Materials Chemistry and Physics

Description :

Materials Chemistry along with Physics manage with the structure, properties, process and performance of materials. Applied physics is destined for a particular technological or practical use of materials. Materials characterization is a wide physically and general process by which a material's structure and properties are probed and measured. Materials characterization usually done by the major techniques like Microscopy, spectroscopy, macroscopic testing. The range of the structures recognized in materials ranging from angstroms, As within the imaging of individual atoms and chemical bonds, up to centimeters, i.e., the imaging of coarse grain structures in metals.

It Shows the structural materials that will operate at extreme range of temperature, stress, strain, pressure, radiation flux, and chemical reactivity which defines the principal that the limiting factor of the performance of many energy systems. The design space of modern structural materials is huge—much too complicated to explore by trial and error. Predictive modelling is required to guide experiments within the most efficient directions, to accelerate style and testing, and to grasp performance. State-of the-art machine tools permit scientists to calculate from initial principles the interactions that dominate microstructural behavior, whereas experimental tools will currently offer time provide time resolved measurements on real materials to validate these models. This integration of theory, simulation, and experiment can accelerate materials discovery and innovation. Key to achieving these advances is verification, validation, and uncertainty quantification of the pc models. Physical measurements should be created at relevant length and time scales and compared directly with theory and simulation.

  • Applied physics
  • Materials characterization techniques
  • Material engineering
  • Mechanics of materials