Why does resistance welding not require non-destructive testing?
In fact, non-destructive testing is used to evaluate the quality of resistance welding. For example, through visual inspection, the position and spacing of solder joints, welding deformation and spatter of the product can be detected; the depth of indentation can also be detected with the help of measuring tools or magnifying glasses. , cracks and pores on the indentation surface; some internal defects can be detected through ultrasonic or radiographic inspection.
However, any testing method has its limitations. When a product has certain requirements for resistance welding joints, and non-destructive testing cannot confirm whether this requirement can be met, non-destructive testing cannot replace destructive testing. For example, our company has requirements for resistance welding nuts. To meet the breaking torque requirements, you need to use a torque wrench to unscrew the nut and measure whether the breaking torque meets the requirements. In addition, if there are requirements for the resistance welding joint such as nugget size, bending resistance, shear strength, etc., you can only use destructive testing Already.
In contrast, the weld quality of fusion welding can be guaranteed by non-destructive testing, while the joint strength of resistance welding is inherently low, and there are some very subtle defects that have a great impact on the strength of the joint, so non-destructive testing is not reliable. Welding quality can only be checked by destructive testing and ensured by monitoring the welding process.
But everyone knows that destructive testing destroys all products, which involves cost issues. For mass-produced products, the frequency of destructive testing is often stipulated, such as the first piece in each shift, once every 500 pieces, etc. For non- For standard products, and the single product value is high, destructive testing is often performed using test pieces that simulate the product. Compared with the impact of the outflow of defective products, the cost of these destructive testing is worth paying.
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This article focuses on the welding of high-strength steel. It expounds its characteristics like high strength and good toughness, and points out the technical key points such as pre-welding preparation and method selection. It highlights the application of resistance welding in it, including technical features, application scope, operation key points, difficulties and solutions, providing important guidance for related welding work.
This paper explores hot-formed steel welding. It details its ultra-high strength, good accuracy yet poor weldability. Key points include material selection, parameter optimization. Main methods like resistance, laser, arc welding are introduced. Challenges like cracks and solutions are also covered.
本文主要讨论铝合金。 首先阐述了其重量轻、强度高、耐腐蚀等特点。 然后详细介绍了电阻焊、TIG焊、MIG/MAG焊等常见的焊接方法及其特点和应用范围。 进一步分析了焊接过程中存在的变形、气孔、氧化膜、接头软化等技术难题,并提出了相应的解决方案。 总体上强调了铝合金焊接在现代工业中的重要意义、掌握正确的焊接技术的必要性,并展望了铝合金焊接技术随着科技的发展而不断创新和进步。
The article mainly focuses on stainless steel. It first elaborates on the characteristics of stainless steel, including different types like austenitic, martensitic, ferritic and duplex stainless steel, and its properties such as corrosion resistance. Then it presents main welding methods like resistance welding, manual arc welding, gas-shielded welding, laser welding and others, along with their application scopes and operating points. It also analyzes technical difficulties in welding such as hot cracking, intergranular corrosion, welding deformation and porosity, and proposes corresponding solutions. Overall, it emphasizes the complexity and importance of stainless steel welding.
This article introduces the FSPR Robotic Riveting Gun System as a solution to the riveting challenges faced by the automotive industry,
particularly in the assembly of new car roof components made of multi-layered, differently shaped workpieces. The system utilizes a servo cylinder to deliver high-tonnage riveting force with precision, complemented by real-time monitoring and data analysis. Its successful application has solved
technical challenges, enhanced the reliability of riveted connections, contributed to lightweighting automotive bodies, and driven technological progress in the automotive manufacturing industry.
Resistance welding
є
widely used
in automobile manufacturing, aerospace, electronic manufacturing and other
industries due to its efficiency and energy-saving properties
电阻焊机是现代工业的基石,其性能稳定可靠,直接关系到生产线的无缝运行和产品的卓越品质
In the low-voltage electrical industry, the welding quality of
the conductive busbar
is crucial to the overall performance and stability of the equipment