Disc-type aluminum alloy sacrificial anode

Disc-type aluminum alloy sacrificial anode

First, cathodic protection technology is a type of electrochemical protection technology. Its main principle involves applying an external current to the surface of the corroded metal structure, making the protected structure act as a cathode, thereby inhibiting the electron transfer that causes metal corrosion and avoiding or reducing the occurrence of corrosion.

Second, as far as current cathodic protection technology is concerned, it has actually developed relatively maturely and is widely applied to corrosion control of metal structures such as steel pipelines, cables, steel docks, ships, storage tank bottoms, and coolers in soil, seawater, freshwater, and chemical media. Disc-type aluminum alloy sacrificial anode

Moreover, there are two types of cathodic protection technology: sacrificial anode cathodic protection and impressed current cathodic protection. Jiaozuo Libo Light Alloy Co., Ltd. is a professional manufacturer of products such as sacrificial anodes, magnesium alloy sacrificial anodes, aluminum alloy sacrificial anodes, zinc alloy sacrificial anodes, magnesium strips, zinc strips, reference electrodes, test stations, magnesium alloy rods, zinc grounding batteries, second-generation rainproof and theft-proof test stations, insulating joints, as well as auxiliary materials for cathodic protection, long-lasting reference electrodes, and high-silicon cast iron anodes for impressed current, potentiostats, etc. %03,91-7436,888%%

Detailed introduction of aluminum alloy and its applications:

Based on the composition and production process characteristics of aluminum alloys, they are generally divided into two major categories: wrought and cast aluminum alloys. The main alloys used industrially include aluminum-manganese, aluminum-magnesium, aluminum-magnesium-copper, aluminum-magnesium-silicon-copper, and aluminum-zinc-magnesium-copper alloys. Wrought aluminum alloys, also known as熟铝合金 (processed aluminum alloys), are further divided into five types based on their composition and performance characteristics: anti-rust aluminum, hard aluminum, super-hard aluminum, forged aluminum, and special aluminum. Disc-type aluminum alloy sacrificial anode

Aluminum alloys are made by adding some alloying elements to pure aluminum, such as aluminum-manganese alloys, aluminum-copper alloys, aluminum-copper-magnesium hard aluminum alloys, and aluminum-zinc-magnesium-copper super-hard aluminum alloys. Aluminum alloys have better physical and mechanical properties than pure aluminum: easy processing, high durability, wide range of applications, decorative effect, and rich patterns. Aluminum alloys are divided into anti-rust aluminum, hard aluminum, super-hard aluminum, etc. Each type has its own application range and code for users to choose from. Disc-type aluminum alloy sacrificial anode

Aluminum alloys still maintain the characteristic of being lightweight, but their mechanical properties are significantly improved. The applications of aluminum alloy materials fall into three aspects: first, as load-bearing components; second, as materials for doors, windows, pipes, covers, shells, etc.; third, as decorative and thermal insulation materials. Utilizing the characteristic that aluminum alloys can be colored after anodizing, various decorative items can be made. Aluminum alloy sheets and profiles can undergo secondary processing such as anti-corrosion, embossing, coating, and printing to make various decorative sheets and profiles as decorative materials.

Low cost, and the ability to mass-produce the same parts using one processing technique is also one of its characteristics.

Its material characteristics are lightweight, easy to process, and unlike carbon fiber, it does not have a maximum stress range in terms of endurance strength. What does this mean? That is, because carbon fiber has fiber characteristics, it has strong stress resistance in certain fiber directions, but its stress resistance in other directions is very poor. When manufacturing a relatively large component, several layers of carbon fiber may be used. When the stress capacity is exceeded, the component will become layered like shortbread. In contrast, after bearing a certain force, aluminum alloy will slowly deform and then fail.

Additionally, aluminum alloy is easy to process and has high heat dissipation. It is particularly suitable for use in vehicle engine parts. Here, it almost completely dominates.

Furthermore, aluminum alloy has a variety of processing techniques and strong versatility.

Jiaozuo Libo Light Alloy Co., Ltd. has been producing sacrificial anodes, aluminum alloy sacrificial anodes, magnesium alloy sacrificial anodes, zinc sacrificial anodes, and sacrificial anodes of various materials for many years. They have considerable research on anti-corrosion, and you can rest assured about both the technical construction and the materials provided. They sell marine zinc blocks and other sacrificial anodes nationwide, producing every day without delaying the supply cycle. Feel free to call for consultation and ordering.