钢板冷弯曲件展开尺寸的计算

集装箱吊具是码头港口机械进行集装箱装卸作业的重要搬运设备,此吊具设备的安全性是确保码头进行安全作业的重要保障。集装箱的主体结构是由以钢板为原材料,通过对钢板切割、冷弯曲成形、然后采用先进焊接工艺进行组装而成的钢结构设备。由于吊具的结构特点,此产品的好多结构型零件都是钢板的弯曲成形件,为了保证这些冷弯曲零件的板材下料时的准确性,非常有必要对这些冷弯曲件展开尺寸的计算进行科学的研究和分析,以便满足生产的需要,降低生产成本,充分提高材料的合理利用率。文章详细简述了相关弯曲零件展开尺寸的计算方法。

硅芯管冷弯曲半径试验器校准方法探讨及其分析与研究

介绍了硅芯管冷弯曲半径试验器的工作原理和用途,建立了硅芯管冷弯曲半径试验器校准结果的测量模型,分析了各不确定度分量主要来源,结合测量实例具体数据,对其合成不确定度进行分析评定,对各不确定度分量进行计算并得出合成不确定度和扩展不确定度,最终可得出该项目的校准测量能力,为用于市政部门地下管道质量方面提供的技术支撑。

用钢筋弯曲机冷态弯曲型钢

在中大型建筑及特殊构筑物的钢结构工程施工中,有时需要对型钢弯曲加工。如型钢仅为零星构件,可用火焰法煨制;若构件受力不大、外观无严格要求,也可以手工冷作解决。然而,当构件量较大且外观要求较严时,上述方法就无能为力了,需在大型立(卧)轴式型钢卷弯机上进行。但作为建筑施工单位,要在施工现场具备上述条件是不容易的,而且,这类施工项目毕竟较少,如为此而购置专用设备,经济上也得不偿失。我们在中国科学院上海天文台1.56m、北京天文台2.16m天文望远镜观测室工程中就遇到过这种情况,为解决这一难题,我们先后以GJB7-40B型。

固定矿车箱体端板冷压弯曲成型模具设计与应用

针对某矿山机械厂固定矿车箱体端板制造工艺流程复杂、劳动强度高、浪费材料等问题,设计制造一个矿车箱体端板冷压弯曲成型模具,节能降耗,提高工作效率。箱体端板压制模具的设计主要考虑在保证矿车箱体整体质量符合设计要求的基础上,利用压力机将板料通过一道工序压制成型,直接与矿车底板、侧板对焊而成,组点焊接间隙在3mm以内,箱体折弯处板材褶皱最大间隙不超过4mm,从而保证焊接质量和焊接外观。经现场实践表明:此次固定矿车端板冷压弯曲成型模具使用效果较好,在各类载重量不同的固定矿车生产上有一定的推广作用。

某重型车桥半壳体冷成形工艺及模具设计

通过对车桥半壳体的分析,确定了最佳的冷弯曲成形工艺方案和模具设计,控制了在冷成形过程中的材料起皱、开裂和回弹等难题。

载重汽车车轮轮网滚弯变形分析

载重汽车车轮轮网的冷弯是异型截面板的弯曲和扭转过程 ,具有物理和几何非线性特性。采用一种半数值半解析的方法来分析其冷弯过程 。

Microstructural effects in corrosion of aluminium tube alloys

Fine gauge extruded aluminium alloy tubes can experience preferential corrosion and early failure when they are formed into ＂u-bend＂ via cold deformation. The relationship between the electrochemical reactivity and the microstructure of the bent vs straight parts of the tube was established. Investigations were carried out on two alloys containing 0.08% and 0.22% （mass fraction） of manganese. The corrosion morphology of bent tubes after immersion in salt water acetic acid test （SWAAT） solution showed the highest attack at the bent region of the high-Mn alloy. SEM characterisation of the alloys showed that each alloy has one main type of coarse intermetallic particle. However, TEM observation showed that there is a distinct difference in particle morphology between the bent and straight regions of the high-Mn tubes, the bent region revealed an additional population of 10 50 nm Mn-rich intermetallic particles, which increased both the anodic and cathodic reactivity. For the low-Mn alloy, no such effects were observed. The results suggested that cold deformation of the high-Mn tube allowed room temperature precipitation of fine Mn-rich particles, which increased the cathodic reactivity of that region by providing more cathodic sites, and increased the susceptibility to pitting by removing noble Mn from solid solution. Such an effect was not observed for the low-Mn alloy.

An analytical model for predicting sheet springback after V-bending

Springback is caused by the redistribution of stress in sheet material after the tooling is removed. Precise prediction of sheet springback is very important in die design. Based on Hill’s yielding criterion and plane strain condition, an analytical model is proposed in this paper which takes into account the effects of contact pressure, the length of bending arm between the punch and die, transverse stress, neutral surface shifting and sheet thickness thinning on the sheet springback of V-bending. The predicted results by this analytical model indicated that the contact pressure and transverse stress have much effect on the springback when the bending ratio (the ratio of punch radius to sheet thickness) is less than five. The contact pressure declined when the length of bending arm goes up, which means that shorter length of bending arm will result in larger springback. The effect of neutral surface shifting on the springback is less than that of contact pressure and decreases with the bending ratio. However, this research showed that the influence of thickness thinning on the springback can be ignored. Comparison with finite element method (FEM) simu-lating results shows that the predicted results by the analytical model accord well with simulation results by FEM. In addition to that, the bending ability—the limit bending ratio for a given sheet thickness and material properties was also determined.

