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。     

铸辗成形环坯热压缩过程中晶粒的取向和织构演变

在不同变形温度和应变速率为0.1 s-1条件下研究了砂型铸造和离心铸造Q235B环坯的热压缩变形行为,并使用电子背散射衍射(EBSD)技术分析其晶粒取向和织构的演化特点。结果表明:Q235B环坯的晶粒在1000℃尺寸较小,有少量仍保持铸造状态的晶粒,组织演变的机理为动态回复和大应变几何动态再结晶;离心铸造环坯中有22%集中在20°-50°的大角度晶界。在1100℃再结晶充分,晶粒趋于等轴状;晶界取向差分布仍呈现典型的双峰特征,大角度晶界的比例为60%-75%。在1000℃砂型铸造Q235B的织构组态,为少量沿着001//ND取向线分布的{001}100立方织构和{001}110织构;在1100℃主要是高斯织构{110}001和沿着110//ND向{110}001方向移动并聚集的旋转立方织构{110}110。在1000℃离心铸造环坯的织构组态为旋转立方织构{110}110和铜型织构{112}111,Copper织构沿着ε-取向线分布;在1100℃主要为{001}110织构和沿着γ取向线由黄铜R{111}112向{111}110转变的织构,再结晶的程度高,取向密度大。     

TeO2晶体位错腐蚀形貌与晶体对称性

用化学腐蚀的方法研究TeO2晶体(110)面和(001)面位错蚀坑的形貌，结合晶面极图，并运用对称群理论进行分析论证，理论分析与实验结果相一致．实验结果同时显示，TeO2晶体位错腐蚀坑面由{110}面族构成，即{110}面族是晶体的习性面．     

GH4169合金楔横轧加工过程中动态再结晶及织构演变

为研究GH4169合金楔横轧加工过程中动态再结晶及织构演变规律,采用金相显微镜(OM)和电子背散射衍射(EBSD)对30%,50%两种断面收缩率下GH4169合金楔横轧件表层与心部的微观组织、晶体取向及织构进行分析。结果表明:GH4169合金楔横轧加工过程中,随着动态再结晶的发生,晶体取向逐渐变得随机化分布;轧制表层大角度晶界数量较轧件心部多,轧件表层织构强度变化不大,心部织构强度明显增强;经过楔横轧变形后织构发生转动,原始态织构类型为{001}〈110〉,{111}〈110〉,{111}〈011〉,轧制后主要织构类型为{001}〈010〉,{112}〈110〉,{110}〈111〉,{110}〈112〉;GH4169合金楔横轧件动态再结晶及织构演变规律是由楔横轧特殊变形特点决定的。     

初始凝固组织对Cr17表面皱折的影响机制

研究了Cr17铁素体不锈钢的初始凝同组织对与皱折特性相关的晶粒簇演变的影响和对冷轧退火板铍折的影响机制.结果表明:1.柱状晶和等轴晶铸坯在轧制和退火过程中其晶粒簇演变是不同的;2.等轴晶铸坯的冷轧退火试样比柱状晶铸坯的冷轧退火试样具有更少的{001}<110>晶粒簇和更多的{111}<112>晶粒簇;3.两种铸坯冷轧退火试佯皱折特性的差异归因于两者的{001}<110>、{111}<112>晶粒簇数量和分布的不同,而与{001}<010>、{111}<110>、{112}<110>晶粒簇无关.     

残余碳对取向硅钢初次和二次再结晶的影响

研究了脱碳退火样品中的残余碳对取向硅钢初次和二次再结晶的组织和磁性能的影响。结果表明：随着脱碳退火样品中残余碳含量的提高,初次再结晶的平均晶粒尺寸减小,表层和中心层的晶粒尺寸差增大;初次再结晶的强{111}<110>或{111}<112>织构向强{112}<110>织构转变,部分1/4层的Goss晶粒或{111}<112>晶粒转变为其他取向的晶粒;残余碳含量超过0.0200%后,高温退火样品二次再结晶不完善,磁性能较差。相变是导致上述现象的主要原因。     

薄规格取向硅钢中晶粒取向和尺寸对Goss晶粒异常长大的影响

利用EBSD技术统计了薄规格取向硅钢片中初次再结晶和二次再结晶前期组织中{411}〈148〉、{111}〈112〉、{100}〈025〉取向晶粒尺寸分布,分析了三种不同取向的晶粒对Goss晶粒异常长大的影响。结果表明:初次再结晶组织中不同的取向晶粒对应的平均晶粒尺寸(d)存在差异,{411}〈148〉取向晶粒的平均尺寸最大,其次为{100}〈025〉取向晶粒,{111}〈112〉取向晶粒的平均尺寸最小。Goss取向晶粒异常长大的过程中优先吞噬{111}〈112〉取向晶粒,其次是{411}〈148〉取向晶粒,最后是近{100}〈025〉取向晶粒和近黄铜取向晶粒。{111}〈112〉、{411}〈148〉取向晶粒对Goss取向晶粒异常长大的影响主要体现在二次再结晶的前期。因此,可以推断取向硅钢中最终残留的"岛晶"可能来源于近黄铜取向晶粒或近{100}〈025〉取向晶粒。     

