Application of empirical electron theory of solids and molecules to composition design of multi-component medium-low-alloy steels |
| |
Authors: | Juyan Shi Guisheng Xie |
| |
Affiliation: | 1. College of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan, 030024, China 2. Technology Research Institute, CNR Yongji Xinshisu Electric Equipment Co., Ltd., Yongji, 044502, China
|
| |
Abstract: | For austenitic octahedral segregation structure units, their pure mathematics statistic distributive probability is calculated by the empirical electron theory (EET) of solids and molecules and K-B formula. The practical distributive probability can be obtained only if the statistic distribution of austenitic octahedral segregation structure units and the interaction of the alloying elements in steel are considered. Based on 8 groups of experimental data of original steels, three empirical formulas revealing relationships between material macromechanics factor (S m) and tensile strength (σ b), or impact energy (A K), or hardness (HRC) of multi-component medium-low-alloy steels were established, respectively. Through the three empirical formulas, new supersaturated carburizing steel has been successfully designed and developed. The other 2 groups of the original experimental steels are used as the standard steel for testing the percentage error of the new steel. The results show that the calculated values are well consistent with those of measured ones and the new supersaturated carburized steel can meet the requirements of the die assembly of cold-drawn seamless stainless steel tube of Taiyuan Iron & Steel (Group) Company LTD. |
| |
Keywords: | supersaturated carburizing steel composition design microstructure empirical electron theory mechanical property |
本文献已被 CNKI SpringerLink 等数据库收录! |
|