Fatigue and biocompatibility properties of a poly(methyl methacrylate) bonecement with multi-walled carbon nanotubes

Engineering & Materials Science

• Polymethyl methacrylates 97%
• Biocompatibility 90%
• Carbon nanotubes 77%
• Fatigue of materials 50%
• Assays 28%
• Bone cement 23%
• Cements 20%
• Crack propagation 14%
• Scanning electron microscopy 12%
• Cell culture 10%
• Field emission 10%
• Amines 9%
• Microscopic examination 8%
• Crystals 8%
• Cells 7%
• Agglomeration 7%
• Scanning 6%
• Lasers 6%
• Substrates 5%
• Microstructure 5%
• Composite materials 4%

Medicine & Life Sciences

• Carbon Nanotubes 100%
• Polymethyl Methacrylate 83%
• Fatigue 62%
• Bone Cements 20%
• Gentian Violet 11%
• Amines 8%
• Electron Scanning Microscopy 7%
• Confocal Microscopy 7%
• Cell Culture Techniques 6%
• Cell Survival 6%
• Staining and Labeling 5%
• In Vitro Techniques 3%

Chemistry

• Multi Walled Nanotube 61%
• Bone Cement 23%
• Crack Propagation 22%
• Methacrylate 13%
• Crystal Violet 9%
• Confocal Laser Scanning Microscopy 9%
• Cell Viability 8%
• Agglomeration 7%
• Microstructure 5%
• Amine 5%
• Length 4%
• Composite Material 4%