Sabry, A. (2020). Materials developed by nanotechnology and their industrial applications in the field of product design. International Design Journal, 10(3), 447-456. doi: 10.21608/idj.2020.96358
Ahmed Mohamed Sabry. "Materials developed by nanotechnology and their industrial applications in the field of product design". International Design Journal, 10, 3, 2020, 447-456. doi: 10.21608/idj.2020.96358
Sabry, A. (2020). 'Materials developed by nanotechnology and their industrial applications in the field of product design', International Design Journal, 10(3), pp. 447-456. doi: 10.21608/idj.2020.96358
Sabry, A. Materials developed by nanotechnology and their industrial applications in the field of product design. International Design Journal, 2020; 10(3): 447-456. doi: 10.21608/idj.2020.96358
Materials developed by nanotechnology and their industrial applications in the field of product design
Lecturer, Department of Industrial Education - Division of Metallurgical Industries - College of Education - Helwan University
Abstract
Reducing material sizes and scales to the nanometer level is not an end in itself but rather a means and scientific philosophy and a qualitative and scientific coup against the classics and constants of physical and chemical theories, with the aim of producing novel types of materials with distinct properties that suit the requirements of advanced technology known as nanomaterials. Therefore, it is important to study those new materials that nanotechnology has come up with and learn about their properties, capabilities and industrial applications with a view to obtaining products with advanced properties. Research problem: Can the materials developed by nanotechnology be used in the field of products? What new features can nanotechnology add to products? How can new materials be used in the manufacture of advanced products? Do the new materials contribute to making products with new features and advantages? The aim of the research: to identify the new materials that nanotechnology has reached, to study the properties and capabilities of the materials created by nanotechnology, and the opportunities for their industrial application on some products, as well as to identify the new features that nanotechnology can add to products in addition to taking advantage of the materials developed by nanotechnology in Manufacture of products with advanced characteristics. Research Methodology: Use the descriptive analytical method: to describe and analyze the topic, problem, goals and results of the research. Research results: Reducing the size and dimensions of the granules that make up the structure of any material is not a goal or an end in itself but rather a way and a way to improve the different properties of materials and to produce new and updated materials. Mineral rubber is a novel material that combines the elasticity of rubber with the strength of the metal, combining the conductive properties of the metal with the malleability of the rubber. That there is a clear possibility to use mineral rubber in the manufacture of many advanced products that are characterized by innovative features such as light weight, portability, resistance to breakage and crash, as well as the three-dimensional plastic structure is a novel material that can be used to create various shapes and structures that can be folded, programmed, and reprogrammed, and the shape and size can also be changed. And the stiffness of those structures.
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