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1. www.sciencedirect.com › science › articleReview on magnesium and magnesium-based alloys as biomaterials...

   www.sciencedirect.com › science › article

   1 Μαρ 2023 · Magnesium alloy has become one of the third-generation biomedical materials to promote bone tissue regeneration. Compared to other metal implants, magnesium metal is biodegradable and continues to degrade as the bone tissue heals, eliminating the need for secondary surgical removal.

   • Temporal Role of Macrophages in Cancellous Bone Healing

     1. Introduction. Successful fracture healing is dependent on...

   • The Cellular Toxicity of Aluminium

     J. theor. Biol. (1992) 159, 83-98 The Cellular Toxicity of...

   • Bone Stress Distribution for Three Endosseous Implants

     From this, stresses and stress contours can be established...

   • Biocompatibility and Neurotoxicity of Magnesium Alloys Potentially Used for Neural Repairs

     Nerve injury, especially the large-size nerve damage, is a...

   • Influence of The Microstructure on The Corrosion Behaviour of Cast Mg-Al Alloys

     1. Introduction. Magnesium (Mg) alloys exhibit the lowest...

   • Biocompatible Nanocrystalline Natural Bonelike Carbonated Hydroxyapatite Synthesized by Mechanical Alloying in a Record Minimum Time

     Fig. 2 shows the FTIR spectra of A-cHAp particles milled for...

2. www.mdpi.com › 2075/4701/12-9 › 1500Advances in the Study of Magnesium Alloys and Their Use in Bone...

   www.mdpi.com › 2075/4701/12-9 › 1500

   • Αποθηκευμένο αντίγραφο

   10 Σεπ 2022 · Magnesium and magnesium alloys have great application potential in the field of orthopaedics. Compared with traditional inorganic nonmetallic materials and medical polymer materials, magnesium alloys have many advantages, such as better strength, toughness, fatigue resistance, and easy processing.

3. www.mdpi.com › 2076/3417/11-15 › 6861Applications of Magnesium and Its Alloys: A Review - MDPI

   www.mdpi.com › 2076/3417/11-15 › 6861

   • Αποθηκευμένο αντίγραφο

   13 Μαΐ 2021 · Magnesium may not be the perfect biomaterial, but the compromise between its merits and weaknesses has paved the way for specific medical applications. Presently, magnesium and its alloys are widely used for musculoskeletal and orthopedic applications.

4. www.ncbi.nlm.nih.gov › pmc › articlesMagnesium Alloys in Orthopedics: A Systematic Review on...

   www.ncbi.nlm.nih.gov › pmc › articles

   24 Δεκ 2023 · Titanium, cobalt–chromium-based alloys and stainless steels are widely used in orthopedics for fixation devices and joint prostheses due to their favorable mechanical properties, corrosion resistance and ability to biologically integrate with the human body (biocompatibility) [1].

5. www.nature.com › articles › s43246/024/00613-1Chemically-simple magnesium alloys for biomedical applications -...

   www.nature.com › articles › s43246/024/00613-1

   30 Αυγ 2024 · Magnesium alloys are attractive biomaterials as they have a low Young’s modulus, mitigating stress shielding, and magnesium is non-toxic in the body. However, traditional magnesium...

6. www.ncbi.nlm.nih.gov › pmc › articlesMagnesium-Based Alloys Used in Orthopedic Surgery

   www.ncbi.nlm.nih.gov › pmc › articles

   2 Φεβ 2022 · Magnesium (Mg)-based alloys have become an important category of materials that is attracting more and more attention due to their high potential use as orthopedic temporary implants. These alloys are a viable alternative to nondegradable metals implants in orthopedics.

7. www.researchgate.net › publication › 347917167_Amorphous_and_Crystalline_Magnesium(PDF) Amorphous and Crystalline Magnesium Alloys for Biomedical...

   www.researchgate.net › publication › 347917167_Amorphous_and_Crystalline_Magnesium

   16 Δεκ 2020 · Rafał Babilas. Citations (4) References (75) Figures (3) Abstract and Figures. Amorphous and crystalline magnesium alloys, developed for medical applications – especially implantology – present...