升温速率对冷轧超薄取向硅钢再结晶行为的影响

利用EBSD技术对比分析了升温速率对冷轧超薄取向硅钢再结晶行为的影响.结果表明,冷轧超薄带中再结晶形核位置、再结晶织构类型受升温速率的影响不大,主要取决于形变组织;剪切带、{111}〈112〉取向晶粒晶界、形变带和形变不均匀区均为再结晶的形核位置,剪切带的再结晶形核优势更为明显;再结晶晶粒取向以Goss({110}〈001〉)取向为主,同时存在{210}〈001〉、{310}〈001〉以及一定比例的杂乱取向.然而,升温速率显著影响Goss织构的强度及退火样品的组织均匀性;慢速升温条件下,Goss织构比例和锋锐度降低,说明回复导致不同织构的形变组织储存能差异减小,降低了Goss取向的形核优势;快速升温条件下,剪切带内的Goss晶核具有更大的形核优势,吞并临近的形变组织完成再结晶,形成更强和锋锐的Goss织构.此外,快速升温可提高再结晶完成后的组织均匀性、降低平均晶粒尺寸.     

超薄取向硅钢组织及织构与磁性能的关系

本工作旨在探讨超薄取向硅钢组织及织构与磁性能的关系,并从加工工艺角度揭示如何减少不利于磁性能的组织和织构的产生。利用电子背散射衍射(EBSD)技术和X射线衍射(XRD)技术对两种磁性能不同的商业超薄取向硅钢带材的显微组织和织构进行对比分析,结果发现,二者组织、织构差异均比较明显。磁性能差的带材样品的组织尺寸不一,均匀性较差,η线织构(〈100〉//RD)所占比例偏低,非η线取向晶粒所占比例高且晶粒尺寸大,其取向特征主要表现为{210}〈001〉、{411}〈148〉及{111}〈110〉。这些不利组织的产生可能与轧制、退火工艺控制不当有关。因此,晶粒尺寸及η线取向晶粒所占比例的不同是造成两种带材性能差异的主要原因,在高性能取向硅钢超薄带材制备过程中,应精准控制轧制、退火制度等相关工艺,以避免非η线取向晶粒形成、长大。     

轧制温度对双辊铸轧硅钢形变与再结晶织构的影响

采用宏微观织构分析相结合的方法,研究了轧制温度对双辊铸轧Fe-2.8%Si-0.8%Al硅钢形变与再结晶织构的影响。室温和200℃轧制样品形变织构均由α(〈110〉∥RD)、γ(〈111〉∥ND)和λ(〈001〉∥ND)纤维织构组成,但200℃轧制显著减弱α、λ形变织构,增强γ形变织构特别是1/4层的{111}〈110〉织构。200℃轧制时,剪切带数量增多、储能增强,从而促进了Goss({110}〈001〉)、Cube({001}〈100〉)再结晶晶粒分别在γ和{111}〈110〉形变基体剪切带的大量形核,γ再结晶晶粒在晶界少量形核以及Goss和Cube再结晶晶粒的增多,有效抑制了γ织构。λ织构的变化由Cube和{001}〈110〉的变化共同决定,在1/4层,Cube织构显著增强导致λ织构的增强;在中心层,Cube略微增强而{001}〈110〉显著减弱导致λ织构的减弱。     

3%Si电工钢铸坯中柱状晶的形变、再结晶行为及织构演变规律

利用电子背散射衍射(EBSD)技术和X射线衍射仪(XRD)研究3%(质量分数)Si电工钢铸坯中柱状晶的形变、再结晶行为及织构演变规律。结果表明:柱状晶长轴分别沿轧向、横向和法向放置,具有不同的初始织构。热轧后,表层形成的3种剪切取向中高斯取向较容易形成。中心区,RD样品中的α和γ线轧制取向,TD样品中的强γ线取向,ND样品中的强{100}取向以及各样品中的立方取向,均表现出明显的初始取向依赖性。冷轧后,RD,TD样品中的强{111}〈112〉取向来自热轧板中的高斯取向,ND样品中的强旋转立方取向遗传自初始{100}取向。受初始取向偏差及大晶粒尺寸影响,ND样品中的旋转立方取向晶粒内取向梯度较大。退火后,样品中心大尺寸的{100}取向晶粒是柱状晶初始取向遗传性的表现。     

硅酸铋晶体的蚀像形貌

本文研究了提拉法生长的硅酸铋晶体(BSO)的蚀像形貌,比较了{100},{110},{211},{111}面族的腐蚀像特征和腐蚀速度,并用周期性键链(PBC)的形貌理论分析了腐蚀形貌。通过蚀像形貌特征便可方便地进行晶体定向,准确地确定各族晶面之间的相对位置和极轴的方向等。     

The calculation of magnetic induction in grain orientated ultra-thin silicon steel sheets

In this work the magnetic induction in grain orientated ultra-thin silicon steel sheets (with a thickness of 0.08 mm) was calculated by employing the crystal orientation distribution function and the formula for the anisotropy of energy for a single crystal of cubic symmetry. The incomplete pole figures of {110}, {200} and {112} were measured and the corresponding orientation distribution function was determined. On the basis of the texture data and the corresponding magnetic anisotropy energy, the magnetic induction in the ultra-thin silicon steel sheet was calculated. The calculation results are in good agreement with the experimental measurement.     

