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English
العربية
الصفحة الرئيسية
الوحدات البحثية
الملفات الشخصية
نتاج البحث
المشاريع
المعدات
أنشطة
مجموعات البيانات
الصحافة / وسائل الإعلام
الجوائز
التأثيرات
الدورات التدريبية
البحث حسب الخبرة أو الاسم أو الانتماء
Performance Evaluation of High-Density Polyethylene Micro/Nano Hydroxyapatite Composites for Biomedical Implants: An Experimental and Numerical Study.
Salim Moosa Al Kharusi, Moosa
(PI)
Mechanical and Industrial Engineering
المشروع
:
بحوث المنح الداخلية
معاينة
بصمة
بصمة
استكشف موضوعات البحث التي تناولها هذا المشروع. يتم إنشاء هذه الملصقات بناءً على الجوائز/المنح الأساسية. فهما يشكلان معًا بصمة فريدة.
فرز حسب
الوزن
أبجديًا
INIS
implants
100%
polyethylenes
100%
apatites
100%
performance
100%
evaluation
100%
density
100%
numerical analysis
100%
applications
44%
fabrication
33%
mechanical properties
33%
simulation
33%
particles
33%
microstructure
22%
biological materials
22%
polymers
22%
configuration
22%
nanostructures
22%
bones
22%
processing
22%
morphology
22%
bone joints
11%
bone fractures
11%
extrusion
11%
mixing
11%
bone tissues
11%
availability
11%
transmission electron microscopy
11%
screws
11%
finite element method
11%
osteoporosis
11%
repair
11%
growth
11%
scanning electron microscopy
11%
loading
11%
ceramics
11%
manufacturing
11%
diseases
11%
design
11%
defects
11%
increasing
11%
boundary conditions
11%
3d printing
11%
pellets
11%
cancer
11%
cost
11%
minerals
11%
surgery
11%
congenital diseases
11%
compression
11%
trauma
11%
concentration
11%
additives
11%
Keyphrases
Biomedical Implants
100%
Micro-nano
100%
Nano-hydroxyapatite Composite
100%
High Density Polyethylene
100%
Performance Evaluation
100%
Polyethylene Composites
55%
Hydroxyapatite Particles
33%
Implant Placement
33%
Reinforced
33%
Mechanical Behavior
22%
Bioactivity
22%
Ease of Processing
22%
Composite Mechanical Properties
22%
Nano-hydroxyapatite (n-HA)
22%
Microstructural Morphology
22%
Mechanical Strength
11%
Orthopedic Disease
11%
Hydroxyapatite
11%
Specific Properties
11%
Natural Minerals
11%
Biological Resistance
11%
Congenital Anomalies
11%
Pellet Extruder
11%
High Biocompatibility
11%
Synthetic Biomaterials
11%
Bioactive
11%
Knee Replacement
11%
Polyethylene Particles
11%
Reconstructive Surgery
11%
Extrusion Machine
11%
Medical Implants
11%
Electron Transmission
11%
Bone Fracture
11%
Twin-screw Extrusion
11%
Osteoporosis
11%
Hip Replacement
11%
Compression Properties
11%
Bone Cancer
11%
Impact Properties
11%
Medical Polymers
11%
Flexural Properties
11%
Additive Manufacturing Techniques
11%
Fabrication Methods
11%
Transmission Electron Microscopy
11%
Finite Element Analysis
11%
Chemical Resistance
11%
Tensile Properties
11%
Cell Growth
11%
3D Printing
11%
Biomaterials
11%
Bone Health
11%
Cell Differentiation
11%
Medical Applications
11%
Morphological Properties
11%
Mixing Process
11%
Used Material
11%
Mechanical Properties
11%
Biocompatibility
11%
Bone Tissue
11%
Medical Field
11%
Material Type
11%
Trauma
11%
Scanning Electron Microscopy
11%
Engineering
Density Polyethylene
100%
Numerical Study
100%
Implant
55%
Bioactivity
22%
Medical Implant
11%
Additive Manufacturing Technique
11%
Mechanical Standard
11%
Bioactive Ceramic
11%
Finite Element Method
11%
Medical Field
11%
3D Printing
11%
Extruders
11%
Limitations
11%
Tensiles
11%
Boundary Condition
11%
Loading Condition
11%
Medical Applications
11%
Defects
11%
Transmissions
11%