What to consider when choosing a threaded, climate-resistant rubber connection
The high precision of the threaded climate-resistant rubber joint brings higher power penetration, which in turn reduces grain growth and brings better metallographic quality; on the other hand, the higher heat input of GTAW with a slower cooling process leads to a rough weld structure. It is believed that the fillet threaded climate-resistant rubber flexible joint process is faster than GTAW, they have the same scrap rate, and the former brings better metallurgical properties, which leads to higher explosive strength and higher formability.
When compared to flexible connections, the laser process does not oxidize the material process, which results in lower scrap rates and higher formability. In the welding of stainless steel threaded climate-resistant rubber connections, the welding depth is determined by the thickness of the threaded climate-resistant rubber connection. Thus, the production policy is to reduce the welding width to improve formability and achieve higher speeds. When selecting the appropriate laser, one must not only consider the quality of the flexible connection, but also the accuracy of the threaded weatherproof rubber connection. In addition, it is necessary to consider the constraints on reducing the light spot before errors in the scale of the threaded climate-resistant rubber connection come into play.
There are many scale issues specific to the welding of threaded weatherproof rubber connections, but the primary factor affecting the welding is the seam on the weld box (or more specifically, the weld roll). Once the strip has been formed and prepared for welding, the characteristics of the weld seam include: strip voids, misalignment of the weld, and changes in the centerline of the weld. The gap determines how much material is used to form the weld pool. Too much pressure will result in excess material at the top or perhaps inside diameter of the threaded weatherproof rubber joint. On the other hand, severe or perhaps subtle welding misalignment will result in a poor weld profile. After passing through the weld box, the threaded weatherproof rubber joint will be further trimmed.
This includes scale adjustments and shape (form) adjustments. On the other hand, rated work can remove some of the weld defects, but perhaps not all of them. Of course, we expect to achieve zero defects. Generally speaking, the rule of thumb is that welding defects should not exceed five percent of the material thickness. Beyond this value, the strength of the welded product will be affected. The presence of welded center lines is important for the production of threaded weatherproof rubber connections.
They can stain, wear and oscillate. The accuracy of these systems is 0.25 mm, which is not accurate for high quality threaded climate-resistant rubber connections. Threaded climate-resistant rubber connections have found their place in reducing the porosity of the weld, reducing the profile of the weld, while maintaining and perhaps improving the speed of the weld. Threaded weatherproof rubber connections further improve formability by reducing weld width. This development has led to the need for more stringent scale control and laser weld seam tracking in fillet threaded climate-resistant rubber joint plants.
