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Modelling the Pultrusion Process of Off Shore Wind Turbine Blades
Ismet Baran
Research output
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Book/Report
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Ph.D. thesis
1826
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Dive into the research topics of 'Modelling the Pultrusion Process of Off Shore Wind Turbine Blades'. Together they form a unique fingerprint.
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Engineering
Offshore Wind Turbines
100%
Pultrusion
100%
Simulation Tool
28%
Computer Simulation
28%
Mechanical Model
28%
Residual Stress
21%
Contact Thermal Resistance
21%
Blade Profile
21%
Fluid Viscosity
21%
Induced Stress
14%
Frictional Force
14%
Pulling Force
14%
Internal Stress
14%
Gelation
14%
Wind Turbine
14%
Directional
7%
Manufacturing Process
7%
Process Parameter
7%
Two Dimensional
7%
Kinetic Model
7%
Response Surface Method
7%
Isothermal
7%
Young's Modulus
7%
Product Quality
7%
Measured Data
7%
Modeling Strategy
7%
Stress Level
7%
Rheometer
7%
Nonlinear Regression
7%
Composite Part
7%
First-Order Reliability Method
7%
Viscous Force
7%
Cure Profile
7%
Multiobjective Optimization Problem
7%
Dynamic Mechanical Analyser
7%
Continuous Filament
7%
Mat Layer
7%
Orthophthalic Polyester
7%
Force Model
7%
Softening Model
7%
Thermal Softening
7%
Rheology
7%
Polymer Behavior
7%
Compaction Force
7%
Industrial Product
7%
Genetic Algorithm
7%
Energy Engineering
7%
Transients
7%
Rod
7%
Numerical Modeling
7%
Structural Analysis
7%
Solid Mechanics
7%
Polyester Resin
7%
Finite Element Method
7%
Least Square
7%
Material Science
Pultrusion
100%
Contact Resistance
21%
Residual Stress
21%
Mechanical Testing
14%
Elastic Moduli
7%
Polymer Processing
7%
Material Processing
7%
Structural Analysis
7%
Finite Element Methods
7%
Solid Mechanics
7%
Differential Scanning Calorimetry
7%
Rheology
7%
Polyester
7%
Chemical Engineering
Gelation
100%
Differential Scanning Calorimetry
50%
Polyester Resin
50%
Keyphrases
Turbine Blade Profiles
22%
Web-flange Junction
11%
Layer Orientation
11%
Pulling Direction
11%
I-beam
11%
Composite Manufacturing
11%