Functional Behaviour of Materials: Piezoelectric Materials
This set of animations introduces piezoelectric materials, their properties and applications. From TLP: Piezoelectric Materials
Functional Behaviour of Materials: Liquid Crystals
This set of animations looks at birefringerence, linear and circular polarisation and LCD display. From TLP: Liquid Crystals
Functional Behaviour of Materials: Ferromagnetic Materials
This set of animations introduces ferromagnetic materials and their properties. It explains the difference between them and diamagnetic and paramagnetic materials. From TLP: Ferromagnetic Materials
Functional Behaviour of Materials: Ferroelectric Materials
This set of animations provides understanding of the principles and applications of ferroelectric materials. From TLP: Ferroelectric Materials
Functional Behaviour of Materials: Electromigration
This set of animations covers electromigration damage and resistance to it. It introduces the concept Blech length. From TLP: Electromigration
Functional Behaviour of Materials: Dielectric Materials
This set of animations introduces the principles of dielectric materials and explains them through the band theory. From TLP: Dielectric Materials
Functional Behaviour of Materials: Brillouin Zones
This set consists of animations demonstrating the construction of Brillouin zones. From TLP: Brillouin Zones
Mechanical Behaviour of Materials: Superelasticity and shape memory alloys
This set of animations provides understanding of the principles and applications of superelasticity and shape memory alloys materials. From TLP: Superelasticity and shape memory alloys
Mechanical Behaviour of Materials: Stress analysis and Mohr's circle
This set of animations explains how to use the Mohr's circle in stress analysis. From TLP: Stress analysis and Mohr's circle
Mechanical Behaviour of Materials: Mechanics of Fibre-Reinforced Composites
This set of animations provides understanding of the principles of fibre-reinforced composites. From TLP: Mechanics of Fibre-Reinforced Composites
Mechanical Behaviour of Materials: Analysis of Deformation Processing
This set of animations explains how to construct hodographs and provides understanding of the forging process. From TLP: Analysis of Deformation Processing
Mechanical Behaviour of Materials: Deformation of Honeycombs and Foams
This set of animations introduces the principles of deformation of honeycombs and foams. From TLP: Deformation of Honeycombs and Foams
Mechanical Behaviour of Materials: Creep Deformation of Metals
This set consists of an animation explaning Nabarro-Herring creep and Coble creep, and the simulation of a creeping coil experiment. From TLP: Creep Deformation of Metals
Mechanical Behaviour of Materials: Bending and Torsion of Beams
This set consists of user controlled simulations of 3-point, 4-point bending and plastic deformation of a prismatic beam. From TLP: Bending and Torsion of Beams
Atomic Structure and Microstructure of Materials: The Stereographic Projection
This set of animations covers the principles of stereographic projection and the use of the Wulff net in plotting poles. From TLP: The Stereographic Projection
Atomic Structure and Microstructure of Materials: Solidification of Alloys
This set of animations covers different aspects of solidification, it includes interactive phase diagrams. From TLP: Solidification of Alloys
Atomic Structure and Microstructure of Materials: Lattice Planes and Miller Indices
This set of animations covers indexing of planes and Miller indices. From TLP: Lattice Planes and Miller Indices
Atomic Structure and Microstructure of Materials: Crystallographic Texture
This set consists of animations and user controlled simulations of Eulerian cradle, EBSD, CODF, GOSS texture and texture build up. From TLP: Crystallographic Texture
Atomic Structure and Microstructure of Materials: Stress-strain curve in polymers
This animation presents an interactive idealised polymer stress-strain curve. From TLP: Crystallinity in Polymers
Techniques for Studying Materials: X-ray Diffraction Techniques
This set of animations demonstrates the principles involved in X-ray diffraction techniques. From TLP: X-ray Diffraction Techniques
