共查询到20条相似文献,搜索用时 78 毫秒
1.
针对高温高压电站阀门体 座连接焊的“深孔环缝”特点 ,采用埋弧自动焊接方法进行了材料选择和焊接工艺评定实验 ,选择了合适的焊材及工艺并成功地应用于生产。 相似文献
2.
以典型的矩形断面形状药芯焊带轧制成形过程为研究对象,通过实验测试,得出了成形时主要工艺参数与相对压下量之间的变化规律,为药芯焊带轧制成形工艺设计提供了理论指导。 相似文献
3.
此文介绍尺寸为φ1547×L900×δ30的大直径TA2卷焊坯的制备工艺。主要包括卷焊坯设计、展开下料的计算、卷圆工艺、焊接工艺等,可供同类材质圆筒件卷圆时参考。 相似文献
5.
6.
7.
8.
电焊作业危害因素分析及预防措施 总被引:1,自引:0,他引:1
包武平 《安全.健康和环境》2004,4(5):33-35
电焊又称电弧焊,它是通过焊接设备产生的电弧热效应,促使被焊金属的截面局部加热熔化达到液态,使原来分离的金属结合成牢固的、不可拆卸的接头工艺方法.根据焊接工艺的不同,电弧焊可分为自动焊、半自动焊和手工焊. 相似文献
9.
10.
11.
目的 研究冷喷涂镍涂层对不锈钢焊点腐蚀行为的影响,为提高不锈钢焊接结构件的耐腐蚀性能提供依据。方法 采用冷喷涂技术在316L不锈钢电阻点焊结构件表面制备纯镍涂层,在金相组织、酸性盐雾腐蚀性能等检测分析基础上,研究不锈钢焊点在有涂层和无涂层条件下的腐蚀行为。结果 采用冷喷涂技术在不锈钢焊点表面制备出了孔隙率不大于0.5%的高致密纯镍涂层,带有涂层的不锈钢点焊结构件经过96 h酸性盐雾试验后,未发生腐蚀。结论 不锈钢表面钝化膜在点焊过程中发生破坏,基体裸露在腐蚀介质中,导致焊点区域发生腐蚀。在表面制备高致密镍涂层后,通过高耐蚀涂层对焊点进行屏蔽防护,有效提高其耐腐蚀性能,满足了某装备不锈钢结构件在酸性盐雾条件下的使用要求。 相似文献
12.
《Journal of Manufacturing Processes》2014,16(1):109-122
This paper presents some new evolutions of research works in the IRWTL at SJTU on intelligentized technologies for arc welding dynamic process and robot systems, including multi-information sensing of arc welding process, such as characteristic extraction of weld pool image, voltage, current, and sound, arc-spectral features; multi-information fusion algorithms for prediction of weld penetration; intelligentized modeling of welding dynamic process; intelligent control methodology for welding dynamic process; intelligentized technologies for robotic welding, such as guiding and tracking seam technology and intelligent control of weld pool and penetration in robotic welding process; and development of autonomous welding robot system for the special environment. The ideas of intelligentized welding manufacturing technology (IWMT) and intelligentized welding manufacturing engineering (IWME) are presented in this paper for systematization of intending researches and applications on intelligentized technologies for modern welding manufacturing. The studies of intelligentized welding presented in this paper establish the foundation work of intending researches and applications on intelligentized technologies for modern welding manufacturing. 相似文献
13.
《Journal of Manufacturing Processes》2014,16(4):485-493
Tungsten inert gas-metal inert gas (TIG-MIG) hybrid welding process is an effective way to improve welding productivity and quality due to advantages of the two processes. Mathematical analysis is crucial to fundamentally understand this synergetic welding process. In this study, based on experimental visualization of arc behaviors, some assumptions are proposed to deduce adaptive plane and volumetric heat source models separately for each involved welding method first. The influence of torch angles on distribution of temperature and geometry of weld bead are calculated and compared with experimental results. It shows that this developed algorithm of heat source can be employed to accurately predict welding process whether the electrode gun is slanted backward or forward to the direction of welding. Then TIG-MIG hybrid welding process is simulated and analyzed without considering the attractive or repulsive force of two arcs. The characteristic of TIG-MIG welding process is discussed compared to single MIG. It lays the foundation for the further research on the interaction of the two arcs during TIG-MIG hybrid welding. 相似文献
14.
