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5. 10B28含硼冷镦钢结疤形成分析及控制实践

10B28含硼冷镦钢结疤形成分析及控制实践

来源 :特殊钢 | 被引量 : 0次 | 上传用户：w3244732447

【摘 要】

：

分析得出10B28钢结疤的主要原因是钢水N含量偏高,钢水中的Ti不足以完全固N,致使大量的细小的BN在晶界析出,铸坯在矫直过程形成裂纹,进而在轧制过程形成线材表面结疤.取样分析证实,精炼过程使用高N含量(4.6％)缓释脱氧剂造渣是钢水含N高的主要原因;使用铝粒替代缓释脱氧剂脱氧造渣,精炼过程增N量可由43.4×10-6降至11.4×10-6.通过将转炉出钢C由0.06％提高至≥0.08％、降低精炼前期加热功率、铝粒替代缓释脱氧剂造渣等措施,10B28钢N含量稳定控制在70×10-6以下,线材合格率由不足5

【作 者】

：

李智刚 和红杰 阎丽珍 

【机 构】

：

邢台钢铁有限责任公司炼钢厂,邢台054027

【出 处】

：

特殊钢

【发表日期】

：

2021年5期

【关键词】

：

冷镦钢10B28线材 结疤 N含量 缓释脱氧剂 

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分析得出10B28钢结疤的主要原因是钢水N含量偏高,钢水中的Ti不足以完全固N,致使大量的细小的BN在晶界析出,铸坯在矫直过程形成裂纹,进而在轧制过程形成线材表面结疤.取样分析证实,精炼过程使用高N含量(4.6％)缓释脱氧剂造渣是钢水含N高的主要原因;使用铝粒替代缓释脱氧剂脱氧造渣,精炼过程增N量可由43.4×10-6降至11.4×10-6.通过将转炉出钢C由0.06％提高至≥0.08％、降低精炼前期加热功率、铝粒替代缓释脱氧剂造渣等措施,10B28钢N含量稳定控制在70×10-6以下,线材合格率由不足50％提升至≥98％.

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