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1Academic Journal
المؤلفون: APICELLA D, FERRO F, IANNIELLO D, AVERSA, Raffaella, APICELLA, Antonio
المساهمون: Apicella, D, Aversa, Raffaella, Ferro, F, Ianniello, D, Apicella, Antonio
مصطلحات موضوعية: Biofidelity, Compact bone, Constant thickne, Cortical bone, Cortical thickne, Finite element analysi, Human mandible, Isotropic material, Loading condition, Low-complexity, Maximum stiffne, Mechanical characterization, Molar area, Numerical model, Orthotropic material, Orthotropic propertie, Orthotropicity, Orthotropy, Piece-wise, Principal direction, Strain distribution, Strain field, Strain state, Temporalis Engineering controlled terms: Biomechanic, Bone, Computer crime, Elastic moduli, Materials propertie, Mathematical model, Muscle
Relation: volume:93(1); firstpage:150; lastpage:163; numberofpages:14; journal:JOURNAL OF BIOMEDICAL MATERIALS RESEARCH. PART B, APPLIED BIOMATERIALS.; http://hdl.handle.net/11591/164523; info:eu-repo/semantics/altIdentifier/scopus/2-s2.0-77949498147; https://www.scopus.com/record/display.uri?eid=2-s2.0-77949498147&origin=resultslist&sort=plf-f&src=s&st1=aversa&st2=raffaella&nlo=1&nlr=20&nls=count-f&sid=78E4E0AFC8CE661EB68D1B1A9FFBC53B.wsnAw8kcdt7IPYLO0V48gA%3a53&sot=anl&sdt=aut&sl=37&s=AU-ID%28%22Aversa%2c+Raffaella%22+8620618400%29&relpos=8&citeCnt=8&searchTerm=
الاتاحة: http://hdl.handle.net/11591/164523
https://doi.org/10.1002/jbm.b.31569
https://www.scopus.com/record/display.uri?eid=2-s2.0-77949498147&origin=resultslist&sort=plf-f&src=s&st1=aversa&st2=raffaella&nlo=1&nlr=20&nls=count-f&sid=78E4E0AFC8CE661EB68D1B1A9FFBC53B.wsnAw8kcdt7IPYLO0V48gA%3a53&sot=anl&sdt=aut&sl=37&s=AU-ID%28%22Aversa%2c+Raffaella%22+8620618400%29&relpos=8&citeCnt=8&searchTerm= -
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المؤلفون: Davide, Apicella, Raffaella, Aversa, Fabrizia, Ferro, Domenico, Ianniello, Letizia, Perillo, Antonio, Apicella
المساهمون: Apicella, D, Aversa, Raffaella, Ferro, F, Ianniello, D, Apicella, Antonio
مصطلحات موضوعية: Models, Anatomic, Biofidelity, Mechanical characterization, geometry, Bone density, Materials propertie, Cortical bone, Finite element analysi, Molar area, Orthotropic material, Dental Model, Mandible, mandible numerical model, sensibility, Strain distribution, computer assisted tomography, Strain state, Mathematical model, Bone Density, quantitative study, Strain field, orthopedic, Isotropic material, Compact bone, Biomechanics, article, Stiffness, Principal direction, Anatomy, Models, Dental, Biomechanical Phenomena, medicine.anatomical_structure, female, rigidity, muscle force, Temporalis Engineering controlled terms: Biomechanic, Muscle, maximum stiffness direction, thickne, Linear Model, biomechanic, medicine.symptom, Algorithms, Loading condition, Strain Engineering main heading: Finite element method EMTREE drug terms: biomaterial EMTREE medical terms: adult, Human, Low-complexity, Materials science, temporalis muscle, bone structure, Computer crime, Finite Element Analysis, Maximum stiffne, Biomedical Engineering, cortical bone orthotropy, Orthotropicity, Numerical method, dentin, isograft, Models, Biological, Condyle, Numerical model, Biomaterials, Imaging, Three-Dimensional, Young modulus MeSH: Algorithm, medicine, Humans, Human mandible, Computer Simulation, Orthotropy, Elasticity (economics), xenograft, Bone, masseter muscle, Cortical thickne, model, reliability, Isotropy, orthotic, Piece-wise, Elastic moduli, Constant thickne, low complexity model, Elasticity, higher complexity model, muscle strain, Linear Models, Orthotropic propertie, Stiffne, loading test