composites for Biomedical Implants
Additive manufacturing (or 3D printing) has been widely used in a variety of industries, including medical implantation. By utilizing digital... -
Metal Oxide Nanostructure for Biomedical Applications
Metal oxide-based nanostructures (MO–NSs) have gained consequential attention as suitable materials for application in various biomedical fields.... -
Cleaning and coating procedures determine biological properties of gyroid porous titanium implants
Cleaning and coating processes as well as biocompatibility of gyroid commercially pure titanium (Cp-Ti) biomedical implants using the laser powder...
-
Taguchi-Based Experimental Investigation and Modeling of 3D-Printed PEEK Parts as Biomedical Implants using Fused Deposition Modeling for Improving Mechanical Strength and Surface Quality
Three-dimensional (3D) printing is a form of additive manufacturing that employs digital model data to build real objects by layering on materials....
-
The Progress in Tribocorrosion Research (2010–21): Focused on the Orthopedics and Dental Implants
Tribocorrosion is an integration of two areas—tribology and corrosion. It can be defined as the material degradation caused by the combined effect of...
-
A review of preparation methods, friction and wear, corrosion, and biocompatibility of biomedical high-entropy alloys
In recent decades, biomedical materials have received increasing attention and are widely used in medical applications, such as implantable...
-
Polymers for Biomedical Application
An in-depth examination of polymers in biomedical applications is provided in this chapter. Due to their versatility and unique properties,... -
Development of Biomedical Implants through Additive Manufacturing: A Review
Additive manufacturing (AM) is an expeditiously develo** technology for the manufacturing of biomedical implants. It provides an excellent and...
-
Biodegradable Polyphosphazenes for Biomedical Applications
AbstractPolyphosphazenes are an important class of biodegradable polymers with immense biomedical potential. These polymers consist of an inorganic...
-
A review on the recent applications of synthetic biopolymers in 3D printing for biomedical applications
3D printing technology is an emerging method that gained extensive attention from researchers worldwide, especially in the health and medical fields....
-
Metal Implants
Metals are generally hard, opaque , shiny, malleable , ductile... -
Bioinspired Polymer Composite Implants
Long bone fractures are treated with internal fixation prostheses such as screws, pins, intramedullary nails, and bone plates, depending on the type... -
Development of Magnesium-Strontium/Calcium (Mg-Sr/Ca)-Based Alloys with Improved Sinterability for Next-Generation Biomedical Implants
The use of biodegradable magnesiumMagnesium (Mg) alloys for bone fixationFixation devices has potential to improve patients’ quality of life by... -
Biomedical Applications of Aerogels
This section highlights the biocompatibility of aerogels and some of the biomedical applications associated with aerogels. Research has shown that... -
Tribocorrosion of Additively Manufactured (AM-ed) Metallic Biomaterials in Hip Implants : Review on Methodology and Post Treatments
Additive manufacturing (AM) is an original manufacturing technique in which a part can be constructed layer by layer. The AM techniques help in...