Iron-based alloy powder is commonly used in plasma transfer arc welding (PTAW) due to its excellent mechanical properties and high resistance to corrosion and heat. This type of powder is typically composed of iron as the base metal, along with various alloying elements such as nickel, chromium, molybdenum, and tungsten. Fe Alloy Powder,Stainless Powder,High Temperature Powder,Iron Base Pta Welding Powder Luoyang Golden Egret Geotools Co., Ltd , https://www.xtcwelding.com
The specific composition of the iron-based alloy powder may vary depending on the desired properties and application requirements. For example, adding nickel can increase the strength and toughness of the weld, while chromium enhances the corrosion resistance. Molybdenum and tungsten are often added to improve the high-temperature strength and creep resistance of the weld.
Iron-based alloy powders for PTAW are available in various particle sizes, typically ranging from a few micrometers to several hundred micrometers. The powder is usually fed into the plasma arc through a powder feeder, which ensures a controlled and consistent supply of powder during the welding process.
During PTAW, the powder is melted and deposited onto the workpiece, forming a weld bead. The high energy plasma arc provides the heat necessary to melt the powder and the base metal, creating a strong and durable weld joint.
Overall, iron-based alloy powder for plasma transfer arc welding offers excellent weldability, high mechanical properties, and resistance to corrosion and heat, making it suitable for a wide range of applications in industries such as aerospace, automotive, and power generation.
Large desalination project with the choice of the valve
Many large-scale desalination projects are under construction in the country. This article starts from the media, materials, anticorrosive treatment, structure and installation requirements, and analyzes the choice of process valves in desalination project engineering design. Process media desalination process, the need for special attention to chloride corrosion of equipment. In addition, the seawater temperature has a great effect on the corrosion rate, the higher the temperature, the faster the corrosion. Solid contaminants can damage the protective film and cause erosion. Various types of chemical contaminants can also increase the probability of corrosion. Ingredient Additives may be a man-made sea chemicals chemical pollutant, but from the corrosion point of view, the amount does not cause any problems. Sodium hypochlorite is sometimes used to inhibit algae, but too much dosage can cause severe pitting corrosion. Seawater desalination There are a variety of processes, of which the main reverse osmosis process for the sea water → pretreatment → ultrafiltration → reverse osmosis → product water (by-product of reverse osmosis concentrate), the main medium of the composition of the process shown in Table 1 ( Different seawater intake at different locations). Valve material In desalination project, valve material problems appear in the overcurrent components. At present, the commonly used flow components are mainly nickel aluminum bronze, stainless steel, duplex stainless steel and metal coating. Valve type Reasonable choice of valve type, can reduce material consumption, reduce local resistance and energy consumption, ease of installation, reduce maintenance. This article focuses on the choice of large-diameter shut-off valves and check valves. Shut-off valve Large desalination process diameter is generally DN300 ~ 1600, beyond the general range of ball valves and globe valves. Compared with the same diameter gate valve (Z41H), the butterfly valve has the advantages of simple structure, easy anti-corrosion, short installation length, less consumption of steel, and similar partial resistance coefficient of the valve. It is more economical and practical to choose the butterfly valve as the shut-off valve. According to the pressure level, the butterfly valve can be divided into low pressure butterfly valve and high pressure butterfly valve.