Final Programme as at July 12, 2010

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<< Monday, August 30, 2010 Main Overview Wednesday, September 1, 2010 >>
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Room: HS 01
Room: HS 03
Room: HS 04
Room: 101
Room: 201
Room: 204
Room: 301
Room: 401
Room: 403
Room: 405
Tuesday
August 31, 2010
Break
Break
Break
18:30 - 22:30 Steam Ship Excursion
B.06.3
Fracture Mechanics Testing: Procedures to Evaluate Fracture Mechanics Characteristics I
B.04.10
Computational Methods for Fracture Analysis: Strain Gradient Models and Functional Graded Materials
B.04.3
Computational Methods for Fracture Analysis: Fracture Analysis II
A.02.1
Micromechanisms of Fatigue and Fracture: Fatigue
A.04.2
Environmentally Enhanced Effects: Corrosion II
B.01.3
Concepts and Criteria in Fracture Mechanics: Fracture Mechanics Approaches
B.08.4
Fracture Mechanics of Polymer and Elastomers: Experimental Determination of Toughness
B.05.1
Damage Mechanics: Practical Developments of Damage Models
B.10.4
Fracture and Damage of Advanced Cementitious Materials: Stainhardening Cement-based Materials (SHCC) -Modelling and Numerical Analysis
B.07.1
Fracture of Ceramics and Glass: Strength and Toughness in Ceramic Materials and Composites
B.04.4
Computational Methods for Fracture Analysis: Fatigue and Creep
B.03.2
Low Cycle Fatigue Crack Growth II
A.04.3
Environmentally Enhanced Effects: Hydrogen Induced Effects I
B.01.4
Concepts and Criteria in Fracture Mechanics: Special Crack Problems II
B.08.5
Fracture Mechanics of Polymer and Elastomers: Effects of Viscoelasticity and Crack Tip Sharpness
B.06.4
Fracture Mechanics Testing: Procedures to Evaluate Fracture Mechanics Characteristics II
B.10.5
Fracture and Damage of Advanced Cementitious Materials: Advanced Cement-based Materials -Testing and Application
C.07.1
Thin Films and Coatings: TBC and Fatigue
Plenary Lecture
Plenary Lecture
 


Caption:
 
A - Fundamentals, physics and mechanisms
 
A.01 - Atomistic aspects of fracture
 
A.02 - Micromechanisms of fatigue and fracture
 
A.03 - Creep fracture, creep fatigue interaction
 
A.04 - Environmentally enhanced effects
 
B - Methods, concepts and materials
 
B.01 - Concepts and criteria in fracture mechanics
 
B.02 - High cycle fatigue crack growth (mixed mode, ...
 
B.03 - Low cycle fatigue crack growth
 
B.04 - Computational methods for fracture analyses
 
B.05 - Damage mechanics
 
B.06 - Fracture mechanics testing
 
B.07 - Fracture of ceramics and glass
 
B.08 - Fracture mechanics of polymers and elastomers
 
B.09 - Fracture of smart materials
 
B.10 - Fracture and damage of advanced cementitious ...
 
B.11 - Fracture of Biomaterials (bone, wood,…)
 
C - Applications to components and structures
 
C.01 - Structural durability of components and struc...
 
C.02 - Structural Integrity, Failure analyses case s...
 
C.03 - Failure and Reliability of Micro- and Nanoele...
 
C.04 - Fracture of weldments, joints and adhesives
 
C.05 - Damage and fatigue in aerospace materials and...
 
C.06 - Fracture and damage in geotechnique, rock and...
 
C.07 - Thin films and coatings
 
C.08 - Non-destructive examination and health monito...