Elevated-Temperature Mechanical Properties of Φ13 mm Bar Forged from 70 mm Casting Slab of High Grade Non-Oriented Silicon Steel

花艳侠; 张晨; 马良; 荣哲; 项利; 仇圣桃

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Elevated-Temperature Mechanical Properties of Φ13 mm Bar Forged from 70 mm Casting Slab of High Grade Non-Oriented Silicon Steel

更新时间：2026-01-21

- Elevated-Temperature Mechanical Properties of Φ13 mm Bar Forged from 70 mm Casting Slab of High Grade Non-Oriented Silicon Steel
- Special Steel Vol. 36, Issue 1, Pages: 62-64(2015)
- 作者机构：
  
  1. 辽宁科技大学,鞍山,114000
  2. 钢铁研究总院连铸技术国家工程研究中心,北京,100081
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：28 August 2014，
  
  Online First：31 August 2022，
  
  Published：31 August 2015
- 稿件说明：
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花艳侠, 张晨, 马良, et al. Elevated-Temperature Mechanical Properties of Φ13 mm Bar Forged from 70 mm Casting Slab of High Grade Non-Oriented Silicon Steel[J]. Special Steel, 2015, 36(1): 62-64.
DOI：

花艳侠, 张晨, 马良, et al. Elevated-Temperature Mechanical Properties of Φ13 mm Bar Forged from 70 mm Casting Slab of High Grade Non-Oriented Silicon Steel[J]. Special Steel, 2015, 36(1): 62-64. DOI：

摘要

通过Gleeble-1500应力-应变热模拟试验机测试了由70 mm连铸坯锻成的Φ13 mm棒材的高牌号无取向硅钢(/%:0.002 7C

3.06Si

0.32Mn

0.013P

0.004S

0.50Al

0.002 7Ti

0.004 2 N)的高温(600~1 250℃)力学性能。结果表明

在应变速率为1×10

-3

-1

时

高牌号无取向硅钢中仅存在第Ⅰ脆性温度区(1 250℃至熔点)

第Ⅱ脆性温度区和第Ⅲ脆性温度区均未出现

主要原因是超低碳(≤50×10

-6

)、高硅(3%Si)致使硅钢凝固冷却过程中不经历α-γ-α相变

避免了固溶的硫、氧等元素以(Fe

Mn)O、(Fe

Mn)S、AI

等形式在奥氏体晶界沉淀和长大导致晶界强度降低

产生裂纹。

Abstract

The mechanical properties of Φ13 mm bar forged from 70 mm casting thin slab of high grade non-oriented silicon steel (/%: 0. 002 7C

3. 06Si

0. 32Mn

0. 013P

0. 004S

0. 50Al

0.002 7Ti

0.004 2N) at elevated temperature 600 ~ 1 250℃ are measured by Gleeble-1500 stress-strain thermal simulation machine. Results show that with strain rate 1 x 10

-3

-1

only I brittle zone (1 250 ℃ to melting point) exists in the high grade non-oriented silicon steel

and the II brittle zone and Ⅲ brittle zone are all of no-occurrence. The main cause is that the extra-low carbon content ( ≤50 X 10

-6

) and high silicon content (3%Si) in steel lead to no-course of α-γ-α phase transformation during silicon steel solidifying and

cooling process to avoid the sulfur

oxygen etc elements in solid solution status in forms of ( Fe

Mn) 0

(Fe

Mn)S and AI

precipitated and grown at austenite grain boundary resulting in the strength of grain boundary decreasing and the cracks occurring.

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