Steel Pipe Fittings

A182 F91 Wrought alloy steel tubes, flanges, wrought fittings and valves and other components for high temperature use.

Forged Pipe Fittings (Socket Weld and Threaded) are made in
accordance to ASME B16.11, MSS-SP-79/ 83/ 95/ 97 and BS3799
standards, and are used to connect nominal bore schedule pipes
and pipelines.

ASTM A182 F91 is an American standard Martensite type heat-resistant steel forgings, according to ASTM A182-2016.

The high chromium content gives these forgings fittings very good resistance to moisture erosion, which also contributes to their high temperature strength and resistance to scaling at high temperatures.

ASTM A182 Alloy Steel Forged Fittings are manufactured according to the ASTM A182 specification, which covers high pressure and high temperature service flanges covered by ASME B16.11, MSS-SP-79/ 83/ 95/ 97 and BS3799 standards.

ASTM 182 is used for pressure systems, including fittings, flanges,and similar parts that conform to specified dimensions or dimensional standards such as ASME codes.

Pipe Fittings are usually socket welded or threaded. The high chromium content gives these forgings fittings very good resistance to moisture erosion

Chromium molybdenum has a better strength-to-weight ratio than steel, which enables designers to use thinner walled tubing or smaller diameter tubing to reduce overall weight.

These ASTM A182 alloy steel F5 F9 F11 F12 F22 F91 pipe fittings are corrosion resistant. ASTM A182 alloy steel F5 F9 F11 F12 F22 F91 fittings also have high dimensional accuracy.

A105 is considered a type of forging carbon steel grade.

ASTM A105 is an iron-carbon alloy with carbon content of 0.0218%~2.11%. Also called carbon steel.

a105 is the American astm standard number, and a stands for common carbon structural steel. Standard name: Carbon steel forgings for pipe parts.

ASTM A105 is also called carbon steel, refers to the carbon content of WC less than 2% iron carbon alloy.

a105 is also a material code, belongs to the special steel, is a cold forged steel. The a105 is a mild steel forgings similar to the 20 steel.

Forgings mainly include die forging, free forging and cutting forming processes to manufacture pipe fittings.

Equal cross, generally for the professional term, four for pipe fittings, pipe connectors, used in the main pipeline to branch pipe.

A182-F11 belongs to the American standard pearlitic organization heat-resistant steel forgings

Forged pipe fittings refer to pipe fittings formed by forging in pipe fittings manufacturing industry. What is said here refers to the latter forging.

A182-F11 has high thermal strength (¦Äb¡Ý440MPa) and oxidation resistance at high temperature, and has certain resistance to hydrogen corrosion.

Tee for pipe fittings, pipe connectors. Also called pipe fittings tee or tee fittings, tee joints, used in the main pipe to branch pipe.

Tee is also known as pipe fitting tee or tee pipe fitting, tee joint, etc. Used mainly to change the direction of the fluid, used in the main pipe to branch pipe.

According to different varieties and requirements of pipe fittings, forging pipe fittings mainly adopts die forging, free forging and cutting forming processes.

For the pipe fittings of small size, such as tee, tee and elbow of socket welding and thread, the shape is relatively complex, so the die forging process should be used.

The pipe fittings of special shape or those not suitable for die forging can be manufactured by free forging process.The rough shape of pipe fitting should be forged by free forging; If the tee, should be forged out of the branch pipe.

A tee has three openings, namely an inlet and two outlets; A chemical pipe fitting with two inlets and one outlet, either T-shaped or Y-shaped

Coupling is a kind of fittings commonly used in industrial pipe connection.

The a105 is a mild steel forgings similar to the 20 steel.

Since only one type of carbon steel forging is specified in this standard, a105 is considered a type of forging carbon steel grade.

ASTM A105, also known as carbon steel, is an iron-carbon alloy with an internal carbon content of nearly 2 percent.

Titanium’s thermodynamic properties do not allow it to melt in normal conditions, because it becomes more reactive at elevated temperatures and can catch fire if the oxygen molecules are present in its environment.