钢厂
硅钢连退机组无氧化炉加热能力计算
无氧化炉具有加热效率高、投资与运营成本低、作业率高、表面质量及板型良好、NOx排放相对低等优势,在硅钢热处理领域应用前景广泛。本文阐述了确定无氧化炉(NOF)加热能力详细过程,涵盖炉温、炉断面尺寸、炉长、热平衡结算、加热能力计算等,为今后无氧化炉(NOF)在硅钢热处理应用时的设计提供了借鉴,同时也为今后明火直接加热的工业炉设计提供了参考。 Non-oxidation furnace has the advantage s of high heating efficiency, low investment and operation cost, high operation rate, good surface quality and plate shape, and relatively low NOxemission,and it still has wide application prospect in the field of silicon steel heat treatment. The detailed process of determining the heating capacity of a non-oxidizing furnace(NOF) is described, covering furnace temperature, furnace section size, furnace length, heat balance settlement, heating capacity cal...
CN202011535787.3一种无取向硅钢低温无铬环保绝缘涂层立式干燥固化工艺
本发明提供一种无取向硅钢低温无铬环保绝缘涂层立式干燥固化工艺,冷轧无取向硅钢在镀锌机组经过退火后,通过涂层机涂覆低温无铬环保绝缘涂层,再经过立式干燥炉完成干燥固化,生产冷轧无取向硅钢产品。低温无铬环保绝缘涂层厚度0.8~1.0μm;立式干燥炉各段炉温:加热一段炉温420~450℃,加热二段炉温460~490℃,加热三段炉温500~530℃,加热三段出口板温200~240℃,冷却段出口板温60~65℃;立式干燥炉各段加热时间:加热一段、加热二段、加热三段的加热时间均为3.5~4s。采用本发明工艺不仅能保证钢带涂层均匀,使最终产品的涂层具有优异的绝缘性、耐蚀性、附着性、冲片性、焊接性和耐热性,满足下游工序要求,还可提高产品合格率,减少废品,保证生产顺行。
高效电机用无取向电工钢组织和析出物研究及产品开发
为开发高效电机用冷轧无取向电工钢,借助实验室薄板坯连铸连轧模拟设备及扫描电镜、透射电镜等检验手段研究了成分、组织、织构和析出物等对无取向电工钢磁性能的影响规律;结果表明:常化处理使组织均匀化并增加有利于磁性提高的织构组分;采用CSP流程开发的高效电机用无取向电工钢铁损平均值3.4 0 W/kg,磁感≥1.68 T。 In order to develop electrical steel for high efficiency motor,effect of components,microstructure,texture and precipitation on magnetic property of electrical steel are analyzed.From the result,normalizing treatment makes microstructure uniform and increases component of favorable texture.Iron loss of electrical steel developed by CSP line is 3.40W/kg and magnetic induction is more than 1.68T.
CN202110813181.X一种硅钢片测量装置
一种硅钢片测量装置,属变压器绝缘件生产技术领域,包括工作台、止动滑块、纵梁和测量部,止动滑块安装在工作台上,纵梁架设在止动滑块和工作台上,测量部安装在纵梁上。工作台包括台面、立柱和横向燕尾槽,四个立柱将台面支撑于地面,台面的下侧安装一个横向燕尾槽。止动滑块安装在横向燕尾槽内,止动滑块包括块体、推杆、楔块、挡片、弹簧和蘑菇头,块体横向具有通孔,通孔内安装推杆和弹簧,块体纵向具有一对侧槽,侧槽内安装楔块,通孔内具有一个凸台,凸台位于靠近蘑菇头的一侧,蘑菇头用于弹簧的限位。止动滑块上安装纵梁,纵梁包括滑板、纵向燕尾槽,滑板的一端安装在止动滑块上,滑板上具有纵向燕尾槽,纵向燕尾槽上安装测量部。
无取向硅钢夹杂物分析
采用非水溶液电解方法来提取无取向硅钢中夹杂物。通过扫描电镜(SEM)观察结果表明:无取向硅钢中主要夹杂物为六棱柱的AlN、不规则硅酸盐及球状的铁的硫化物和氧化物,其中AlN夹杂尺寸在1~5μm,数量较多,还有部分AlN的复合夹杂。进一步研究了AlN复合夹杂形成机理,采用了Thermo-Calc热力学计算软件计算出该钢样中AlN、MnS析出温度分别为1 240℃、1 200℃,而Al2O3析出温度大于1 800℃,从而为AlN复合夹杂形成机理提供了一个理论依据。 Extracting inclusions from non-oriented silicon steel in non-aqueous electrolysis is a nondestructive method to gain inclusions.Scanning electron microscopy shows that the main inclusions in non-oriented silicon steel were hexagonal AlN,which was of large quantity,irregular silicate,spherical iron sulfide and oxide.The size of AlN inclusions ranged from 1to 5μm,and there were some duplex inclusions of AlN.To further study the formation mechanism of AlN duplex inclusions,Thermo-Calc thermodynamic...
