Mobile bed thickness in skewed asymmetric oscillatory sheet flows

A new instantaneous mobile bed thickness model is presented for sediment transport in skewed asymmetric oscillatory sheet flows. The proposed model includes a basic bed load part and a suspended load part related to the Shields parameter, and takes into account the effects of mass conservation, phase-lag, and asymmetric boundary layer development, which are important in skewed asymmetric flows but usually absent in classical models. The proposed model is validated by erosion depth and sheet flow layer thickness data in both steady and unsteady flows, and applied to a new instantaneous sediment transport rate formula. With higher accuracy than classical empirical models in steady flows, the new formula can also be used for instantaneous sediment transport rate prediction in skewed asymmetric oscillatory sheet flows.

Research and application on the automatic measuring device for testing transverse thickness difference of cold-rolling steel sheet

Many advanced technologies have been applied in developing the automatic measuring device for testing transverse thickness difference of cold-rolling steel sheet,such as the technologies of automatic control,sensor measurement,marking identification,photographic location,computer application and information transmission.This measuring device can measure the transverse thickness difference of the steel plate accurately and quickly,with a high detection level of automation.It is an effective detection equipment for transverse thickness control of steel plate.Horizontal width of steel plate measuring 0.8-1.4 m, horizontal measurement point positioning accuracy±0.02 mm,thickness range 0.2-2.0 mm, measurement accuracy within±1μm.

Thickness distribution of large scale metallic sheet by EB-PVD on rotating substrate

A two-dimensional kinetic Monte-Carlo(KMC) method was used to approach the thickness distribution of large scale metallic sheet deposited by electron beam physical vapor deposition(EB-PVD) on rotating substrate. The KMC model involves incident atom attachment, adatom diffusion and adatom detachment. The effective deposition rate and effective incident angle along substrate radial were studied as influencing factors of sheet thickness distribution. The KMC simulation results indicate that incident angle is a very important factor to affect the sheet thickness distribution as well as theory deposition mass. The experiments results show that the KMC model can predict the thickness distribution of large scale sheet deposited by EB-PVD on rotating substrate.

A MODIFIED ALGORITHM FOR DEALING WITH HOLDER FRICTION BOUNDARY CONDITION IN SIMULATION OF SHEET METAL FORMING

This paper investigates the equivalent model for the friction boundary condition between blank and holder during sheet metal forming simulation, and proposes an equivalent algorithm, the thickness threshold value algorithm, for the first time based on thickness weighting. This algorithm assumes that the holder clearance is uniform during sheet metal forming; and the main reason for the unevenness of friction force distribution under the holder is that the uneven deformation of the blank leads to its uneven thickness distribution, which makes the local pressure on the blank distributed unevenly. The algorithm proposed in this paper can effectively simulate the influence of the unevenness on the forming process. Validity of this algorithm is verified by a comparison between the simulation results and the experimental ones for the drawing process of a car spring base.

Numerical Investigation of the Effect of Process and Sheet Parameters on Bending Angle in the Laser Bending Process

In this work, the effects of process parameters such as laser output power, beam diameter and scan speed and also sheet thickness on the bending angle have been numerically investigated in the laser bending process. For this purpose, Abaqus software is used for investigating the effect of various process and sheet parameters on the bending angle. The results show that with increasing the laser output power, bending angle is increased. Also, the bending angle is decreased with increasing the beam diameter, scan speed and sheet thickness.

轻合金钣金件覆层板成形及研究现状

覆层板成形是在成形板一侧或两侧覆上相同或不同材料板材(称之为覆板),成形过程通过覆板改变成形板材受力状态及变形规律,从而进一步提高成形板材的成形性能和成形质量,是复杂形状轻合金钣金件常见成形方法之一。轻合金钣金件覆层板成形过程,覆板性能及对成形板的作用规律是其成形可行性的关键,本文介绍了轻合金钣金件覆层板成形原理,总结了覆板厚度、力学性能及与成形板间的界面摩擦等因素对其成形过程的影响及研究现状,并对存在的问题及发展趋势进行了展望。

基于Polyflow正压防护面罩吸塑成型过程

为探究正压防护面罩吸塑成型过程中不同工艺参数组合对其影响。结合实际设计的要求,采用PET材料作为面罩吸塑材料,基于Ployflow,分析不同压力、温度组合的工艺参数及初始板材厚度对面罩吸塑成型的影响。结果表明,利用面积延伸率、厚度均匀性及面罩成型深度综合分析面罩的吸塑成型质量发现,温度和压力对面罩成型质量的影响较显著。由于板材厚度与成型深度呈负相关,再结合面罩成型深度的要求可知,在符合设计要求的条件下,当工艺参数组合为温度114℃、压力0.65 MPa、PET板材初始厚度为1 mm时,面罩质量最佳。

