2022年6月26日星期日

Summary of common knowledge of flanges

Flange, or flange, also translated as rim or flange, also translated as "Buddha Leng" in Cantonese, means a symmetrical disc-like structure used to connect pipes, containers or fixed shaft mechanical parts, usually with bolts and threaded structures for fixing.

 

Introduction

The flange is the main part of the flange connection. FA flange connection is a pair of flanges, sealing gaskets and bolts, nuts, washers and other parts composed of detachable parts.

 

The main parameters of the standard flange are nominal diameter, nominal pressure and sealing surface type.

 


Classification

1, according to the chemical (HG) industry standards: integral flange (IF), threaded flange (Th), plate flat welding flange (PL), necked butt welding flange (WN), necked flat welding flange (SO), socket welding flange (SW), butt welding ring loose flange (PJ/SE), flat welding ring loose flange (PJ/RJ), lined flange cover (BL(S)), flange cover (BL).

2, according to the petrochemical (SH) industry standards: threaded flange (PT), butt welding flange (WN), flat welding flange (SO), socket welding flange (SW), loose flange (LJ), flange cover (not table note).

3, according to the machinery (JB) industry standards: the whole flange, butt welding flange, plate flat welding flange, butt welding ring plate loose flange, flat welding ring plate loose flange, flanged ring plate loose flange, flange cover.

4, according to the national (GB) standard: the whole flange, threaded flange, butt welding flange, necked flat welding flange, necked socket welding flange, butt welding ring-necked loose set flange, plate type flat welding flange, butt welding ring plate type loose set flange, flat welding ring plate type loose set flange, flanged ring plate type loose set flange, flange cover.

 

Material

WCB (carbon steel), LCB (low-temperature carbon steel), LC3 (3.5% nickel steel), WC5 (1.25% chromium 0.5% molybdenum steel), WC9 (2.25% chromium), C5 (5% chromium 0.5% molybdenum), C12 (9% chromium 1% molybdenum), CA6NM (4 (12% chromium steel), CA15 (4) (12% chromium), CF8M (316 stainless steel), CF8C (347 stainless steel), CF8 (304 stainless steel), CF3 (304L stainless steel), CF3M (316L stainless steel), CN7M (alloy steel), M35-1 (Monel), N7M (Hastelloy B), CW6M (Hastelloy C), CY40 (Inconel), etc.

 

Connection method

Flange connection is the two pipes, fittings or equipment, each fixed in a flange, between the two flanges, plus the flange gasket, bolted together, completed the connection. Some pipe fittings and equipment already comes with a flange, which is also a flange connection. Flange connection is an important connection method for pipeline construction. Flange connections are easy to use and can withstand large pressures. In industrial piping, within the home, the pipe diameter is small and it is low pressure and the flange connection is not visible. If you are in a boiler room or production site, there are flange-connected pipes and equipment everywhere.

 

According to the connection method flange connection types can be divided into plate flat welding flange, necked flat welding flange, necked butt welding flange, socket welding flange, threaded flange, flange cover, necked butt welding ring loose flange, flat welding ring loose flange, ring groove surface flange and flange cover, large-diameter flat flange, large diameter high neck flange, eight blind, butt welding ring loose flange, etc.

 

Welding quality

As iron plate welding flange, many customers question if the quality of iron plate welding flange is better than wrought welding flange. In fact, the quality of iron plate welding flange and forged welding flange quality is the same, but the iron plate welding flange in the end can not be guaranteed, that is, the material of the iron plate welding flange is not guaranteed, because the general process, the density of iron plate welding flange is not a problem, but in the process of production, the iron plate welding flange blank is rarely tested, so that the production After coming out, the material of the iron plate welding flange can not be guaranteed without testing.

 

Production standards

National standard: GB/T9112-2010 (GB9113-1-2010 ~ GB9123-4-2010)

Ministry of Chemical Industry standards: HG5010-52 ~ HG5028-58, HGJ44-91 ~ HGJ65-91, HG20592-2009 series, HG20615-2009 series

Ministry of Machinery standards: JB81-59 ~ JB86-59, JB/T79-94 ~ JB/T86-94, JB/T74-1994

Pressure vessel standards: JB1157-82~JB1160-82, NB/T47020-2012~NB/T47027-2012, B16.47A/B B16.39 B16.

 

Standard system

The international pipe flange standard mainly has two systems, namely, the European pipe flange system represented by Germany DIN (including the former Soviet Union) and the American pipe flange system represented by the American ANSI pipe flange. In addition, there are Japanese JIS pipe flanges, but petrochemical plants are generally used only for public works and have less impact on the international level. Now the pipe flanges of various countries are introduced in the following.

1, Germany and the former Soviet Union as the representative of the European system pipe flange

2, the American system pipe flange standards, represented by ANSI B16.5 and ANSI B 16.47

3, the British and French pipe flange standards, two sets of pipe flange standards in each country.

