高强钢三明治板T形接头焊剂片约束电弧焊电弧行为

文中基于高速摄像和焊接电信号采集系统,对焊剂片约束电弧焊接高强三明治板T形接头过程中的电弧行为进行了研究.结果表明,通过焊剂片约束电弧焊接工艺可实现三明治板的加工制造,焊剂片在焊接过程中不仅有效解决了电弧攀升问题,还改变了电弧形貌与加热特性,显著增加了电弧稳定性;将电弧电压控制在23~29 V,焊接电流控制在240~320 A,坡口宽度控制在5~7 mm,在此工艺参数范围内,焊剂片熔化高度适中,电弧可获得良好的约束,电弧到坡口底部的距离与电弧到面板侧壁的距离相当,主要在坡口底部及侧壁根部稳定燃烧,可获得面板与芯板熔合良好T形接头.

1420铝锂合金与镀锌钢压印接头的力学性能研究

为了研究1420铝锂合金(1420)与镀锌钢压印接头的力学性能,对1420铝锂合金同种板材(1420-1420)、异种板材(1420-镀锌钢和镀锌钢-1420)以及镀锌钢-镀锌钢进行了压印连接。并对其进行拉伸-剪切试验,从接头的材料成形,失效形式,载荷承载能力,能量吸收等方面进行了分析。结果表明:镀锌钢-1420接头的镶嵌量最小为0.16 mm,1420-镀锌钢接头的颈部厚度最小为0.32 mm;镀锌钢-1420接头在拉伸-剪切试验中所能承受的载荷最大为3100N,镀锌钢-1420接头所能承受的能量吸收值最大为4.757 J;1420-镀锌钢接头在拉伸-剪切试验中所能承受的载荷最小为1180N,1420-镀锌钢接头所能承受的能量吸收值最小为0.258 J。

柔性喷管接头优化及承载性能分析

为充分发挥固体火箭发动机柔性喷管接头承载性能,同时减小其消极质量,在等截面柔性接头设计计算的基础上,通过计算目标函数对设计变量的敏感度,得到对输出最敏感的参数;保证接头总体厚度不变,以增强件及弹性件的球面直径为设计变量,以接头最大应力和最小质量为目标函数,采用多目标优化算法,得到变截面优化接头结构;用大变形非线性有限元及刚柔耦合多体动力学计算方法,计算并对比了两种柔性接头的质量及内部应力、变形及摆动状态,检验了变截面优化接头承载能力及计算方法的正确性。

铜合金同种和异种板材压印连接研究

采用试验方法研究了铜合金同种板材H62-H62、异种板材H62-SPCC和SPCC-H62压印接头的截面结构特征,并通过拉伸-剪切试验测试了三种接头的力学性能。结果表明,H62-H62和H62-SPCC两种接头截面颈部厚度和镶嵌量相当,SPCC-H62接头镶嵌量略小。H62-H62和H62-SPCC压印接头拉伸-剪切力约为4000 N,接头失效形式为上板颈部剪断失效;SPCC-H62压印接头强度较低,有上板颈部剪断失效和上板拉脱失效两种失效模式,拉伸位移和能量吸收值最大。H62和SPCC进行压印连接时,应将材料强度较大的H62作为上板。

Al5052不同形状压印连接点力学性能研究

通过试验研究了Al5052铝合金圆形连接点和矩形连接点两种压印接头的连接成形和接头拉剪强度。结果表明,接头截面上,矩形连接点压印接头的颈部最薄处的位置低于圆形连接点,镶嵌部位的纵横比较大。矩形连接点最大拉剪强度是圆形连接点的1.7倍。圆形连接点的失效形式为上板颈部剪断失效;矩形连接点失效形式为上板颈部剪断和拉脱分离的混合失效模式。矩形连接点的最大拉伸位移和能量吸收值大于圆形连接点。

两类非可展曲面零件自动纤维铺放变角度轨迹规划算法

为了避免非可展回转外壳类零件及非可展曲面变截面接头类零件在自动纤维铺放过程中出现除端面以外的剪切和重送现象,简化纤维铺放过程的复杂程度,提出一种针对这2类非可展曲面零件自动纤维铺放变角度轨迹规划算法.首先获取零件外形的数据信息,然后计算不同位置处的纤维铺放角,得到初始轨线上的点,最终获取所有轨迹线;此外,还针对不同零件给出了初始点的获取方法;并针对非可展回转外壳类零件及非可展曲面变截面接头类零件,以CATIA CAA与VC6.0为开发平台,给出了该算法的具体实现步骤.通过计算相邻两丝束之间的间隙或重叠,对文中算法的可行性进行了理论验证.

Plate reinforced square hollow section X-joints subjected to in-plane moment

The static test of 13 square hollow section(SHS) X-joints with different β and different types of plate reinforcement under in-plane moment in brace was carried out. Experimental test schemes, failure modes of specimens, moment-vertical displacement curves, moment-deformation of the chord, and strain strength distribution curves were presented. The effect of β and plate reinforcement types on in-plane flexural property of SHS X-joints was studied. Results show that punching shear of chord face disappears, brace material fracture appears and concave and convex deformation of chord decrease when either collar plates or doubler plates were welded on chord face. Moment-vertical displacement curves of all specimens have obvious elastic, elastic-plastic and plastic stages. As β increases, the in-plane flexural ultimate capacity and initial stiffness of joints of the same plate reinforcement type increase, but ductility of joints decreases. With the same β, the in-plane flexural initial stiffness and ultimate capacity of doubler plate reinforced joints, collar plate reinforced joints, and unreinforced joints decrease progressively. Thickness of reinforcement plate has no obvious effect on in-plane flexural initial stiffness and ultimate capacity of joints. As thickness of reinforcement plate increases, the ductility of reinforced X-joints decreases. The concave and convex deformation of every specimen has good symmetry;as β increases, the yield and ultimate deformation of chord decrease.