钢厂
CN202110201290.6一种批量稳定生产高牌号无取向电工钢的方法
本发明公开了一种批量稳定生产高牌号无取向电工钢的方法,包括以下步骤:开卷→加热→水套冷却→水雾冷却→水喷淋冷却→抛丸→酸洗→切边→卷取→使用单机架六辊轧机进行轧制成卷;该方法可实现高牌号无取向电工钢在六辊UCM轧机冷轧后无边裂产生,可将带钢板形值控制在‑5I~+5I,厚度精度控制在±3μm,该方法生产的高牌号无取向电工钢无板形及表面质量缺陷,产品质量良好,可实现高牌号无取向电工钢的批量稳定轧制。
CN202110081809.1一种硅锰镇静无取向硅钢冶炼方法
本发明提供一种硅锰镇静无取向硅钢冶炼方法。该无取向硅钢化学成分质量百分比为C≤0.005%,Si:0.25%‑1.20%,Mn:0.2%‑0.8%,P:0.015%‑0.065%,S≤0.005%,Als≤0.005%,余量为Fe及不可避免的杂质。其生产方法包括转炉出钢结束加石灰、渣面脱氧剂调渣;RH真空精炼脱碳结束后进行脱氧合金化,合金化后3‑5min由真空室料仓加入合成渣,处理一段时间后净循环8‑12min,破空出钢运至连铸浇注。得到钢水中主要为SiO2‑CaO‑Al2O3系夹杂,一方面避免了钢水中生成低熔点SiO2‑MnO系夹杂,轧制过程沿轧制向伸长,阻碍晶粒长大;另一方面也避免了生成纯SiO2或高SiO2组分类酸性夹杂,导致冶炼过程耐火材料的严重侵蚀。本发明可控制钢中非金属夹杂物类型,提高钢水洁净度,改善冶炼过程中对耐火材料的侵蚀。
CN202023335974.5一种方便更换硅钢卷的结构
本实用新型涉及硅钢开卷领域,具体涉及一种方便更换硅钢卷的结构,包括机架、支撑台、动力件、支撑块、支撑辊、第一挡环和第二挡环,动力件滑动设置于支撑台上,支撑辊与动力件连接,支撑辊的自由端与支撑块接触;第一挡环靠近支撑台且与支撑辊固定连接,第二挡环靠近支撑块且与支撑辊滑动连接,支撑辊沿其轴向设有键槽,第二挡环上固定有滑键,滑键滑动设置于键槽内;第二挡环上设有弧形通槽,机架上设有连接件,连接件能穿过弧形通槽与第二挡环固定连接。采用本技术方案时,有利于防止硅钢卷发生偏移,另外方便更换硅钢卷。
CN202023171001.2一种硅钢生产线退火炉前的换热装置
一种硅钢生产线退火炉前的换热装置,包含有抽风机(1)、立柱(2)、热交换器(3)、软管(4)和热风机(5);其特征在于:所述的热交换器(3)由若干组U形不锈钢管连接而成,一端固定在轴套(8)上,另一端通过链条(10)连接在立柱(2)顶端的链条盘(9)上,当链条盘(9)转动时,链条(10)拉动热交换器(3)绕着横轴(7)抬起或放下。本实用新型通过抽风机(1)将清洁空气抽到热交换器(3)内进行加热,然后再通过软管(4)将热空气输送到热风机(5)内来加热硅钢板(14),有效的利用了热能,避免了凝露导致的板面发蓝现象。
CN202011484475.4一种改善硅钢热轧板边部质量的加工方法
本发明属于硅钢制造技术领域,具体涉及一种改善硅钢热轧板边部质量的加工方法,包括:连铸、铸坯预变形处理、铸坯加热处理和热轧处理;其中,所述铸坯预变形处理包括:在所述铸坯的温度为500~900℃下,对所述铸坯的沿长度方向的两侧壁通过立辊施加压力,直至形变量h为10~50mm;所述铸坯加热处理的加热温度为1100~1200℃,保温时间为4~6h。本发明提供的改善硅钢热轧板边部质量的加工方法,采用铸坯两侧壁的侧压工艺,有效解决了热轧板边部裂纹的缺陷,提高了边部塑性,提高了成材率并降低了生产成本。
云边一体化系统架构下硅钢制造管理业务数字化融合应用
提出以“云边一体化架构”构建硅钢智慧决策系统,来解决原硅钢制造L1~L5系统架构模式下的数字信息孤岛、业务功能割裂等问题。在此基础上,开发了云边协同的自学习型控制模型及业务决策模型,构建起硅钢“智慧大脑”,形成了以研发、制造、服务等核心业务数字化融合的智能化决策支持新模式,探索出一条钢铁制造业数字化、智能化转型之路。 SIDS(Silicon-steel Intelligent Decision-making System)based on \"cloud-edge integration architecture\" was proposed to solve the problems of data silos and business function fragmentation in the original L1~L5 system architecture.On this basis,the self-learning control model and decision-making model of cloud-edge collaboration were developed,the \"smart brain\" of silicon steel department was constructed,and a new intelligent decision-making support model of digital integration of core businesses s...
新能源车驱动电机用电工钢用量解析计算及预测方法
对新能源汽车以及驱动电机的现有市场和未来市场规模进行梳理分析,通过自建计算公式推导出我国2021年1-11月份驱动电机用电工钢的总量,进而预测未来10年中国新能源汽车驱动电机用电工钢情况,为无取向电工钢的生产和在电机中的应用提供有价值的参考。 The current market and future market size of new energy vehicles and traction motors were analyzed,and the total amount of electrical steels used in traction motors in China from January to November 2021 was derived by using self-built calculation formulas,and then the situation in the next ten years of electrical steel used in traction motors of new energy vehicles in China was predicted.It will provide a valuable reference for the production of non-grain oriented electrical steel and its appli...
