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Metallic Steel Pipes used in Process Industries (PDF)

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5/14/23, 10:39 PM
Metallic Steel Pipes used in Process Industries (PDF)
Metallic Steel Pipes used in Process Industries (PDF)
whatispiping.com/steels-used-in-process-piping-industry/
Anup Kumar Dey
September 17, 2019
Steel pipes are widely used in the process-piping industries. Various grades of steel
pipes are available in processing plants. In this article, we will discuss some of those in brief.
Carbon Steel Pipes
(Temperature Range -29 degree centigrade(C) to 427 degrees C)
This is the most common and cheapest material used in process plants. Carbon steels are
used in most general refinery applications. It is routinely used for most organic chemicals
and neutral or basic aqueous solutions at moderate temperatures. Carbon steels are
extensively used in a temperature range of (-) 29 degrees centigrade to 4270 centigrade
Low-Temperature Carbon steel (LTCS) pipes
(LTCS-Temp range -45.5 degrees C to 427 degrees C)
LTCS can be used at a low temperature of (- 45.5) degrees centigrade. Killed Carbon Steel
is defined as those which are thoroughly deoxidized during the melting process. Deoxidation
is accomplished by the use of silicon, manganese, and aluminum additions to combine with
dissolved gases, usually, oxygen, during steelmaking. This results in cleaner, better-quality
steel which has fewer gas pockets and inclusions. Killed carbon steel is specified for major
equipment in the following services to minimize the possibility or extent of hydrogen
blistering and hydrogen embrittlement:
where hydrogen is a major component in the process stream.
where hydrogen sulfide H2S is present with an aqueous phase or where liquid water
containing H2S is present.
Process streams containing any amount of Hydrofluoric acid (HF), boron trifluoride
(BF3), or (BF) compounds; or
Monoethanolamine (MEA) and diethanolamine (DEA) in solutions of greater than 5
weight percent.
If by mistake carbon steel pipe is installed in place of LTCS, then click here to know what you
can do to accept that.
Low Alloy Steel Pipe
(Temperature range -29 degrees C to 593 degrees C)
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Metallic Steel Pipes used in Process Industries (PDF)
Low Alloy Steel pipes contain one or more alloying elements to improve the mechanical or
corrosion-resisting properties of carbon steel. Nickel increases toughness and improves lowtemperature properties & corrosion resistance. Chromium and silicon improve hardness,
abrasion resistance, corrosion resistance, and resistance to oxidation. Molybdenum provides
strength at elevated temperatures. Some of the low alloy steels are listed below.
Carbon
1/2% Moly and Manganese
1/2% Moly:
These low alloy steels are used for higher temperature services and most frequently for
intermediate temperatures for their resistance to hydrogen attack. They have the same
maximum temperature limitation as killed steel (ASME Code 1000 deg. F) but the strength
above 700 deg.F is substantially greater.
1% chrome
1/2% Moly and 1 1/4% Chrome
1/2% Moly:
These alloys are used for higher resistance to hydrogen attack and sulfur corrosion. They
are also used for services where temperatures are above the rated temperature for C 1/2
Mo steel.
2 1/4 Chrome 1% Moly and 3% chrome
1% Moly:
These alloys have the same uses as 1 1/4% Cr but have greater resistance to hydrogen
attack and higher strength at elevated temperatures.
5% chrome
1/2% Moly:
This alloy is used most frequently for protection against combined sulfur attacks at
temperatures above 550 deg.F. Its resistance to hydrogen attack is better than 2 1/4% Cr_
1% Moly.
9% Chrome 1% Moly:
This alloy is generally limited to heater tubes. It has a higher resistance to high sulfur stocks
at elevated temperatures. It also has a maximum allowable metal temperature in oxidizing
atmospheres.
Stainless Steel Pipes
(Temperature range -257 degrees C to 538 degrees C)
They are heat & corrosion-resistant, noncontaminating, and easily fabricated into complex
shapes. There are three groups of Stainless steel.
1. Martensitic Stainless Steel
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Metallic Steel Pipes used in Process Industries (PDF)
2. Ferritic Stainless Steel and
3. Austenitic Stainless Steel
Martensitic stainless steel pipes
Martensitic alloys contain 12-20 percent chromium with a controlled amount of carbon and
other additives. Type 410 is a typical member of this group. These alloys can be hardened
by heat treatment, which can increase tensile strength. Corrosion resistance is inferior to
Austenitic Stainless steel and these are generally used in mildly corrosive environments.
Ferritic stainless steel pipes
Ferritic steels contain 15-30 percent chromium with low carbon content(0.1 percent). The
higher chromium content improves its corrosion resistance. A typical member of this group is
Type 430. The strength of these can be increased by cold working but not by heat treatment.
Type 430 is widely used in nitric acid plants. In addition, it is very resistant to scaling and
high temp oxidation up to 800-degree cent.
Austenitic stainless steel pipes
Austenitic steels are the most corrosion-resistant of the three groups. These steels contain
16-26 percent of chromium and 6-22 percent nickel. Carbon is kept low (0.08 percent max)
to minimize carbide precipitation. Welding may cause chromium carbide precipitation, which
depletes the alloy of some chromium and lowers its corrosion resistance in some specific
environments, notably nitric acid. The carbide precipitation can be eliminated by heat
treatment(solution annealing). To avoid precipitation special steels stabilized with titanium,
niobium, or tantalum have been developed (Types 321,347 & 348). Another approach to the
problem is the use of low-carbon stainless steel such as types 304L & 316L with .03 percent
max carbon.
The addition of molybdenum to austenitic alloy (types 316, 316L) provides generally better
corrosion resistance and improved resistance to pitting. The chromium-nickel steels,
particularly the 18-8 alloys, perform best under oxidizing conditions since the resistance
depends on an oxide film on the surface of the alloy. Reducing conditions and chloride ions
destroy this and bring on the rapid attack. Chloride ions tend to cause pitting and crevice
corrosion. When combined with high tensile stresses they can cause stress-corrosion
cracking.
Click here to learn about the differences between carbon steel and stainless steel
A detailed list of commonly used steels in hydrocarbon industries is given in the following
table:
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Metallic Steel Pipes used in Process Industries (PDF)
ASTM Designated Common Ferrous Piping Materials
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Metallic Steel Pipes used in Process Industries (PDF)
Ferrous Piping Materials
Click here to know about Common Non-Ferrous Materials used in Process Piping Industry
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