板厚对UHPC薄板抗弯性能的影响

薄壁薄板结构是超高性能混凝土(UHPC)一个重要应用,而厚度减小会影响到钢纤维的取向和分布,并直接影响力学性能,如抗弯性能等。对5~50 mm UHPC薄板的抗弯性能进行研究,并通过三维视频显微镜和图像法研究由厚度引起的纤维分布取向变化,发现板厚大于20 mm后所能承受的破坏荷载快速增加,但抗弯强度随板厚减小而增加,纤维取向性(沿长度方向)也逐渐增强,尤其是对厚度为5~10 mm的薄板。抗弯强度变化主要取决于钢纤维取向性和厚度因子,而后者对超薄板影响较大。

黏结剂种类对加热不燃烧型烟草薄片成形及物理性能的影响

本研究结合稠浆法加热不燃烧型烟草薄片浆料的特征,探究了黏结剂种类及添加量对烟草薄片成形及物理性能的影响。通过对烟粉的理化特性进行表征,并结合Zeta电位、阳离子需求量分析,对比了不同添加量下,羧甲基纤维素钠、甲基纤维素、羟丙基瓜尔胶、黄原胶4种黏结剂制备所得稠浆的黏度稳定性及烟草薄片的物理性能。结果表明,当羟丙基瓜尔胶添加量为2%(相对于烟粉绝干质量,下同)时,稠浆黏度从23403 mPa·s增至27546 mPa·s,烟草薄片匀度可达92,抗张指数3.55 N·m/g,紧度1.12 g/cm^(3),透气度下降至0.30μm/(Pa·s);当黄原胶添加量低于3%、羟丙基瓜尔胶添加量低于2%时,稠浆具有较好的稳定性,可有效改善烟草薄片的成形,提高其物理性能。

连续酸洗机组7.0~8.0 mm厚规格酸洗产品拓展实践

近年来应用户需要,某连续酸洗机组开展了屈服强度350 MPa以下、厚度7.0~8.0mm、宽度800~1300 mm酸洗板拓展试验.通过对现有设备能力负荷计算、开展取样离线样板焊接验证以及多轮通板生产验证,确定了该机组具备7.0~8.0 mm厚规格酸洗产品的生产能力.经过生产验证,该机组生产稳定,无异常问题,7.0~8.0mm厚规格酸洗产品质量达到用户要求.

CO_(2)相变致裂岩石的损伤范围的计算及影响因素研究

在CO_(2)相变致裂岩石技术中,为探究岩石损伤范围与CO_(2)相变致裂参数的关系,根据Mises准则和损伤力学理论建立了CO_(2)相变冲击岩石的致裂损伤半径计算公式。利用3DEC软件模拟了不同泄能片厚度下岩石的致裂损伤半径,并与理论计算相比较,验证了所建模型的准确性。分析了泄能片厚度、岩石强度、致裂孔孔径、CO_(2)充装质量等因素对岩石损伤的影响规律。结果表明:岩石的致裂损伤半径与泄能片厚度、CO_(2)充装质量呈对数增长关系,与岩石强度、致裂孔孔径呈指数衰减关系;增加泄能片厚度是增大岩石致裂损伤半径的最有效手段;致裂孔孔径的增大会使岩石的损伤范围迅速减小。可为CO_(2)相变致裂岩石的损伤机制、技术参数选取等提供参考。

纳米纤维素/聚己内酯的等温结晶动力学

利用差示扫描量热仪(DSC)研究了聚己内酯(PCL)与纳米纤维素复合材料的等温结晶动力学,采用了Avrami理论来解析结晶过程中成核和生长的动力学。研究结果表明,纳米纤维素(CNC)诱导PCL异相成核能有效提高PCL基体的结晶速率。在等温结晶过程中,相对分子质量为300和3000的聚乙烯亚胺(PEI)修饰的CNC(CNC-P1、CNC-P2)能够将PCL的半结晶时间由5.19 s降低至1.70和2.07 s。为研究修饰后CNC对PCL结晶结构的影响,结合Thomson-Gibbs方程和Lauritzen-Hoffman方程计算了PCL的折叠表面自由能和片晶厚度,结果表明,加入修饰后的CNC导致PCL的折叠表面自由能显著降低,分别由0.024 J/m^(2)降低至0.179 J/m^(2)和0.020 J/m^(2),片晶厚度由18.6 nm增大至20.2 nm和18.9 nm。修饰后的CNC对于PCL的等温结晶动力学及结晶特性均有显著的影响。

