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American Society for Testing and Materials

Nonlinear Oscillations: Exact Solutions and their Approximations

A strain sensor has been fabricated from a polymer nanocomposite with multiwalled carbon nanotube (MWNT) fillers. The piezoresistivity
of this nanocomposite strain sensor has been investigated based on an improved three-dimensional (3D) statistical resistor network
model incorporating the tunneling effect between the neighboring carbon nanotubes (CNTs), and a fiber reorientation model. The
numerical results agree very well with the experimental measurements. As compared with traditional strain gauges, much higher sensitivity
can be obtained in the nanocomposite sensors when the volume fraction of CNT is close to the percolation threshold. For a small
CNT volume fraction, weak nonlinear piezoresistivity is observed both experimentally and from numerical simulation. The tunneling
effect is considered to be the principal mechanism of the sensor under small strains.

Tunneling effect in a polymer/carbon nanotube nanocompositestrain sensor

Durability of concrete — Degradation phenomena involving detrimental chemical reactions

https://repositorium.sdum.uminho.pt/bitstream/1822/19623/1/6.7.32%202012.pdf

Compliant contact force models in multibody dynamics : evolution of the Hertz contact theory

Foreword. Preface. Fundamentals of Numerical Analysis. Novel Computational Procedure. PART I: MODEL PROBLEM: LINE ELEMENT FOR SCALAR WAVE EQUATION. Concepts of Scaled Boundary Transformation of Geometry and Similarity. Wedge and Truncated Semi-Infinite Wedge of Shear Plate. Scaled Boundary Transformation-Based Derivation. Mechanically-Based Derivation. Modelisation with Single Line Finite Element. Statics. Mass of Wedge. High-Frequency Asymptotic Expansion for Dynamic Stiffness of Truncated Semi-Infinite Wedge. Numerical Solution of Dynamic Stiffness, Unit-Impulse Response and Displacement of Truncated Semi-Infinite Wedge. Analytical Solution in Frequency Domain. Implementation. Conclusions. Appendix A: Solid Modelling. Appendix B: Harmonic Motion and Fourier Transformation. Appendix C: Dynamic Unbounded Medium-Structure Interaction. Appendix D: Historical Note. PART II: TWO- AND THREE-DIMENSIONAL ELASTODYNAMICS, STATICS AND DIFFUSION. Fundamental Equations. Statics. Mass Matrix of Bounded Medium. High-Frequency Asymptotic Expansion for Dynamic Stiffness of Unbounded Medium. Numerical Solution of Dynamic Stiffness, Unit-Impulse Response and Displacement of Unbounded Medium. Analytical Solution in Frequency Domain. Extensions. Substructuring. Examples for Bounded Media. Examples for Unbounded Media. Error Estimation and Adaptivity. Concluding Remarks. References. Index.

The Scaled Boundary Finite Element Method

Rebound behaviour of spheres for plastic impacts

Energy dissipation during normal impact of elastic and elastic-plastic spheres

Stress-strain constitutive equations of concrete material at elevated temperatures

https://research.birmingham.ac.uk/portal/files/40906618/Liu_et_al_Ionic_transport_features_in_Concrete_Composite_Sturctures_2017.pdf

Long-yuan Li

Papers

The Scaled Boundary Finite Element Method

Rebound behaviour of spheres for plastic impacts

Energy dissipation during normal impact of elastic and elastic-plastic spheres

Stress-strain constitutive equations of concrete material at elevated temperatures

Ionic transport features in concrete composites containing various shaped aggregates: a numerical study