Hot-dip pure zinc products, code is GI.

용융 순수 아연 제품의 특징은 아름다운 표면, 우수한 내식성 및 우수한 가공성입니다.

It is divided into two types, one is normal zinc spangles, and the other is zinc-free spangles. In the past, hot-dip galvanized products always had some zinc spangles on the surface because the lead in the zinc liquid could not be refined very pure, so our old concept is that hot-dip galvanizing has zinc spangles. With the needs of the automotive industry, if hot-dip galvanized automotive plates are to be painted, zinc spangles will have an impact on the painting. Later, by reducing the lead content in zinc ingots and zinc liquid to dozens of ppm, we can produce products with no or very little zinc spangles. For some special uses such as buildings, if you still like large zinc spangles, we can add elements such as lead or antimony to the zinc liquid to obtain large and beautiful zinc spangles.

합금 제품의 코드는 GA입니다.

The advantage of this product is that the paint adhesion of the coating surface is particularly good, the corrosion resistance after painting is also very good, and its weldability is also very good.

But its surface morphology is gray, which is not suitable for bare use. We do not recommend it if it is not painted, because its coating contains 7-15% iron. If it is not painted, this part of iron will generate a very light red rust. Although the red rust will not expand further in terms of corrosion resistance, the appearance is not very good.

Therefore, the main use of zinc-iron alloy is still in the use occasions with painting, just like the outer panel of the car and the side panel of the refrigerator. GA products can be directly used. For refrigerator processing, it can be directly powder-sprayed without pre-treatment, and the adhesion is also very good.

Aluminum-zinc products

The characteristics are particularly good corrosion resistance and beautiful surface appearance. Its zinc flowers look like beautiful fish scales, very beautiful, and can be used directly bare.

Its corrosion resistance is 2-6 times that of our ordinary hot-dip galvanizing. Its high temperature resistance is also relatively good. It can be used at 300℃ without discoloration. If used for a short time, it also has a better color retention ability at 700℃, and has excellent heat reflection effect.

Therefore, this kind of product is now widely used in the construction and home appliance industries.

Before hot-dip galvanized steel pipe welding, the hot-dip galvanized steel pipe is mainly heated, and welding begins after temperature control for 30 minutes. The heating, solid layer temperature and heat treatment process of welding are automatically controlled by the temperature control cabinet of the heat treatment process. The far-infrared crawler heat treatment furnace is used to automatically set the curve and describe the curve, and the thermal resistor measures the temperature.

During heating, the distance between the thermal resistance measurement points is 15mm-20mm from the weld boundary. In order to better prevent the hot-dip galvanized steel pipe from welding deformation, each column joint is welded symmetrically by two people, and the welding direction is from the middle to both sides.

When welding the inner opening, the first to the third layer must be operated in small specifications, because its welding is the primary cause of welding deformation.

After welding one to three layers, clean the reverse side. After removing the root with carbon arc air gouging, the weld needs to be mechanically polished and polished, and the weld surface needs to be combed for nitriding treatment to expose the metal texture to prevent the surface from being optimistically carbonized and cracked. The outer mouth needs to be welded once, and there will be some residual material in the inner mouth. When welding the second layer of hot-dip galvanized steel pipe, the welding direction should be opposite to that of the layer, and so on. Each layer of welding joints should be spaced 15-20mm apart.

When welding hot-dip galvanized steel pipes, the welding current, welding speed and number of welding stacks of the two welders should be consistent. When welding, the welding should start from the arc starting plate and end on the arc starting end plate. Cut off and grind and polish after welding.

Post-weld heat treatment: The heat treatment process should be carried out within 12 hours after the weld is welded. If the heat treatment process cannot be carried out immediately, insulation, slow cooling and other methods should be used. After the quenching and tempering treatment is completed, two thermal resistors should be used to measure the temperature, and the thermal resistors should be welded on both sides of the weld. According to the “Standards for Construction and Inspection of Steel Structure Engineering”, the welds are inspected by ultrasonic flaw detectors, and the inspection market share is 100%.

1. Galvanized pipes and fixtures should be cleaned of foreign objects such as oil, residual salt, paint, etc. before heat treatment;

2. The fixtures used in the vacuum furnace for the first time should be degassed and purified in advance at a vacuum degree not lower than the required degree of the workpiece;

3. Workpieces that are easy to deform during the heat treatment process should be heated on special fixtures. The preheating methods are: one preheating is 800℃, the second preheating is 500-550℃ and 850℃, and the temperature rise rate of the first preheating should be limited;

4. Workpieces with complex shapes or sharp changes in cross-section and large effective thickness should be preheated;

5. Workpieces with grooves and no through holes, castings and welded parts, and stainless steel workpieces that have been processed and formed are generally not suitable for heating in salt bath furnaces;

6. According to the effective thickness and conditional thickness of the workpiece (actual thickness multiplied by the workpiece shape coefficient), the galvanized pipe should have sufficient insulation time for heating;

7. Galvanizing of martensitic stainless steel and heat-resistant steel The pipe can be cleaned, cryogenically treated or tempered only after quenching and cooling to room temperature. The time interval between welding and subsequent heat treatment should not exceed 4 hours;

8. According to the requirements and surface conditions of the galvanized pipe, alkali washing, water-soluble cleaning agent, chlorine solvent sandblasting, shot blasting and other methods should be used for cleaning;

9. After correction, stress relief annealing should be carried out at a temperature lower than the original tempering temperature. For workpieces with complex shapes or strict size requirements, correction should be carried out with a shaping fixture combined with tempering during tempering after correction;

10. When the mechanical properties of the galvanized pipe are unqualified, repeated heat treatment can be carried out, but the number of repeated quenching or solid solution is generally not more than two times. Supplementary tempering of galvanized pipes is not counted as repeated treatment. Martensitic stainless steel and heat-resistant steel workpieces in the quenched state or after low-temperature tempering should be preheated, annealed or high-temperature tempered before repeated quenching.