EB5325涂层液在冷轧无取向电工钢中的应用
介绍了EB5325涂层液的主要性能和中冶新材生产冷轧无取向电工钢所用的涂层设备,通过多次试验摸索出使用EB5325涂层液的工艺,对涂层出现的缺陷进行分析研究,并提出解决方法,使中冶新材生产的冷轧无取向电工钢的涂层质量满足了用户的要求。 This article introduces the main properties of EB5325 and the coating equipments for cold-rolled non-oriented electrical steel. A process using EB5325 coating liquid is made through many time experiments and exploration. The appeared defects in the coating are studied and analyzed,and the solutions are proposed. The coating quality meets clients’ requirements of cold rolled non-oriented electrical steel.
剪切方式对冷轧无取向硅钢边部磁畴的影响
为提高无取向硅钢导磁性能,研究了不同剪切方式对无取向硅钢剪切处磁畴结构的影响。利用纳米磁流体观测无取向硅钢剪切后边部磁畴结构。结果表明,硅钢无论在机械剪切还是线切割后的边部磁畴都会发生不同程度的改变:线切割对边部磁畴结构改变较小,边部磁畴分布均匀且连续,在距边缘0~20μm范围内出现磁畴宽度变小现象;机械剪切对磁畴的改变较为严重,剪切处磁畴零乱且不连续,在距边缘20μm处仍难以观察到完整的磁畴结构。 The effects of different shearing modes on magnetic domain structure of cold rolled non-oriented silicon steel are studied in this paper.The magnetic domain of cold rolled non-oriented silicon steel is observed by nanometer magnetic fluid pattern method.The results show that the edge magnetic domain structure will be changed by mechanical shear and wire-electrode cutting,the variation of edge magnetic domain structure wire-electrode cutting edge is very small,the magnetic domain structure is wel...
CN202111025419.9一种变压器硅钢片制造成型加工机械及加工方法
本发明涉及变压器硅钢片冲裁加工技术领域,具体涉及一种变压器硅钢片制造成型加工机械及加工方法,包括垫板、冲裁装置和进料装置,所述的垫板上安装有冲裁装置,冲裁装置上安装有进料装置;本发明可以解决变压器硅钢片在冲裁成型时存在的以下难题:一、在通过冲裁设备对变压器硅钢片进行冲裁作业时,由于变压器硅钢片大多没有进行稳定的定位作业,使得变压器硅钢片冲裁时产生偏差,降低了变压器硅钢片的冲裁质量,若使用定位机构进行定位处理,还会额外增加操作时间,降低了加工效率;二、需要人工进行送料作业,由于人工送料的间距难以控制,导致变压器硅钢片的冲裁位置发生偏差,造成变压器硅钢片的浪费。
常化和退火工艺对冷轧无取向硅钢高频磁性能和强度的影响
冷轧无取向硅钢(/%:0.003C,2.35Si,0.22Mn,0.011P,0.002S,0.36A1,0.003 0N)经890℃或940℃3 min常化的2.3 mm热轧板冷轧成0.35 mm薄板。研究了常化温度和800920℃3 min退火对该钢高频(400Hz)磁性能和抗拉强度的影响。结果表明,830920℃退火时高频铁损P10/400值最低,随退火温度增加,晶粒尺寸增大,钢的抗拉强度降低;该钢的最佳热处理工艺为常化温度940℃,退火温度830℃,其抗拉强度Rm、高频铁损P10/400和磁感应强度J50分别为565 MPa,21.5 W/kg和1.69 T。 The cold-rolled non-oriented silicon steel(/%:0.003C,2.35Si,0.22Mn,0.011P,0.002S,0.36A1,0.003 0N) is cold-rolled to 0.35 mm sheet from 2.3 mm hot-rolled plate normalized at 890 ℃ or 940℃ for 3 min.The effect of normalizing temperature and annealing process at 800 920 °C for 3 min on high frequency(400 Hz) magnetic properties and tensile strength of the steel has been tested and studied.Results show that with annealing at 830 920 ℃the high frequency iron loss value P10...
