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
Author(s): Anna Kalorkoti, University of Cambridge,Zoe Barber

Biomaterials and Biomedical Materials: The Structure and Mechanical Behaviour of Wood
This set of animations consists of interactive 3D models of Scots pine and greenheart wood, and 3 point bending test of wet balsa. From TLP: The Structure and Mechanical Behaviour of Wood
Author(s): Sonya Rachel Pemberton, University of Cambridge,Li

Chemical and Environmental Behaviour of Materials: Kinetics of Aqueous Corrosion
This set of animations demonstrates what is meant by aqueous corrosion and the use of the Tafel plot in its understanding. From TLP: Kinetics of Aqueous Corrosion
Author(s): Chris Smith, University of Cambridge,Noel Rutter,

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
Author(s): Louise Connell, University of Cambridge,Dr K M Kno

Fundamentals of Materials Science: Diffusion
This set of animations provides an introduction to the mechanisms and driving forces of diffusion. It demonstartes some of the processes in which it is observed. From TLP: Diffusion
Author(s): Noel Rutter, University of Cambridge,Jenny Chapman

Chemical and Environmental Behaviour of Materials: Fuel Cells
This set of animations demonstrates the principles of a solid oxide fuel cell and a proton exchange membrane cell. From TLP: Fuel Cells
Author(s): Derek Fray, University of Cambridge,Steve Mounsey,

Functional Behaviour of Materials: Brillouin Zones
This set consists of animations demonstrating the construction of Brillouin zones. From TLP: Brillouin Zones
Author(s): Chris Dunleavy, University of Cambridge,Dr K M Kno

Fundamentals of Materials Science: Materials for Nuclear Power Generation
This set of animations provides better understanding of the materials used in nuclear power generation. From TLP: Materials for Nuclear Power Generation
Author(s): Lindsay Greer, University of Cambridge,Matthew Hor

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
Author(s): Peter Marchment, University of Cambridge,Noel Rutt

Biomaterials and Biomedical Materials: Optimisation of Materials Properties in Living Systems
This set of animations demonstrates interactive use of property maps in comparing engineering materials with natural materials. From TLP: Optimisation of Materials Properties in Living Systems
Author(s): Sonya Rachel Pemberton, University of Cambridge,Li

Techniques for Studying Materials: Reciprocal Space
This set of animations shows the relationship between a real lattice and the reciprocal lattice. It introduces the Ewald sphere and the explanation of reciprocal absences. From TLP: Reciprocal Space
Author(s): Mary Vickers, University of Cambridge,T D Skinner,

Techniques for Studying Materials: Transmission Electron Microscopy
This set of animations assists in the understanding of the principles of TEM. From TLP: Transmission Electron Microscopy
Author(s): James Chivall, University of Cambridge,Peter J. Go

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
Author(s): Andy London, University of Cambridge,Dave Bosworth

Functional Behaviour of Materials: Superconductivity
This set of animations covers the principles and applications of superconductivity. From TLP: Superconductivity
Author(s): Henry Begg, University of Cambridge,Karl Sandeman,

Functional Behaviour of Materials: Piezoelectric Materials
This set of animations introduces piezoelectric materials, their properties and applications. From TLP: Piezoelectric Materials
Author(s): Neil Mathur, University of Cambridge,Rob Shaw, Uni

Techniques for Studying Materials: Indexing Electron Diffraction Patterns
This animation explains origin and behaviour of Kikuchi lines. From TLP: Indexing Electron Diffraction Patterns
Author(s): Huey Hoon Hng, University of Cambridge,Sarennah Lo

Functional Behaviour of Materials: Pyroelectric Materials
This set of animations introduces pyroelectric materials, properties and applications. From TLP: Pyroelectric Materials
Author(s): Neil Mathur, University of Cambridge,Rob Shaw, Uni

Functional Behaviour of Materials: Ferroelectric Materials
This set of animations provides understanding of the principles and applications of ferroelectric materials. From TLP: Ferroelectric Materials
Author(s): Neil Mathur, University of Cambridge,Rob Shaw, Uni

Techniques for Studying Materials: Raman Spectroscopy
This set of animations provides understanding of Raman Spectroscopy, rule of mutual exclusion, spectral resolution and the interactions of light with a molecule. From TLP: Raman Spectroscopy
Author(s): Karl Sandeman, Imperial College, London,Peter Coom

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
Author(s): Stuart Fraser, University of Cambridge,Nick Braddo