3003铝合金双层盒形壳体液压成形工艺及壁厚控制

为解决铝合金双层盒形壳体拉深成形开裂难题,提出了盒形件充液拉深与液压胀形复合成形工艺。通过工艺仿真研究了压边力、液室压力及胀形压力对双层板盒形件成形起皱和开裂的影响,并对关键工艺参数进行了优化。结果表明:充液拉深工艺有助于改善壁厚分布,合理的液室压力能够减少内外层板壁厚减薄,但液室压力过大会导致板料初期反胀过度引发减薄甚至破裂,在一定的胀形压力下外板能够实现贴模成形。通过实验研究了复合工艺对铝合金双层盒形壳体成形的影响,最大壁厚减薄率小于15%。该复合工艺为铝合金双层壳体零件成形提供了新方法。

负积温推求冰盖厚度的方法研究

本文通过低温模拟渠道结冰试验数据,对两种计算冰盖厚度的斯蒂芬模型和朱波夫模型分别进行了拟合,通过分析发现,拟合出的朱波夫模型计算冰盖厚度与实测冰厚数值更为接近,因此,对于南水北调工程冬季渠道的冰盖厚度,可使用朱波夫模型经验公式进行预测,以进一步计算冰盖膨胀力,防止膨胀力过大对渠道边坡稳定性造成威胁。

X射线测厚仪在镁合金轧制板带中的应用

X射线测厚仪主要应用在镁合金板带连续可逆轧制过程中,可以连续精准测量实时厚度。介绍了X射线测厚仪的基本工作原理,以及在实际生产过程中的应用,极大提升了板带厚度控制的准确性,提高了生产效率、产品合格率和产品质量。

汽车线束用搭铁螺栓规格选型与钣金厚度匹配的研究

文章详细介绍汽车行业用于紧固整车线束接地端子、现行主流的专用搭铁螺栓的特殊结构及其如何辅助线束实现有效接地的工作机理,通过建模及专项验证,测量搭铁螺栓的一项特殊结构啮合在钣金焊接螺母不同位置时的接触电阻情况,并进行数据统计、对比、分析,进而推导出不同规格的搭铁螺栓与不同厚度钣金上搭铁点的适用、匹配关系,为新车型在工程设计阶段对搭铁螺栓在车身不同位置(主要钣金厚度差异,如侧围、纵梁)的使用选型提供可靠的依据。

基于共轭梯度算法的镁板热轧压下量PID控制优化

为了进一步提高镁合金板热轧厚度成形控制能力,设计了一种基于共轭梯度算法的镁合金板热轧压下量PID控制方法。基于共轭梯度算法对压下量PID控制优化,引入到双辊热轧镁合金板带横向厚度分布的预测与控制中。研究结果表明:板带预测压下量分布和真实情况相吻合,说明基于共轭梯度算法的导电用镁合金板热轧压下量PID控制优化设计具有良好可靠性。该预测模型平均绝对误差为4.2μm,这验证了基于共轭梯度算法的导电用镁合金板热轧压下量PID控制优化是可行的。该研究有助于提高热轧镁合金板材的成形效率,也可托找到其它的合金轧制领域,具有很好的应用推广价值。

基于Polyflow的制杯机热成型仿真模拟

热成型技术是塑料成型常用技术方法之一。它以成型效率高、投资少等优点得到了广泛的应用。结合CAD软件和有限元CFD软件Gambit建立了有限元模型,利用Polyflow软件模拟了制杯机的热成型过程。以片材厚度作为表征,结合实际热成型产品验证了有限元仿真模拟结果的有效性。结合仿真结果,详述了片材变形及厚度分布的热成型过程,为同类热成型机优化产品结构以及模具设计提供参考和理论依据。

厚钢板焊缝强度匹配对韧度影响的试验方法

提出了研究厚钢板焊缝强度匹配对韧度影响的试验方法:用“直接测量法”确定焊缝强度匹配系数;用裂纹尖端张开位移(CTOD)断裂韧度作为焊缝材料韧度的指标。用“直接测量法”确定了低合金高强钢S355ML钢板(厚65mm)自动埋弧焊和手工电弧焊的焊缝强度匹配系数,同时将这两项焊接工艺的对接焊缝制成全厚度断裂韧度试样,运用裂纹尖端张开位移试验方法测定其焊缝中心的断裂韧度。结果表明,厚钢板焊态对接焊缝,低匹配焊缝具有较高的韧度,高匹配焊缝的韧度比较低。

中厚板轿车摇臂件拉深成形有限元模拟分析

将厚向异性屈服函数、单元级双面接触算法的能够反映强烈弯曲效应的Mindlin曲壳单元模型引入动力显式中心差分格式的有限元算法,建立对复杂形状的中厚板件拉深成形有限元模拟分析算法;在此基础上,以轿车摇臂厚板金件为例,分析了材料厚向异性参数r值、凹模圆角以及压边力大小对此类成形件成形性的影响。通过数值模拟与实际拉深成形实验的对比,验证了本文方法的有效性;同时,结合实验研究了此类单元对工具弯曲圆角大小的适应性。