CN202111393833.5一种耐热型极低损耗取向硅钢及其制备方法
本发明提供的一种耐热型低损耗取向硅钢,取向硅钢的单面采用激光刻痕形成平行线状沟槽;所述激光刻痕为取向硅钢制备工艺中的渗氮步骤之后和在涂覆MgO涂层步骤之前实施;在渗氮步骤之后和在涂覆MgO涂层步骤之前进行激光刻痕加工不会破坏高温退火后形成的硅酸镁底层,底层完整性好,刻痕形成的沟槽位于取向硅钢带材金属基体表面,在高温退火过程中沟槽内直接反应生成硅酸镁底层,最终取向硅钢带材表面涂覆张应力涂层后光滑、平整、无凹凸,取向硅钢带材损耗低、叠片系数高、耐热,成品取向硅钢带材既可用于制备立体卷铁心变压器也可用于制备叠片铁心变压器。
CN202180034717.6方向性电磁钢板
本发明提供一种线状槽的形成图案,其兼得低装配系数化的效果和高磁通密度。在钢板的表面具有多个在横切该钢板的轧制方向的方向延伸的线状槽的方向性电磁钢板中,在上述线状槽相互间的上述钢板的表面形成从该表面凹陷的凹型缺陷,将上述钢板的上述凹型缺陷的体积分率相对于不存在该凹型缺陷的状态的钢板设为0.0025vol%~0.01vol%,以每1m2钢板为30个~200个的频率形成切断上述线状槽的上述延伸的中断部。
无取向硅钢晶粒长大过程中应力对织构和晶界变化的影响
采用EBSD技术研究了有、无拉应力作用下无取向硅钢在晶粒长大过程中织构转变及晶界变化的规律。结果表明:在晶粒生长期间,无应力作用下的硅钢中,{111}〈112〉,{111}〈110〉织构组分强化,而{100}〈001〉织构组分弱化;与无拉应力作用下的情况相比,施加5MPa的拉应力时,{111}〈112〉,{111}〈110〉织构组分强化的速率下降,{100}〈001〉织构组分变化不明显。对于在晶粒生长期间持续变化的{111}〈112〉,{111}〈110〉和{100}〈001〉织构组分而言,虽然有、无拉应力作用下硅钢的{111}〈112〉和{111}〈110〉织构组分的高取向差角度晶界频率均下降,而{100}〈001〉织构组分的高取向差角度晶界频率则上升,但当有拉应力作用后,{111}〈112〉和{111}〈110〉织构组分的高取向差角度晶界频率下降的速率变小,{100}〈001〉织构组分的高取向差角度晶界频率上升的速率稍有变小。通过对无取向硅钢在晶粒长大过程中织构转变及晶界变化规律的研究,分析了合金原子在晶界的偏聚行为。 The rules of texture and grain boundary transformation in the nonoriented silicon steel under applied stress or without applied stress during grain growth were investigated by EBSD.The results show that the {111}〈112〉 and {111}〈110〉 components in the nonoriented silicon steel without stress are strengthened during grain growth whereas {100}〈001〉 component is weakened,but the growth rate of {111}〈112〉 and {111}〈110〉 component decreases,while the area fraction of {100}〈001〉 component doesn’t chang...