钢厂
TSCR热轧工艺对3.2%Si无取向硅钢组织性能的影响
研究了薄板坯连铸连轧流程(TSCR)条件下热轧工艺对3.2%Si-0.7%Al无取向硅钢组织、织构演变及磁性能的影响规律。结果表明,提高均热温度和热轧温度有助于获得粗大的变形组织和强烈的{001}〈110〉织构,进而对后续的组织、织构演变进程及磁性能产生有利的遗传影响。与低温均热和低温热轧相比,高温均热和高温热轧得到的最终成品板的再结晶晶粒较粗大,λ纤维再结晶织构较强而γ纤维再结晶织构较弱,磁感应强度较高。 It was investigated that the effects of thin slab cast rolling(TSCR) hot rolling processes on microstructural,textural evolution and magnetic properties of 3.2%Si-0.7%Al non-oriented silicon steel.The results show that much larger hot rolling deformed microstructure and much stronger {001}〈110〉 texture could be obtained by increasing the soaking and hot rolling temperatures,which had good heritable effects on subsequent microstructural,textural evolution and magnetic properties.The final sheets ...
CN202110668588.8一种轧制高牌号硅钢焊缝免冲孔的方法
本发明涉及电力、冶金领域,尤其涉及一种轧制高牌号硅钢焊缝免冲孔的方法。一种轧制高牌号硅钢焊缝免冲孔的方法,包括如下步骤:步骤一:“一选”,步骤二:“二看”,步骤三:“三按”,步骤四:“四调整”。本发明的有益效果是:1、满足测量精度要求,符合工艺要求,为连轧机硅钢的生产提供了强大的技术保障。2、该方案采用低成本设计,运行稳定性较高,测量精度达标,如推广使用,将为使用单位节省大量设备费用,符合降本增效的原则,具有较大推广价值。
RH精炼工艺对无取向硅钢MgO·Al_2O_3夹杂物演变影响及控制
基于BOF→RH→CSP生产工艺,研究了RH精炼过程钢中夹杂物类型演变及MgO·Al2O3夹杂物形成规律,同时对MgO·Al2O3夹杂物的形成条件进行了热力学计算,借助CFD数值模拟软件研究了RH精炼过程卷渣行为。研究发现,RH精炼过程20和30 min时,w([MgO])/w([Al2O3])为0.005~0.020,未发现MgO·Al2O3夹杂物;RH出站后夹杂物w([MgO])/w([Al2O3])为0.3~0.5,且RH精炼结束后MgO·Al2O3夹杂物占夹杂物总量的58.4%;另外,RH精炼过程钢液表面速度CFD模拟结果为0.57 m/s,大于临界卷渣速度0.45 m/s,且顶渣成分与夹杂物成分相近,存在卷渣现象。热力学计算表明,钢液与炉渣平衡时钢中w([Al])为0.31%~0.37%,w([Mg])为0.00024%~0.00028%,在MgO·Al2O3生成区域之内。减少RH处理过程卷渣,浇铸过程下渣及控制顶渣和包衬相中MgO质量分数可抑制MgO·Al2O3夹杂物形成。 Based on the practical production of non-oriented silicon steel, the evolution of inclusion type and the formation of MgO·Al2O3inclusion were analyzed in the process of BOF→RH→CSP. The thermodynamic conditions for forming MgO·Al2O3inclusion were discussed and the behavior of slag entrapment of molten steel was also simulated by CFD software during RH refining. The results showed that the value of w([MgO])/w([Al2O3]) was in the range of 0.005-0.020 and no MgO · Al2O3 inclusion was observed at 20 ...
CN202111389801.8一种硅钢级氧化镁制备方法、硅钢级氧化镁保护膜
本发明公开一种硅钢级氧化镁制备方法、硅钢级氧化镁保护膜,涉及氧化镁制备技术领域。将得到的粗氧化镁产品进行净化处理;将净化处理后的粗氧化镁产品与金属镁碳还原剂,在真空状态下,利用真空碳热还原技术进行金属镁的置换,制得金属镁;金属镁碳还原剂与粗氧化镁产品的质量比为(1~1.5):1;制得的金属镁在纯氧下制得氧化镁;将制得氧化镁根据实际需求获得不同粒径硅钢级氧化镁颗粒。本发明产品各项指标优于企业标准的硅钢级氧化镁。而且不会受原料中含有的钙等杂质的影响,产品纯度很容易达标,同时,还存在能耗较低、生产成本低等优点,解决了业在降低能耗方面的突破可应用于工业化生产。
CN202110876530.2取向硅钢极薄带的工业连续化生产方法
本发明公开了一种取向硅钢极薄带的工业连续化生产方法,包括异步轧制、脱脂、热处理、急速冷却、涂绝缘层、烘干烧结、卷带收集各工序;其中,异步轧制中使用异步比为1:1.05~1:1.24;脱脂、热处理、急速冷却、涂绝缘层、烘干烧结、卷带收集工序为连续化生产工艺;热处理工序中,第一步为预热,预热温度为500℃~700℃,预热时间4秒~120秒;第二步为相变热处理,相变热处理温度为820℃~920℃,相变加热时间100秒~600秒;急速冷却工序中,钢带30秒内降温到350℃以下。优点在于:实现工业化连续生产取向硅钢极薄带,有效提高产能,生产的取向硅钢极薄带制备高磁感、低铁损等磁性能。
CSP流程热轧板常化温度对冷轧无取向电工钢退火组织和磁性能的影响
研究了CSP工艺生产≤0.005%C-1.1%Si的2.2mm无取向电工钢热轧板在800~1000℃常化对0.5mm冷轧板840℃退火后组织和磁性能的影响。结果表明,热轧板常化温度升高,冷轧板退火后的再结晶晶粒增大,铁损降低,磁感增加;热轧板常化温度超过900℃,因第二相固溶而后弥散析出,退火后冷轧晶粒细化,铁损增加,因此该无取向电工钢热轧板最佳常化温度为900℃。 The effect of normalizing at 800-1000℃ of CSP produced plate(≤0.005%C-1.1%Si) on the microstructure and magnetic properties of downstream cold-rolled non-oriented electrical steel annealed at 840℃ was studied.Results show that with increasing normalizing temperature of hot-rolled material the recrystallized grain size of annealed sheet increases,iron loss reduced and magnetic induction increases.As normalizing temperature excesses 900℃,grain is refined and iron loss increases after annealing due...
