تخطي إلى التنقل الرئيسي
تخطي إلى البحث
تخطي إلى المحتوى الرئيسي
الصفحة الرئيسية
المساعدة والأسئلة الشائعة
يفتح الرابط في علامة تبويب جديدة
English
العربية
ابحث عن في المحتوى
الصفحة الرئيسية
الوحدات البحثية
الملفات الشخصية
نتاج البحث
المشاريع
المعدات
أنشطة
مجموعات البيانات
الصحافة / وسائل الإعلام
الجوائز
التأثيرات
الدورات التدريبية
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
Keyphrases
Biomedical Implants
100%
Micro-nano
100%
Performance Evaluation
100%
Nano-hydroxyapatite Composite
100%
High-density Polyethylene
100%
High-density Polyethylene Composite
83%
Hydroxyapatite Particles
50%
Implant Applications
50%
Mechanical Behavior
33%
Bioactivity
33%
Ease of Processing
33%
Composite Mechanical Properties
33%
Composites Reinforced
33%
Nano-hydroxyapatite (n-HA)
33%
Microstructural Morphology
33%
Mechanical Strength
16%
Hydroxyapatite
16%
Specific Properties
16%
Cell Growth
16%
Natural Minerals
16%
Biological Resistance
16%
3D Printing
16%
Scanning Electron Microscopy (SEM-EDS)
16%
Biomaterials
16%
Congenital Anomalies
16%
Pellet Extruder
16%
High Biocompatibility
16%
Orthopedic Diseases
16%
Synthetic Biomaterials
16%
Bioactive
16%
Knee Replacement
16%
Bone Health
16%
Polyethylene Particles
16%
Reconstructive Surgery
16%
Extrusion Machine
16%
Medical Implants
16%
Electron Transmission
16%
Bone Fracture
16%
Cell Differentiation
16%
Fabrication/Characterization
16%
Medical Applications
16%
Twin-screw Extrusion
16%
Morphological Properties
16%
Osteoporosis
16%
Hip Replacement
16%
Compression Properties
16%
Mixing Process
16%
Bone Cancer
16%
Impact Properties
16%
Medical Polymers
16%
Flexural Properties
16%
Additive Manufacturing Techniques
16%
Fabrication Methods
16%
Transmission Electron Microscopy
16%
Finite Element Analysis
16%
Chemical Resistance
16%
Tensile Properties
16%
Used Material
16%
Mechanical Properties
16%
Reinforced
16%
Biocompatibility
16%
Bone Tissue
16%
Medical Field
16%
Material Type
16%
Trauma
16%
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%
Material Science
Polyethylene
100%
Density
100%
Mechanical Property
55%
Strength of Materials
44%
Polymer
22%
Reinforced Composite
22%
Three Dimensional Printing
22%
Biocompatibility
22%
Biomaterial
22%
Medical Implant
11%
Mixing Process
11%
Transmission Electron Microscopy
11%
Scanning Electron Microscopy
11%
Cell Growth
11%
Finite Element Methods
11%