Larix International Conference on Material Science and Engineering

We are excited to present the Larix International Conference on Material Science and Engineering Scheduled on April 24-25, 2024 In Dubai, UAE. This distinguished event will bring Engineers, Scientists, Professors and Experts to discuss and deliver presentations, which includes topics such as Materials Science, Nanomaterial and Nanotechnology, Crystallography, Biomaterials, Smart Materials, Semiconductors, Engineering. Thus understanding its uses in Industries, Construction, Ceramics, Composites, Metallurgy, plasma, Semi-conductors and to stay up-to-date with advancements in Energy, Electronics, Biotechnology and Nanotech in order to improve production efficiency, minimize environmental impacts, and ensure the welfare of the society.

Session 1: Materials Science and Engineering

Materials science and engineering seeks to understand the fundamental physical origins of material behavior in order to optimize properties of existing materials through structure modification and processing, design and invent new and better materials, and understand why some materials unexpectedly fail.

Session 2: Nanomaterial and Nanotechnology

Nanotechnology is the atomic, molecular and supramolecular-scale handling of matter. The fascinating thing about nanotechnology is that as the size scale of their dimensions exceeds nanometers the properties of several materials change. Materials scientists and engineers are working to understand those improvements in properties and use them at nanoscale stage in the production and manufacturing of materials.

Session 3: Metallurgical and Materials Engineering

Metallurgical and Materials Engineering educates students about the verticals of different metals' physical and chemical properties. This research mainly deals with all sorts of metal related areas. The course covers Hydrometallurgy, Mechanical Metallurgy, Steel Heat Treatment, Welding Metallurgy, etc. Using metallurgy, the metals are isolated from their ore. It also concerns the chemical, physical, and atomic properties and structures of metals and the principles by which alloy-forming metals are mixed. The metallurgical sciences are divided into chemical metallurgy and physical metallurgy.

Session 4: Ceramic Materials

A ceramic is a material that is neither metallic nor organic. It may be crystalline, glassy or both crystalline and glassy. Ceramics are typically hard and chemically non-reactive and can be formed or densified with heat. Ceramics are more than pottery and dishes: clay, bricks, tiles, glass, and cement are probably the best-known examples. Ceramic materials are used in electronics because, depending on their composition, they may be semiconducting, superconducting, ferroelectric, or an insulator.

Session 5: Crystallography

Crystallography is a branch of science that deals with discerning the arrangement and bonding of atoms with the geometric structure of crystal lattices in crystalline solids. In chemistry and mineralogy, the optical properties of crystals have traditionally been of interest for material identification. Modern crystallography is essentially based on a study of X-ray diffraction by crystals serving as optical gratings. Chemists are able to determine the internal structures and bonding patterns of minerals and molecules, including the structures of large complex molecules, such as proteins and DNA, using X-ray crystallography.