热轧加热时间对稀土取向硅钢抑制剂固溶行为的影响
借助OM、激光共聚焦显微镜、质谱仪和电解萃取等设备和方法,研究了添加微量稀土La(质量分数0.001 1%)的取向硅钢在轧制前采用不同加热保温时间对抑制剂固溶行为的影响。结果表明:当稀土取向硅钢在1 250℃分别保温10、20、30 min后,试验钢晶粒尺寸随保温时间延长有先快后慢的长大趋势;三种抑制剂元素Mn、Cu和Al均发生固溶,保温时间对Mn和Cu两种元素的固溶影响明显,固溶量分别由69.8%和43.7%增加至84.2%和85.2%;随着保温时间的延长,稀土取向硅钢中抑制剂的小尺寸未溶物逐渐减少直至消失,较大尺寸未溶物(300~600 nm)逐渐转变为小尺寸未溶物逐步溶入基体中,数量减少且未溶物的类型由复杂逐渐转变为单一。 In this paper the solid solution behavior of the inhibitor under various holding time in 0.001 1 %La oriented silicon steel during reheating had been investigated by using OM, LM, methods of electrolytic extraction and mass spectrometer. The results showed that grain size of the test steel increased significantly with the holding time prolonging when the rare earth oriented silicon steel was heated to1 250 ℃ and held for 10, 20 min and 30 min respectively, and the growth trend slowed down after ...
本钢热轧厂无取向硅钢生产工艺
冷轧无取向硅钢是高技术含量、高附加值产品,工艺复杂,生产周期长,过程控制难度大,被誉为钢铁产品中的\"工艺品\"。热轧生产工艺又是无取向硅钢生产的重中之重,直接决定了硅钢的铁损和电磁性等多项指标。 Cold rolled non-oriented silicon steel is high technology content、high addedvalue product. Its process is complex, Its production cycle is of Length, and Its Process control is difficult. Which is known as the iron and steel products \" Arts and crafts\". Hot rolling production process is the top priority of non-oriented silicon steel, Which Directly determines iron loss of the silicon steel and electromagnetic property, etc many index.
无铬无取向硅钢涂层烧结固化工艺
为进行磷酸盐系无铬无取向硅钢涂层烧结固化工艺研究,首先对磷酸盐系无铬无取向硅钢涂层进行热重-差示扫描量热(TG-DSC)分析;然后在不同烧结固化温度条件下,测定涂层板温随时间变化曲线;最终获得涂层烧结固化温度与时间(T-t)工艺曲线。通过中性盐雾试验、动电位极化、交流阻抗、涂层附着力以及扫描电子显微镜(SEM)和能谱(EDS)分析验证。结果表明,根据涂层烧结固化温度与时间(T-t)工艺曲线制备的涂层结构致密、性能优异,证明该工艺曲线具有合理性与正确性。 In order to study the curing process of chromium-free non-oriented silicon steel coatings,phosphatic chromium-free non-oriented silicon steel insulating coating was prepared and TG-DSC analysis of the coating was conducted,then the change of the actual temperature of the coated non-oriented silicon steel sheet with time at different curing temperatures was studied. Based on the experiments,the processing curves of curing temperature vs. curing time( T-t) for the chromium-free non-oriented silico...
热轧工艺对TSCR流程生产取向硅钢组织和性能的影响
取向硅钢热轧板中组织、织构梯度对发展完善的二次再结晶十分关键,通过对2种不同热轧工艺生产取向硅钢的组织、织构进行研究,结果表明:采用后道次大压下热轧工艺时热轧板表层再结区晶粒平均尺寸增加,再结晶区厚度增加,高温退火后二次晶粒尺寸减小;采用后道次大压下热轧工艺热轧时,热轧板中平均等效应变高,热轧板厚度心部{100}〈011〉和{100}〈001〉位向取向强度降低,({111}~{113})〈110〉位向取向强度提高,高温退火后{110}〈001〉位向偏离角降低,磁性能提高。 The texture and microstructure gradient in hot rolled grain oriented silicon steel strip was one of the essential factors to achieve a perfect secondary recrystallization.The texture and microstructure of grain oriented silicon steel strip as-rolled with two different hot rolling parameters was investigated.The results show that with big reduction at the end rolling process,the intensity of {100}〈011〉 and {100}〈001〉 orientation reduces with({111}-{113})〈110〉 orientation intensity enhanced in hot...
退火温度对双辊连铸无取向硅钢组织的影响
利用光学显微镜、TEM和EBSD研究了退火温度对双辊连铸无取向硅钢再结晶组织的影响。结果表明,900℃退火后组织分布不均匀,有大量带状组织,平均晶粒尺寸29.5μm。提高退火温度,晶粒尺寸增大,组织均匀化程度增加,1050℃退火时,带状组织基本消失,平均晶粒尺寸42.2μm。 Effect of annealing temperature on recrystallization microstructure of non-oriented electrical steel produced by twin-roll casting process was investigated using OM,TEM and EBSD.The results show that the recrystallization microstructure is uneven because of many banded grains existing,average grain size is 29.5 μm.With annealing temperature increasing,the recrystallization grain size increases,microstructure becomes more homogeneous.When 1050 ℃ annealing,the banded structure almost disappear and...