Preset model of bending force for 6-high reversing cold rolling mill based on genetic algorithm

The hydraulic roll-bending device was studied, which was widely used in modem cold rolling mills to regulate the strip flatness. The loaded roll gap crown mathematic model and the strip crown mathematic model of the reversing cold rolling process were established, and the deformation model of roll stack system of the 6-high 1 250 mm high crown （HC） reversing cold rolling mill was built by slit beam method. The simulation results show that, the quadratic component of strip crown decreases nearly linearly with the increase of the work roll bending force, when the shifting value of intermediate roll is determined by the rolling process. From the first pass to the fifth pass of reversing rolling process, the crown controllability of bending force is gradually weakened. Base on analyzing the relationship among the main factors associated with roll-bending force in reversing multi-pass rolling, such as strip width and rolling force, a preset mathematic model of bending force is developed by genetic algorithm. The simulation data demonstrate that the relative deviation of flatness criterions in each rolling pass is improved significantly and the mean relative deviation of all five passes is decreased from 25.1% to 1.7%. The model can keep good shape in multi-pass reversing cold rolling process with the high prediction accuracy and can be used to guide the production process.

冷加工对含Mn铝合金管腐蚀行为的影响

采用SEM,TEM,动电位极化和浸泡实验研究了机械冷加工变形对汽车散热器高Mn(0.22%,质量分数,下同)和低Mn(0.08%)铝合金管在0.6 mol/L NaCl(pH=6)和SWAAT(ASTM G85,pH=3)溶液中的腐蚀行为的影响.电化学极化测试表明,无形变时高Mn铝合金直管的点蚀电位最高;但冷加工能降低高Mn铝合金弯曲表面的点蚀电位,而对低Mn铝合金的点蚀电位没有明显影响.TEM观察发现,冷加工后高Mn铝合金中有大量纳米尺度的富Mn析出相,在低Mn铝合金中却没有观察到这种析出相,阴极极化测试表明,富Mn相能显著促进阴极反应,富Mn相相对Al基体为阴极相,因而是点蚀萌生的部位.添加Mn尽管有利于提高铝合金的耐蚀性,但机械冷加工会弱化这一效应.

Bending tests and finite element analysis of lipped channels with complex edge stiffeners and web stiffeners

In order to study the bearing capacity and stability behavior of cold-formed steel flexural members with complicated sections,a total of 12 specimens divided into 6 groups were tested,including 3 groups of pure bending tests and non-pure bending tests each.There were three types of sections considered in this investigation,including channels with complex edge stiffeners(called B1-section),Σsection with complex edge stiffeners(called B2-section),and channels with complex edge stiffeners and V-type web stiffeners(called B3-section).Local buckling,distortional buckling and interaction buckling between them were observed in tests.The experimental results indicate that the bending strengths of B2-section specimens were the largest of these three types of specimens under the same conditions.It is found that the bending strength of B2-section specimens was increased by 6.47%for pure bending state and 8.12%for non-pure bending state,compared with that of B1-section specimens.Bending strength of B3-section specimens was almost the same with that of B1-section specimens under pure bending,but a little smaller than that of B1-section under non-pure bending state.It is also shown that B2-section specimens have better plastic deformation behavior than the other two sections.In addition,a non-linear finite element model was presented and verified against tests.The finite element analysis results agree well with experimental bending strength and failure modes.

拥有良好加工能力的高性能低烟无卤湿气固化交联护套聚合物的开发

本文章介绍了适合广泛电缆的护套性能要求的低烟无卤湿气固化材料的开发。简短回顾接近40年的发展历史,并展示材料技术近期的重大突破,即充分实现最初目的以满足现代需求的湿气固化技术。概述了全部开发过程的概念,并提供了部分样品的数值,显示了机械性能、物理性能、耐低温和耐流动等性能的平衡是可以取得改善的。选择从工业产品上或挤出在各种电缆护层上剥下的测试样品,进行了全套电缆测试的数据证明有满足物理性能、机械性能、低温和耐流动性可以很好平衡的途径。最后,提供了全部的耐火测试数据。随着LSZH电缆在北美地区的越来越广泛的使用,这个开发对新型电缆的设计和未来聚合物的发展都提供了一个可靠的平台。

Geometry-dependent springback behaviors of thin-walled tube upon cold bending

As one kind of key lightweight components with enormous quantities and diversities, the bent tubular parts have attracted in- creasing applications in aerospace, automobile, etc. Thus, how the inevitable springback behaves under different bending specifications should be fully addressed to efficiently achieve the precision forming of various bent tubes. Taking the medium strength thin-walled 6061-T4 Al-alloy tube as the objective, via the deformation theory of plasticity, explicit/implicit FE method and experimental approaches, we explored and clarified the nonlinear springback rules of the tubes and corresponding mechanisms in universal rotary draw bending regarding angular springback and radius growth by deliberately changing the tube diameter D and wall thickness t. The geometry dependent springback behaviors of thin-walled tube upon cold bending are thus revealed: 1) With the increasing of D, the tangent tensile strain increases and the proportional coefficient decreases, which causes the angular springback to decrease, while the radius springback increases due to the larger bending radius. 2) With the increasing of t, the tangent tensile strain decreases and the proportional coefficient increases, resulting in the increase of both angular springback and radius springback. 3) Under the same D/t, the angular springback varies little, while the radius springback increases with the larger diameter D. 4) The D/t can be used as a reasonable nondimensional index to evaluate the springback angle; as to the radius growth, the individual effects of the D and t should be considered. 5) The verification of the above results was conducted by experiments and analytical analysis.