Design Method of Curved-bar Refining Plates for Disc Refiner

Straight-and curved-bar refining plates are two important types of plates commonly used in disc refiners in the papermaking industry.Theoretically,the curved-bar refining plate has a relatively uniform bar interaction angle,which indicates uniform refining effects.The bar angle of the curved bar was proposed and two typical curved-bar plates,the three-stage radial curved-bar plate and isometric curved-bar plate,were designed in this paper.The arc equations of the curved-bar center line and curved-bar edges were established and finally,the specific edge load(SEL)of the curved-bar plate was derived.The determination of bar parameters was discussed,which provides a theoretical basis for the design of curved-bar plates.

INCOMPATIBLE CURVED QUADRILATERAL PLATE BENDING ELEMENT WITH 12-DEGREES OF FREEDOM

This paper presents a new curved quadrilateral plate element with 12-degree freedom by the exact element method[1]. The method can be used to arbitrary non-positive and positive definite partial differential equations without variation principle. Using this method, the compatibility conditions between element can be treated very easily, if displacements and stress resultants are continuous at nodes between elements. The displacements and stress resultants obtained by the present method can converge to exact solution and have the second order convergence speed. Numerical examples are given at the end of this paper, which show the excellent precision and efficiency of the new element.

Experimental Study on Reflection Coefficient of Curved Perforated Plate

A set of experiments is carried out in a towing tank to study the effects of the curvature of perforated plates on the wave reflection coefficient （Cr）. The curvature of a perforated plate can be changed by rotating a reference perforated plate about its origin point according to the parabolic equation y=-x2 A plunger-type wave maker is used to generate regular waves. The reflection coefficients are calculated using Goda and Suzuki’s （1976） method. The results are compared with those of vertical or sloped passive wave absorbers. The comparison shows that a perforated plate with a curved profile is highly efficient in terms of reducing the wave reflection coefficient. A correlation is established to estimate the reflection coefficient of curved perforated plates as a function of both flow and geometry characteristics.

Short Stroke Control with Gaussian Curve and PSO Algorithm in Plate Rolling Process

The precision width control is vital for product quality and production economy in plate width control process, so short stroke control method was used in plate rolling by opening or closing edger gap so as to avoid head end necking. Head end necking on different broadening ratio was analyzed, and sections of different elongations at edger roiling was calculated; based on the law of volume constancy, the adjustment functions were described by parabolic functions. Control curves were developed with three Gaussian curves by means of additional combining; SSC control curve was changed with different weights of those curves, w1 effect one-third of SSC length, w2 effect two-third of SSC length, w3 effect all three parts of SSC length. In order to adjust the amount of weights for precise quantification, PSO algorithm was used to build sufficiency function so as to obtain best rectangular degree by global optimization. Practical applications showed that the method proposed is available to improve the product rolling yields by 1.0% -2. 0% and worthy to apply to plate rolling.

Explicit Topology Optimization Design of Stiffened Plate Structures Based on the Moving Morphable Component(MMC)Method

This paper proposes an explicit method for topology optimization of stiffened plate structures.The present work is devoted to simultaneously optimizing stiffeners’shape,size and layout by seeking the optimal geometry parameters of a series of moving morphable components(MMC).The stiffeners with straight skeletons and the stiffeners with curved skeletons are considered to enhance the modeling and optimization capability of the current approach.All the stiffeners are represented under the Lagrangian-description framework in a fully explicit way,and the adaptive ground structure method,as well as dynamically updated plate/shell elements,is used to obtain optimized designs with more accurate analysis results.Compared with existing works,the proposed approach provides an explicit description of the structure.Thus,a stiffened plate structure with clear stiffener distribution and smooth geometric boundary can be obtained.Several numerical examples provided,including straight and curved stiffeners,hierarchical stiffeners,and a stiffened plate with a cutout,validate the effectiveness and applicability of the proposed approach.

