Quantitative analysis of microstructure and mechanical properties of Nb–V microalloyed high-strength seismic reinforcement with different Nb additions-Reference-Cited by-同舟云学术

Quantitative analysis of microstructure and mechanical properties of Nb–V microalloyed high-strength seismic reinforcement with different Nb additions

Published:2021-01-01 Issue:1 Volume:40 Page:300-309
ISSN:2191-0324
Container-title:High Temperature Materials and Processes
language:en
Short-container-title:

Author:

Huang Sheng¹,Li Changrong¹²,Li Zhiying¹,Zeng Zeyun¹,Zhai Yongqiang³,Wang Jie³,Liu Zhanlin³,Zhuang Changling¹

Affiliation:

1. College of Materials and Metallurgy, Guizhou University , Guiyang , Guizhou 550025 , China

2. Province Key Laboratory of Metallurgical and Process Energy Saving , Guiyang , Guizhou 550025 , China

3. Rolling Business Department, Shougang Shuicheng Steel , Liupanshui , Guizhou 553000 , China

Abstract

Abstract HRB500E seismic steel bars are mainly used in high-rise buildings near the seismic zone. The influence of different niobium contents (0–0.023%) on the microstructure and mechanical properties of HRB500E seismic reinforcement was studied. Results showed that the grain size of ferrite was between 3.6 and 8.3 μm when only V was added. Meanwhile, as the niobium content increases, the ferrite particles are further refined. After adding niobium, the grain contribution increased by 9%. The addition of niobium significantly refined the grain size of HRB500E seismic reinforcement. The second-phase nano-elliptic precipitate is NbC. The precipitated phase is dispersed on the grain boundary and the matrix, and the dislocation density on the matrix promotes the precipitation of NbC particles along the dislocation line. The second-phase precipitation of niobium can form an effective pinning effect and then refine the pearlite spacing. The microhardness and the tensile strength also significantly improved. The yield strength increased from 509 to 570 MPa.

Publisher

Walter de Gruyter GmbH

Subject

Physical and Theoretical Chemistry,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Link

https://www.degruyter.com/document/doi/10.1515/htmp-2021-0031/pdf

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