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Jr, Mishnaevsky, Leon L. Computational Mesomechanics of Composites
Levertijd: 5 tot 11 werkdagen

Leon L. Jr Mishnaevsky

Computational Mesomechanics of Composites

Numerical analysis of the effect of microstructures of composites of strength and damage resistance

€ 189.95

echanical properties of composite materials can be improved by tailoring their microstructures. The mesomechanics of materials considers teh effect of microstructures on the m

Taal / Language : English


1 Composites.

1.1. Classification and types of composites.

1.2. Deformation, damage and fracture of composites: micromechanisms and roles of phases.

2. Mesoscale level in the mechanics of materials.

2.1. On the definitions of scale levels: Micro and mesomechanics.

2.2. Size effects.

2.3. Biocomposites.

2.4. On some concepts of the improvement of material properties.

2.5. Physical mesomechanics of materials.

2.6 Topological and statistical description of microstructures of composites.

3. Damage and failure of materials: Concepts and methods of modeling.

3.1. Fracture mechanics: Basic concepts.

3.2. Statistical theories of strength.

3.3. Damage mechanics.

3.4 Numerical modeling of damage and fracture.

4. Microstructure strength relationships of composites: Concepts and methods of analysis.

4.1. Interaction between elements of microstructures: physical and mechanical models.

4.2. Multi scale modeling of materials and homogenization.

4.3. Analytical estimations and bounds of overall elastic properties of composites.

4.4. Computational models of microstructures and strength of composites.

5. Computational experiments in the mechanics of materials: concepts and tools.

5.1. Concept of computational experiments in the mechanics of materials.

5.2. Input data for the simulations: Determination of material properties.

5.3. Program codes for the automatic generation of 3D microstructural models of materials.

6. Numerical mesomechanical experiments: Analysis of the effect of microstructure of materials on the deformation and damage resistance by virtual testing.

6.1 Finite element models of composite microstructures.

6.2 Material properties used in the simulations.

6.3 Damage modeling in composites with the User Defined Fields.

6.4 Stability and reproducibility of the simulations.

6.5 Effect of the amount and the volume content of particles on the deformation and damage in the composite.

6.6 Effect of particle clustering and the gradient distribution of particles.

6.7 Effect of the variations of particle sizes on the damage evolution.

6.8 Ranking of microstructures and the effect of gradient orientation.

7. Graded particle reinforced composites: Effect of the parameters of graded microstructures on the deformation and damage.

7.1 Damage evolution in graded composites and the effect of the degree of gradient.

7.2 Bilayer model of a graded composite.

7.3 Effect of the shape and orientation of whiskers and elongated particles on the strength and damage evolution: non graded composites.

7.4 Effect of the shape and orientation of elongated particles on the strength and damage evolution: the case of graded composite materials.

7.5 Effect of statistical variations of local strengths of reinforcing particles and the distribution of the particle sizes.

7.6 Combined Reuss/Voigt model and its application to the estimation of stiffness of graded materials.

8. Particle clustering in composites: Effect of clustering on the mechanical behavior and damage evolution.

8.1. Finite element modeling of the effect of clustering of particles on the damage evolution.

8.2. Analytical modeling of the effect of particle clustering on the damage resistance.

9. Interpenetrating phase composites: Numerical simulations of deformation and damage.

9.1. Geometry based and voxel array based 3D FE model generation: comparison.

9.2. Gradient interpenetrating phase composites.

9.3. Isotropic interpenetrating phase composites.

10. Fiber reinforced composites: Numerical analysis of damage initiation and growth.

10.1 Modeling of strength and damage of fiber reinforced composites: a brief overview.

10.2 Mesomechanical simulations of damage initiation and evolution in fiber reinforced composites.

11. Contact damage and wear of composite tool materials: Micro macro relationships.

11.1 Micromechanical modeling of the contact wear of composites: a brief overview.

11.2 Mesomechanical simulations of wear of grinding wheels.

11.3 Micro macro dynamical transitions for the contact wear of composites: black box modeling approach.

11.4 Microscale scattering of the tool material properties and the macroscopic efficiency of the tool.

12. Future fields: Computational mesomechanics and nanomaterials.


Extra informatie: 
294 pagina's
Januari 2007
726 gram
248 x 171 x 25 mm
Wiley-Blackwell us

Levertijd: 5 tot 11 werkdagen