沿空留巷密集钻孔切顶机理及关键参数确定方法

为实现密集钻孔切顶条件下沿空留巷顶板结构安全稳定,研究正常情况与密集钻孔条件下顶板岩层结构受力状况,基于岩石断裂理论和弹性理论分析回采前后顶板密集钻孔孔间围岩受力分布及其破断过程,明确密集钻孔切顶机理及相邻钻孔的孔间集中应力相互作用机制,推导工作面端头弧形三角板结构巷道侧边界密集钻孔孔间围岩的拉剪应力计算公式。在此基础上,分析不同参数对孔间围岩所受拉剪应力的影响作用,提出沿空留巷密集钻孔切顶关键参数确定方法。研究表明:密集钻孔主要通过回采前后钻孔周围应力条件改变来增加钻孔围岩拉剪应力集中程度,引起孔间裂隙扩张联通,形成切缝线破断关键岩层。回采前钻孔主要受水平挤压应力影响,回采后钻孔受力逐渐转变为采空区顶板回转下沉产生的拉剪应力为主,钻孔孔间围岩状态随之由孔间围岩弱化阶段过渡到孔壁裂纹成形阶段,再转变为孔间围岩破断阶段。密集钻孔孔间围岩所受拉剪应力大小主要取决于关键岩层厚度及钻孔孔径与孔间距之比,与钻孔高度及间距成负相关,与角度及直径正相关。据此提出了密集钻孔关键参数确定方法,并根据龙滩矿3124 N工作面坚硬顶板条件设计了密集钻孔切顶留巷方案,确定钻孔长度为8.3 m,角度为15°,钻孔直径为48 mm,间距为500 mm。留巷后巷道顶帮变形可控且整体稳定性较好,由此可证明密集钻孔布置参数较为合理,密集钻孔关键参数确定方法有效可行。

共同结构规范中舭部曲板作为硬角单元的适用条件研究

按照共同结构规范要求,对于船舶舭部板的船体梁极限强度和残存强度计算,规定在一般情况下应将其视为硬角单元,但未明确可以将其视为硬角单元的具体条件。本文利用共同结构规范对于曲板屈曲能力的评估方法和非线性屈曲有限元分析方法,对船舯区域和船舯以外区域的典型几何形状的舭部曲板进行了研究,得到了在共同结构规范要求的船体梁极限强度和残存强度计算中,舭部板可以被视为硬角单元的简要条件。

某铜矿选矿厂半自磨系统磨矿负荷分配研究

半自磨+球磨组成的半自磨系统应用广泛,但在应用过程中半自磨机和球磨机负荷不平衡的情况经常出现。结合某铜矿项目,分析了出现负荷不平衡的原因,并通过优化半自磨机入料粒度、增加格子孔孔缝和开孔率、调整半自磨机排矿产品粒度、优化筛缝尺寸、修改直型格子板为弧形格子板、优化破碎后顽石的返回途径等措施,使得半自磨系统新给矿处理量由39 960 t/d提高至42 500 t/d,半自磨功率保持不变,但球磨机运行功率由9 300 kW提升至11 000 kW,半自磨和球磨负荷分配更加合理。通过对不同优化措施的分析和应用,可为解决其他矿山半自磨流程负荷不平衡问题提供借鉴和参考。

装配式槽钢组合梁中开孔钢板连接件力学性能

为研究新型装配式双拼槽钢-混凝土组合梁中开孔钢板剪力连接件(PSP剪力连接件)的力学性能,设计7组标准试件并开展推出试验,对比分析不同参数PSP剪力连接件的受剪承载力和破坏模式。利用ABAQUS非线性有限元模型对PSP剪力连接件的破坏模式和受力机制进行数值模拟,并与试验结果对比验证计算结果的可靠性。在此基础上,进一步分析开孔钢板厚度、开孔直径、混凝土强度、穿孔钢筋及连接件间距对PSP剪力连接件力学性能的影响。结果表明:除10 mm厚度的PSP剪力连接件外,所有4 mm与6 mm厚度的PSP剪力连接件均发生明显弯曲变形,试件破坏时连接件周围混凝土均出现斜向裂缝;开孔直径和穿孔钢筋对受剪承载力和抗剪刚度影响较小,而增加开孔钢板厚度、混凝土强度能提高剪力连接件受剪承载力和抗剪刚度;对于双排PSP剪力连接件,增大连接件间距能够显著提高单排PSP剪力连接件平均承载力,当间距为250 mm时,单排平均承载力达到单个PSP剪力连接件的91.2%。根据试验及有限元荷载滑移曲线提出装配式双拼槽钢-混凝土组合梁中单个PSP连接件荷载滑移曲线计算公式,为装配式双拼槽钢混组合梁的设计提供参考。

大厚度Q690钢板冲击功波动原因分析

文章针对80 mm大厚度规格Q690钢板冲击功波动情况进行了分析,在实验室开展了钢板厚度不同位置试样的低温冲击试验,并利用扫描电镜和金相显微镜对钢板厚度不同位置冲击试验的断口及显微组织进行了对比分析。钢板厚度不同位置的冲击功差异较大,从心部的14.9 J,到四分之一部位的27.2J再到近表面的95.4J,对应的显微组织心部为粗大的回火贝氏体加少量具有马氏体位向的回火索氏体组织,四分之一部位为具有马氏体位向的回火索氏体加回火贝氏体组织,近表面部位为细小的具有马氏体位向的回火索氏体组织。分析结果表明,冲击功波动的主要原因是显微组织和晶粒度的差异,试验表明显微组织中的贝氏体比例越高、晶粒越大则对应的冲击功越低。结合Q690钢的CCT曲线,分析判断由于Q690钢板厚度规格较大,在淬火过程中的冷却不充分导致钢板的四分之一部位至心部的冷却速度不够,淬火后不能获得全部的马氏体组织,板厚度方向的显微组织不均匀,特别是在板厚的四分之一部位和心部出现不同比例的贝氏体组织,因此导致冲击功波动。通过优化现场的调质工艺,大厚度规格Q690钢板的显微组织均匀性得到改善,使冲击功及其稳定性得到了提高。

