Reference Data and Multi-Factorial Methods for Development of Modern Materials

Abstract

3D-models describe the basic factors used in the recognition and classification of data necessary for the understanding of the structure and for development of cutting-edge materials, and also for choosing the optimal methods to process them. A multi-factorial approach is used to describe the states of multi-component materials and the principle of inheritance of properties of elements connected with empirical relationships specific for the choice of alloying elements for each industry sector. Examples are given of test measurements of the characteristics of the structure and properties of elements used in key materials of modern technologies, as well as some compounds based on them. High accuracy data ensure the evaluation and consistency of results from various sources and, consequently, reliability of data in the tables, attested as the Standard Reference Data, which can be used during the development of materials and as normative documents to accelerate the transfer of knowledge directly into technology. Along with the empirical relationships and scientific principles, these SRD tables also support the development of modern integrated databases. The recommended values of characteristics derived from high-precision databases with enhanced reliability of information enables more efficient transfer of knowledge into technological processes. They help realize this much quicker by reducing the volume and time for the testing of advanced materials and products used in innovative technologies.