15.
16.
17.
A fuzzy multi-attribute approach to select the welding process at high pressure vessel manufacturing
Metal welding process selection calls for extensive know-how which deals with a huge amount of knowledge. Hence, the automation of knowledge through a knowledge-based system will greatly enhance the decision-making process. Fuzzy analytical hierarchy process (AHP)-TOPSIS investigates the relative welding process selection factors and it can compare and evaluate different welding processes between 0 and 1.This paper describes a knowledge-base system developed for identifying the most appropriate welding processes to suit specific circumstances. In the present study, nine important welding processes were used in the system. Ten parameters namely alloy class, material thickness, deposition rate, design application, joint configuration, operator factor, capital cost, equipment portability, filler metal utilization and welding position, are used to determine the best selection among competitive welding processes for high pressure vessel production. Also the sensitivity analysis was carried out for five cases. 相似文献
18.
《Journal of Manufacturing Processes》2007,9(2):87-93
The viability of using 316L stainless steel in the ultrasonic consolidation process was examined in this work. Ultrasonic consolidation is an additive, free-form manufacturing process that employs ultrasonic welding and machining to form a part. The process ultrasonically joins layers of metal together by welding them one at a time. Once four layers of metal foil are welded together, welding is suspended and the system machines the part outline, and repeats this cycle until a component is completed. Experiments were conducted to determine the feasibility and processing parameters for ultrasonically welding stainless steel. Mechanical testing and optical microscopy were conducted. 316L stainless steel was successfully welded. Increasing welding amplitude and decreasing welding speed were the most effective way to increase weld peel strength. Unlike work in aluminum alloys, these experiments found no relationship between horn force and peel strength. Rough processing windows for ultrasonically welding 316L were identified. 相似文献
19.
Simultaneous measurement of the tool torque, traverse force and axial force during friction stir welding process is of great significance to the understanding of the underlying process mechanism and the optimizing of the process parameters. Different from the traditional measurement methods using load cell or rotating component dynamometer, an indirect but economical methodology is used in this study for the simultaneous measurement of the traverse force, axial force and tool torque by monitoring the output torques of the servo motors and main spindle three-phase AC induction motor inside the FSW machine. The values of the traverse force, axial force and tool torque are determined under different welding conditions, and the influencing factors are examined. The measured results in friction stir welding of AA2024-T4 aluminum alloys at different combinations of tool rotation speed and welding speed lay foundation for process optimization. 相似文献
20.
《Journal of Manufacturing Processes》2014,16(2):218-232
In ultrasonic metal welding processes, high-frequency ultrasonic energy is used to generate friction and heat at the interface between weld parts to produce solid-state bonds. It has been observed that sufficient energy is required to produce proper bonding, while excessive energy can cause such quality issues as weld fracture and perforation. Therefore, it is important to have a product/process design in ultrasonic welding to ensure efficient energy conversion from ultrasonics to welding energy, minimizing energy loss in the process. In this work, vibrational energy loss associated with the longitudinal and flexural vibrations of the Cu coupon during ultrasonic welding is studied by applying one-dimensional continuous vibration models. To facilitate our modeling, experimental results from the free response of Cu coupon were obtained to determine the damping characteristics of the Cu coupon in the welding process. Our analysis shows that substantial energy loss can occur during welding due to the flexural vibration of the Cu coupon, especially when the overhang (the upper part of the Cu coupon extended from the anvil) of the Cu coupon resonates at or close to the welding frequency (about 20 kHz), degrading the weld quality of battery tabs. This study contributes to understanding the fundamental dynamics of the Cu coupon during ultrasonic welding and its impact on weld quality. 相似文献