对置端曲面齿轮柱塞泵动态特性仿真研究

为了研究对置端曲面齿轮柱塞泵参数对泵动态特性的影响,根据端曲面齿轮柱塞泵工作原理,推导柱塞运动方程。利用Adams与AMESim软件建立对置端曲面齿轮柱塞泵联合仿真模型,通过联合仿真得到不同转速与偏心率下的柱塞泵出口流量与压力的相应曲线。结果表明:转速增大,泵出口流量与压力增大,脉动幅值与脉动频率增大;偏心率增加,泵出口流量与压力增大,脉动幅值增大,脉动频率不变。

C型外包花纹钢-混凝土界面粘结强度推出试验研究

为探究带拉条式C型外包花纹钢-混凝土的粘结强度及粘结滑移性能,考虑钢板的花纹高度、混凝土强度、拉条间距、截面宽度和翼缘截面形式对试件粘结强度的影响,设计制作了12个带拉条的C型外包花纹钢-混凝土推出试件。分析各试件的破坏过程、荷载-滑移曲线、钢板应变沿纵向分布规律及特征粘结强度;综合考虑各影响因素,统计回归得出特征粘结强度的计算公式。研究结果表明:增大花纹高度是改善粘结性能最有效的途径;特征粘结强度随着混凝土强度的增大呈增大趋势,随着截面宽高比和拉条间距的增大呈减小趋势;在同等条件下,翼缘内翻试件的粘结性能优于翼缘外翻试件;特征粘结强度的回归公式能够较好地拟合试验结果。

曲面分段的焊接试验及弯曲变形评估

曲面分段的建造精度直接影响船体结构的水动力性能及运营成本,其焊接变形的预测和控制,是船舶智能建造的研究难点。以6 mm厚Q235船板钢的单曲率加筋焊接结构为研究对象,在专用胎架上通过二氧化碳(CO_(2))气体保护焊,完成曲面分段建造;采用全站仪测量曲面分段上胎、封胎、焊接以及脱胎等状态下的结构形状,通过线切割和抛光腐蚀,获得平角焊接头的宏观金相。基于瞬态的热-弹-塑性有限元方法,分析典型平角焊的热-力学行为以及夹具拘束的影响;通过对比熔池形状,确认计算的可靠性,进而评估出焊接固有变形;建立曲面分段的壳单元网格模型,以焊接固有变形为力学载荷,预测曲面分段的建造精度。研究表明:有限元预测的结果与试验测量数据高度吻合,且焊接纵向收缩是曲面分段产生弯曲变形的主要原因。基于上述先进的焊接变形计算方法,分析拘束距离、满焊等工艺对典型接头焊接变形和曲面分段建造精度的影响,可为后续曲面分段的建造工艺优化提供参考。

Nonlinear principal resonance of magneto-electro-elastic thin plate

Considering magneto-electro-elastic thin plate, the von Karman plate theory of large deflection and the geometric nonlinearity, the mathematical model of nonlinear undamped forced vibration is established. Making use of the improved Lindstedt-Poincare （L-P） method, the undamped forced vibration problem is solved, and the amplitude-frequency response equation of thin plate is obtained. Furthermore, the amplitude frequency response curves of system under different condi- tions are obtained by numerical simulation. The results show that the thickness of the plate, mechanical excitation, parame- ter e, pure piezoelectric material of BaTiO3, pure piezomagnetic material of CoFe2 04, different magneto-electro-elastic ma- terials of BaTiO3/CoFe2 04 and Terfenol-D/PZT will have an impact on the system frequency response. The main effects in- volve principal resonance interval, spring stiffness characteristic and amplitude jumping phenomena.