In summary, the international common pipe flange standards can be summarized as two different, and not interchangeable pipe flange systems: a European pipe flange system represented by Germany; the other is the American pipe flange system represented by the United States.

IOS7005-1 is a standard promulgated by the International Organization for Standardization in 1992, which is actually a pipe flange standard that combines two series of pipe flanges from the United States and Germany

 

Common failures

In the continuous production of modern industry flange by media corrosion, scouring, temperature, pressure, vibration and other factors, there will be inevitable leakage problems. Due to the error of the sealing surface processing size, sealing components of aging and improper installation and fastening and other reasons are very easy to cause the flange leakage. If the flange leakage problem can not be time management, the washout of the medium will make leakage rapidly expand, resulting in material loss, damage to the production environment, resulting in enterprise downtime, resulting in huge economic losses. If it is toxic and harmful, flammable and explosive media leakage, and may cause poisoning, fire and explosion and other major accidents.

The traditional solution for flange leakage is to replace the sealing components and apply sealant or replace the flange and piping, but the method has great limitations, and some leakage is restricted by the requirements of the safety of the working environment, and can not be solved on-site. Now it is possible to use polymer composite materials for on-site plugging, of which the application is more mature with the system of Fushi Blue. It is a very ideal method, especially on flammable and explosive occasions, but also to show its unique superiority. The construction process of polymer composite material technology is simple, safe and low cost, which can solve most of the flange leakage problems for enterprises, eliminate safety hazards and save more maintenance costs for enterprises.

 

Scope of application

Because the flange has good comprehensive performance, it is widely used in the chemical industry, construction, water supply, drainage, petroleum, light and heavy industry, refrigeration, sanitation, plumbing, fire-fighting, electric power, and aerospace, shipbuilding and another basic engineering.

2022年6月15日星期三

THE DIFFERENCE BETWEEN HOT-DIP GALVANIZING AND COLD GALVANIZED



Hot-dip galvanizing and cold galvanized the difference:

 

1. Galvanizing, also known as hot-dip galvanized, he is the ingot melted at high temperatures, a number of supplementary materials in place, then dipped galvanized metal structure slot, the metal component on a layer of zinc coating. The advantages of hot-dip galvanizing corrosion of his ability, adhesion and hardness of zinc coating are better

 

“Cold plated” or “plating”, ie the zinc salt solution by electrolysis, to the plating on the coating, generally does not have heating, a small amount of zinc, the wet environment is very easy to fall off.

 

2. Hot dip galvanized (galvanizing)

 

Hot-dip galvanizing is a chemical treatment, that is an electrochemical reaction.

Cold galvanizing is the physical address, just brush the surface layer of zinc, and the zinc layer is easy to fall off. Construction in the use of hot dip galvanizing.

 

Continuous hot dip galvanizing process: steel → heating → cooling to the temperature galvanized → cooling →

 

Cold galvanized zinc is only 10-50g/m2, its own corrosion resistance to hot dip galvanized a lot of different. Galvanized at a relatively cheaper price.

Hot dip galvanized steel body is hot dip galvanized surface under the condition of its adhesion strong, not easy to fall off, although their hot dip galvanized pipe corrosion phenomenon, in a very long period to meet technical, health requirements.

 

3. Technological differences

 

First of all, is a difference between the process: hot-dip galvanizing is the workpiece degreasing, pickling, dipping, and drying liquid immersion in molten zinc certain period of time, which can be raised.

Also known as electro-galvanized cold galvanizing, is to uses electrolysis devices workpiece through the degreasing, pickling ingredients post into the zinc salt solution, and connect the anode electrolysis equipment; in place across parts of zinc plate connected to the electrolysis equipment positive, power on, use of current from the cathode to the anode of the directional movement of the workpiece will be deposited in a layer of zinc.

Zinc finished the difference: no cold galvanized hot-dip galvanizing delicate bright appearance, but the thickness of zinc coating of cold galvanizing aspects of hot-dip galvanizing is a few times. Galvanized corrosion resistance is also several times.

 

4. Environmental issues

 

Fewer emissions of some hot-dip galvanizing.

Galvanized pollutants are mainly artifacts of waste acid pickling.

 

Cold galvanized pollutants include parts of the waste acid pickling, electroplating waste, and liquid waste such as passivation.

Cold galvanized the type and quantity of pollutants discharged are much more than hot dip galvanizing.

Hot-dip zinc standards: GB/T13912-92

Hot-dip galvanizing: hot dip galvanizing process is generally completed after Hemming when the load is not less than 5mm thick flat steel, the galvanized zinc coating after the average weight of not less than 610 grams / square meter; when the load is flat steel thickness less than 5mm, the galvanized zinc coating after the average weight of not less than 460 grams / square meter, and after galvanizing quality requirements should be consistent with the provisions GB/T13912

 

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