To improve the quality of galvanized pipes, it is necessary to reduce zinc slag to reduce the iron content in the zinc liquid, that is, to start with the factors that reduce iron dissolution. Only in this way can a high-quality galvanized layer be formed on the surface of our galvanized square pipes.

Plastic-coated steel pipes are used everywhere in life, such as building water supply pipes, fire water supply pipes, special pipes for coal mines, hot spring anti-corrosion and thermal insulation pipes, and cable protection pipes commonly seen in modern life. Common steel-plastic composite pipes are actually mainly plastic-lined steel pipes and plastic-coated steel pipes. The following is an explanation of the application of plastic-coated steel pipes.

According to the different internal and external coating materials, they can be divided into epoxy resin coated steel pipes and polyethylene coated steel pipes. Both are based on welded steel pipes and seamless steel pipes. They are green and environmentally friendly pipes that are corrosion-resistant, erosion-resistant, non-toxic, and radiation-free.

Corrosion of steel is very common, and the economic losses caused by it are huge. Plastic-coated steel pipes retain the rigidity and strength of traditional metal pipes due to the coating of the inner and outer walls. The rigidity and strength are far superior to plastic pipes and aluminum-plastic pipes; at the same time, because the inner wall is also sprayed, the pipe has the characteristics of smooth inner wall, small friction resistance and no scaling, and the outer wall is more beautiful. The good qualities of these pipes have won inherent advantages for their wide application.

Furthermore, the connection method between pipes is the most important issue in the building materials industry. Whether the connection strength is reliable, whether it is convenient to install and maintain, and whether it can adapt to harsh natural conditions are the most concerned issues for each unit. The current plastic-coated steel pipe manufacturers are very humane. From the perspective of customers, design, construction and other units, the connection method, steel pipe length and color can be specified.

Plastic-coated steel pipes are used for various fluid transportation and have excellent corrosion resistance and relatively small friction resistance. Epoxy resin coated steel pipes are suitable for the transportation of water supply and drainage, seawater, warm water, oil, gas and other media, and polyvinyl chloride coated steel pipes are suitable for the transportation of drainage, seawater, oil, gas and other media. It is used in various forms of circulating water systems (civilian circulating water, industrial circulating water), with excellent performance and anti-corrosion life of up to 50 years; fire water supply systems, water supply and drainage transportation of various buildings, various chemical fluid transportation, and underground pipes and crossing pipes for wires and cables.

Plastic-coated steel pipes combine the excellent anti-corrosion properties of polyethylene and epoxy with the super anti-deformation ability of steel pipes. They have simple processes, convenient construction, high mechanical strength, and fully automatic coating equipment, which reduces the probability of recoating and rework, saves time and costs, is environmentally friendly, has a long service life, is safe and hygienic, has a wide range of applications, and has excellent anti-corrosion effects.

급수용 내부 및 외부 플라스틱 코팅 강관에는 다음과 같은 특징이 있습니다:

First, the inner surface of the internal and external plastic-coated steel pipes has a plastic coating, which can keep the inside of the pipe smooth, reduce the resistance to water flow, and increase the flow of water. In addition, because the water volume is relatively smooth, the water flow needs can be ensured. At the same time, no scaling will occur inside the pipeline during use, and bacteria will not breed, reducing water pollution.

둘째, 내부 및 외부 플라스틱 코팅 강관의 외부 표면에는 플라스틱 코팅이되어있어 플라스틱 코팅 강관의 적응성을 높일 수 있습니다. 강관 외부 표면의 코팅은 내식성, 강한 내수성, 높은 내 산화성 및 우수한 내 용매성을 향상시킵니다. 또한 플라스틱 코팅 강관에 대한 환경 영향을 줄일 수 있습니다. 물을 공급할 때 파이프를 지하에 매설해야 하기 때문에 외부 코팅을 추가하면 파이프의 수명을 효과적으로 연장할 수 있습니다.

플라스틱 코팅 강관 검사 절차는 어떻게 되나요?

플라스틱 코팅 강관의 주요 검사 방법에는 외관 검사, 외관 검사, 핀홀 테스트, 굽힘 테스트, 평탄화 테스트, 저온 테스트 등이 있습니다. 각 검사 방법에는 고유한 초점이 있습니다.

외관 검사는 코팅 강관의 외관 품질을 육안으로 검사하는 것입니다.

두께 측정은 두 단면의 둘레에 있는 네 개의 직교 지점에서 코팅 두께를 측정하는 것입니다.

핀홀 테스트는 전기 스파크 누설 탐지기를 사용하여 지정된 테스트 전압에서 강관 코팅을 확인하고 전기 스파크가 있는지 확인하는 것을 말합니다.

벤딩 테스트는 일반적으로 파이프 벤딩 머신 또는 몰드에서 수행됩니다. 굽힘 테스트 중에 파이프에 필러가 없고 용접부가 주 굽힘 표면의 측면에 위치한다는 점은 주목할 가치가 있습니다.

평탄화 시험은 두 개의 평판 사이에 시편을 놓고 두 평판 사이의 거리가 시편 외경의 5분의 4가 될 때까지 압력 시험기에서 서서히 압축하는 것입니다. 평탄화하는 동안 코팅 강관의 용접부는 하중 적용 방향에 수직이 됩니다. .

저온 실험은 테스트 제품을 저온 상자에 넣고 한 시간 동안 그대로 두었다가 상온 환경에 놓는 것을 말합니다.