土壤类型和容重对离心机法测定土壤水分特征曲线的影响

本研究以杨凌塿土和嫩江黑土为研究对象,分别设置了4个土壤容重处理(1.0、1.1、1.2、1.3 g/cm^(3)),利用离心机法测定土壤失水过程,以压力膜仪法为标准,对比不同吸力下的含水量实测值和van Genuchten模型参数的差异。结果表明,随着土壤容重的增加,离心机法测定土壤水分特征曲线准确度逐渐增加,获取黑土和塿土的van Genuchten模型参数α的准确度增幅分别为38.46%~83.08%和56.38%~95.75%。离心机法测定土壤水分特征曲线的准确度在不同吸力段表现不同,近饱和段(0~10 kPa)离心机法测定值偏低,而高吸力段(10~1500 kPa)测定值偏高,且高吸力段离心机法测定准确度较低,与压力膜仪法测定值具有极显著差异(P<0.01)。综上所述,为了提高离心机法测定土壤水分特征曲线的准确度,优先考虑应用于大容重和高有机质含量的土壤。

加筋曲板结构抗弯承载能力分析

将正方、蜂窝和内凹加筋构型引入热塑性聚乳酸曲板结构,在三点弯曲工况下,通过实验测试和仿真计算研究了加筋构型、弯曲程度和内外侧加筋方式对其抗弯承载能力的影响,并对实验和仿真结果进行了对比分析。结果表明,不同加筋构型的热塑性聚乳酸加筋曲板结构的抗弯承载能力存在一定差异,负泊松比内凹构型有助于结构承载和抗裂,但主要影响线弹性阶段,在塑性屈服阶段蜂窝构型抗断裂能力更好。结构的抗弯承载能力与其弯曲程度成反比。改变蜂窝构型和内凹构型的胞元内角度能够提升结构承载能力。采用外侧加筋方式的结果优于内侧加筋方式,两者的最大应力均位于各自的面板层。

基于改进SSA-LSTM模型的双曲度板材成形回弹预测

为了准确预测双曲度板材成形回弹量,控制板材加工成形质量,利用ABAQUS有限元软件对板材成形回弹过程进行仿真,构建长短时记忆网络模型(LSTM)。针对麻雀搜索算法(SSA)容易陷入局部最优的问题,提出基于Circle混沌映射、反向学习、高斯与柯西变异扰动的改进麻雀搜索算法,优化LSTM模型的学习率、迭代次数、隐藏层神经元个数,并将模型与BP神经网络模型、LSTM模型和普通SSA-LSTM模型进行对比分析。结果表明,该模型对双曲度板材成形回弹预测达到整体最优预测效果,具有一定有效性和可行性。

基于声阻抗匹配理论的弹性吸收体研究

基于时域耦合模型理论的吸收体研究,不适用于所有模型,且基于此理论的设计过程复杂,难以在工业工程得到广泛应用。因此提出一种基于声阻抗匹配理论的弹性吸收体的研究方法,并通过理论计算、数值仿真以及实验对吸收体的吸收曲线进行验证。结果表明:本文提出的方法能够快速、简便地实现弹性吸收体的结构设计,无需额外附加阻尼材料,更有利于满足航空工程中对于结构轻量化的要求,为振动波吸收领域,尤其是弯曲波的高效吸收和减振设计研究带来了新的可能性。

跌流竖井入流水舌处内嵌圆弧板的结构优化数值研究

跌流竖井是排水系统中结构简单且应用广泛的排水基础设施之一,但该结构入流水舌处的水气两相作用剧烈、流态复杂,且在该处常常出现竖井内的最大负压,也就容易从外界大量吸气造成下游管道臭气逸散、井喷或爆管等问题。为此,提出在竖井水舌处设置内嵌圆弧板的结构优化方法,从而有效改善入流水舌流态,降低竖井内气压值和梯度变化,并减缓竖井从外界的吸气程度。在此基础上,采用Fluent三维数值模拟手段,对比分析了结构优化前后的流态、气压梯度、流速及水气分布等特性。结果表明,经过优化后的竖井模型改变了入流水舌处的液体流态,水流入射角度减小,水流撞击点的位置降低,竖井水舌处的负压值明显降低,垂直管内的整体压力梯度变化幅值减弱,从外界卷吸的气量也大幅度减小。可见所设计的新型竖井结构优化方法对跌流竖井入流水舌问题有较好的改善作用,同时也为排污管道竖井设计及优化提供一定的参考。

回弹比矩阵及回弹比特征量在双曲度板成形回弹描述和补偿中的应用

回弹补偿是活络方形压头可重构模具成形船体双曲度外板时遇到的主要难题。本文参考单曲度板回弹比表达方法,引入针对双曲度板材描述离散点以及整体回弹大小的回弹比矩阵及回弹比特征量,并对文献中单曲度板的回弹数据进行了描述,得到的结论与文献一致。同时对典型双曲度板进行了冲压成形实验,并采用本文提出的回弹比矩阵及回弹比特征量对回弹数据进行描述。结果表明:在双向曲率半径分别相等时,马鞍形板的回弹显著小于帆形板;弹塑性理论推导出的回弹比结果与实验数据的回弹比结果相一致。基于回弹比矩阵,本文提出了一种新的回弹补偿算法,通过对比发现基于回弹比矩阵的补偿算法的补偿效果更好。