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Description
(Short description)
This book contains contributions to the mini-symposium Nano- and Micro-mechanics at the 6th International Conference Nonlinear Mechanics held August 2013. It presents fundamental mechanical properties of systems at the nano- and micro-meter scale.
(Text)
This book contains fundamental studies fundamental mechanical (elastic, thermal, electrical, magnetic, biological, etc.) properties of systems at the nano- and micrometer scale. Nano-and Micromechanics have emerged on the crossroads of classical and non-classical mechanics, solid-state physics, statistical mechanics, materials science, quantum chemistry among others. In this sense they provide a scientific foundation of nano-and other advanced technologies. As a fundamental science, they are based on general mechanics principles and specific principles arising from the smallness of physical sizes of the object of study or research. The book contains the most exciting contributions to the mini-
symposium Nano- and Micromechanics at the 6th International Conference Nonlinear Mechanics held in Shanghai (P.R. China) in August 2013.
(Table of content)
On deformation of plates and shells with dislocations.- Tuning Graphene Morphology by Substrate Towards Wrinkle-Free Devices: Experiment and Simulation.- Flaw Insensitive Fracture in Nanocrystalline Graphene.- What Drives Self-Rippling of a Free Monolayer.- Regulation of Surface-Structure and Shape in the Penetration of Nanomaterials Across a Cell Membrane.- Gradient Micro/Nano.- Mechanics of Semiflexible Polymer Chains under Confinements.- Physical Mechanics Study on Graphene Wrinkle and Surface Properties.- Nanomechanics: Novel Effects and Phenomena.- Elastic Properties of Single-Stranded DNA Biofilm with Strong Interactions.- Temperature Effect on the Tensile Mechanical Properties of Graphene Nanoribbons.- The Nonlinear Magnetoelectric Effect of Layered Magnetoelectric Composite Cylinder with an Imperfect Inter.- A Solution for Nonlinear Poisson-Neumann Problem of Nb3Sn Superconducting Transport Current.- Square Inclusion with a Nonlinear Eigenstrain in an Anisotropic Piezoelectric Full Plane.- Prediction of the Effective Force on DNA in a Nanopore Based on Density Functional Theory.- Nonlinear Analysis of the Threaded Connection with Three-Dimensional Finite Element Model.- Effects of Particle Volume Fraction on the Macro-Thermo-Mechanical Behaviors in Plate-Type Dispersion Nuclear Fuel Elements.- Buckling Behavior of Defective Carbon Nanotubes.- 3D Extrusion Simulation of the Single Screw Head and Optimization Design.- Mechanics without Muscles: Fast Motion of the Venus Flytrap and Bioinspired Robotics.- Geometric Nonlinearity in Bioinspired Multistable Structures.- Analysis on Thickness Dependence of Jc Caused by Dislocations and Grain.- Boundaries in YBCO Superconducting Films
(Author portrait)
Prof. Dr.-Ing. habil. Holm Altenbach lehrt Technische Mechanik an der Otto-von-Guericke-Universität Magdeburg. Seine Forschungsschwerpunkte liegen auf verschiedenen Gebieten der Kontinuumsmechanik (Plattentheorie, Kriechschädigungsmechanik, Mechanik der Komposite).