CN202110254375.0一种预判取向硅钢冷轧脆断发生的方法
本发明提出一种预判取向硅钢冷轧脆断发生的方法,将酸洗带头20‑30cm进行剪切取样,在取到的样板上面注明工作侧和传动侧;将取好的样板送至焊缝检测冲压机处,通过冲压机对样板进行冲压,根据不同钢带厚度,设定不同冲孔机压力,对样板进行冲压后,通过观察裂纹形貌,预判常化卷在冷轧轧制过程中是否会发生脆断,本发明使带钢在冷轧前能够制定相应的对策措施,从而降低冷轧断带所产生的损失。
取向硅钢超大高斯晶粒取向偏离角的X射线衍射测量
介绍了一种适用于超大晶粒取向硅钢的高斯晶粒取向偏离角的X射线衍射测量方法,提出了将试探法和探测器扫描法相结合的方式进行测量。结果表明:该方法可以同时获得准确的实际衍射角度和取向偏离角度,试样制备方式简单,对设备的要求低且测量结果准确。 This paper introduces a X-ray diffraction measurement method of Gaussian grain orientation deviation angle for ultra-large grain oriented silicon steel, and puts forward a method of combining the test method with the detector scanning. The results show that this method can obtain accurate actual diffraction angle and orientation deviation angle at the same time. The sample preparation method is simple, the requirements for equipment are low, and the measurement results are accurate.
基于人工神经网络-遗传算法的取向硅钢刻痕工艺优化
为了优化激光刻痕降低取向硅钢铁损的工艺,寻找刻痕速度、脉冲能量、扫描间距等重要刻痕参数的最佳匹配关系,提出了一种基于人工神经网络与遗传算法的优化模型,并利用这种模型对30Q130取向硅钢材料的刻痕工艺进行了优化实验,结果表明,这种模型稳定可靠,可以作为取向硅钢刻痕工艺优化的一种有效的措施。 A laser is often considered to scribe the grain-oriented silicon steel surfaces after cold-rolling and annealing to reduce the core loss.It is necessary to select the best scribing parameters to maximize the reduction in this process.This paper proposes an optimization method of genetic algorithm during laser scribing of 30Q130 steel,by developing an artificial neural network prediction model using a database form a designed orthogonal experiment.The objective is to determine the best combinatio...
CN202111062928.9一种适合冷连轧的高效变频压缩机用无取向硅钢及生产方法
一种适合冷连轧的高效变频压缩机用无取向硅钢,其化学成分及wt%为:C:≤0.0025%、Si:2.4~2.8%、Mn:0.35~0.65%、Al:0.5~0.8%、S:≤0.0020%、N:≤0.0025%、P:≤0.03%、Sb或Sn:0.03~0.08%;生产方法:冶炼浇注;对铸坯加热;粗轧;精轧;卷取;常化;经酸洗后冷连轧;退火;涂敷及精整。本发明产品性能既保证产品磁性能又提高生产效率、提高成材率和降低生产成本的效果,五机架连轧机只需要一次轧过即可,且连轧机相比单机架轧机减少了来回轧制的带头带尾切废量,因而可提高成材率,生产效率和成材率提高,自然降低生产成本。
新日铁高强度无取向电工钢的研究进展
针对新日铁公开的相关专利,总结日本高强度无取向电工钢的研究进展,分析了各专利化学成分、生产工艺及产品性能的特点,指出固溶强化、细晶强化、析出强化、位错强化都有可能被用来提高无取向电工钢的强度。在高强度无取向电工钢的研发过程中,需要根据其具体用途确定目标性能,再采用合适的强化手段,从而实现力学性能、磁性能和生产性能之间的平衡。 Authors summarize the research progress of high strength non-oriented electrical steel in Japan by learning related patents brought into the public by Nippon Steel. Authors also analyze the characteristics of the chemical composition, production technology and properties of products in the patents and point out that any ones of solution strengthening method, fine-grain strengthening method, precipitation strengthening method or dislocations strengthening method may be used to improve the strengt...