Mechanical Properties of Materials
Bruno, Giovanni
Mechanical Properties of Materials - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (98 p.)
Open Access
In the oral environment, restorative and prosthetic materials and appliances are exposed to chemical, thermal and mechanical challenges. The mechanical properties of a material define how it responds to the application of a physical force. Recent advances in nanotechnology and 3D printing have rapidly spread, and manufacturers continuously develop new materials and solutions to provide high-quality dental care, with particular attention being paid to long-term follow-up. Restorative dentistry, prosthodontics, oral surgery, implants, periodontology and orthodontics are all involved in this continuing evolution. This Special Issue focuses on all the recent technology that can enhance the mechanical properties of materials used in all of the different branches of dentistry.
Creative Commons
English
books978-3-0365-1085-9 9783036510842 9783036510859
10.3390/books978-3-0365-1085-9 doi
Technology: general issues
zirconia digital dentistry lithium disilicate resin bonded bridge fracture adhesive restorations CAD/CAM PMMA surface roughness microhybrid composite sandblasting surface treatment composite repair minimal invasive dentistry concrete fracture properties dry environments different curing temperatures temperature crossover effect dental materials orthodontics obstructive sleep apnea mandibular advancement device finite element method composite resins compressive strength fixed partial denture AZ31 magnesium alloy nanoindentation indentation size effect anisotropic yielding criterion temperature rise composites polymerization flexural strength
Mechanical Properties of Materials - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (98 p.)
Open Access
In the oral environment, restorative and prosthetic materials and appliances are exposed to chemical, thermal and mechanical challenges. The mechanical properties of a material define how it responds to the application of a physical force. Recent advances in nanotechnology and 3D printing have rapidly spread, and manufacturers continuously develop new materials and solutions to provide high-quality dental care, with particular attention being paid to long-term follow-up. Restorative dentistry, prosthodontics, oral surgery, implants, periodontology and orthodontics are all involved in this continuing evolution. This Special Issue focuses on all the recent technology that can enhance the mechanical properties of materials used in all of the different branches of dentistry.
Creative Commons
English
books978-3-0365-1085-9 9783036510842 9783036510859
10.3390/books978-3-0365-1085-9 doi
Technology: general issues
zirconia digital dentistry lithium disilicate resin bonded bridge fracture adhesive restorations CAD/CAM PMMA surface roughness microhybrid composite sandblasting surface treatment composite repair minimal invasive dentistry concrete fracture properties dry environments different curing temperatures temperature crossover effect dental materials orthodontics obstructive sleep apnea mandibular advancement device finite element method composite resins compressive strength fixed partial denture AZ31 magnesium alloy nanoindentation indentation size effect anisotropic yielding criterion temperature rise composites polymerization flexural strength