IF钢铁素体区热轧和退火过程中织构的演变

研究了一种Ti—IF（Interstitial—free）钢在铁素体区热轧和退火过程中织构的变化．由于轧制过程摩擦的影响,热轧织构和退火织构在厚度方向上都有很大的差异．在钢板的表层,热轧织构的主要组分是{110}（001）,退火后表层的铁素体晶粒没有发生再结晶,该组分转变为（001）（110）;在试样的中心和1／4面,热轧织构组分主要是较弱的（111）／／ND（板法向）织构和部分（110）／／RD且在{001}（110）处最强;退火后中心面上的晶粒发生了完全再结晶,{001}组分转变为（111）／／ND组分使（111）／／ND织构成为唯一织构组分且在{111}（112）处最强．     

Significant effect of as-cast microstructure on texture evolution and magnetic properties of strip cast non-oriented silicon steel

In this study, two types of as-cast microstructure produced by strip casting were cold rolled and annealed to investigate the effect of initial microstructure on the textural evolution and magnetic properties of non-oriented silicon steel. The results indicated that the cold-rolled sheets of coarse-grained strip with pronounced {100} components exhibited stronger λ fiber (〈100〉//ND) and weaker γ fiber (〈111〉//ND) texture as composed to the fine-grained strip with strong Goss ({110}〈001〉) texture. After annealing, the former was dominated by η fiber (〈001〉//RD) texture with a peak at {110}〈001〉 orientation, while the latter consisted of strong {111}〈112〉 and relatively weak {110}〈001〉 texture. In addition, a number of precipitates of size ～30–150?nm restricted the grain growth during annealing, resulting in recrystallization of grain size of ～46?μm in the coarse-grained specimen and ～41?μm in the fine-grained specimen. Ultimately, higher magnetic induction (～1.72?T) and lower core loss (～4.04?W/kg) were obtained in the final annealed sheets of coarse-grained strip with strong {100} texture.     

EBSD Investigation on Oriented Nucleation in IF Steels

The mechanism responsible for the formation of recrystallization texture in cold-rolled Ti bearing interstitial free （IF） steel sheets was investigated using electron back-scatter diffraction （EBSD）. In addition, the origin of nuclei with specific orientations was studied. The formation of recrystallization texture was explained by oriented nucleation. Most nuclei have a high misorientation angle of 25-55° with the surrounding deformed matrices, but no specific orientation of misorientation axis between the nucleus and the surrounding deformed matrix is observed. The stored energy of deformed grains is in the decreasing order of the {111}〈112〉,{111}〈110〉, {112}〈110〉 and {001}〈110〉 orientations. New {111}〈110〉 grains are nucleated within deformed {111}〈112〉 grains and new {111}〈112〉 grains originate in the deformed {111}〈110〉 grains.     

Research on Deformation, Texture and Properties of IF Steel in Multiple Rolling Technology

The relationships among the deformation, texture and deep drawing properties of IF steel were investigated. By adopting double cold rolling (DCR) technology, the deep drawing property has been developed evidently. With the aid of orientation distribution function (ODF) analysis, it was found that he main reason for good property is the counterbalance in intensity of the ideal texture component {111} < 011 > and {111} < 112 >.     

Texture evolution during inclined cold rolling of used non-oriented silicon steel

With the objective of optimizing the texture components and exploring a method to improve the magnetic properties of used silicon steel, the methods of one inclined rolling and two inclined rolling were applied. The result shows: the new Goss grains were nucleated except at {111} deformed grains, and also formed at the grain boundary between two deformed grains with {113} orientation, and at grains boundaries between {113} and {100} deformed grain. The grain size after one inclined rolling (57 %) was larger and more homogeneous than the grain size after the two inclined rolling. Although with different cold rolling methods (one and two inclined rolling), the resulted annealing textures all had similar features. The difference was the relative intensities between the main texture. A significant feature of one inclined rolling was the intensification of the η-fiber and the Goss texture component and the weakening of γ-fiber. At an inclination angle of 60°, a significantly strong Goss texture was produced, which was highest among all samples, and the maximum volume fraction of {110}+{100} texture can also be obtained. One inclined rolling can better improve the magnetic properties of used silicon steel (B₅₀), and the magnetic induction is between 1.712 T and 1.742 T. The highest magnetic induction of 1.742 T can be obtained by one inclined rolling (at an inclination angle of 60°).