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Hebei Hongcheng Pipe Fittings Co., Ltd.

Astm A335 / Asme Sa335 Alloy Steel Tubes Gr P5 P9 P22 P91 4-34"

Product Details:
Place of Origin: China
Brand Name: HongCheng
Certification: PED、ABS、BV、DNV、GL、LR、SGS、IEI
Model Number: 6/38”
Payment & Shipping Terms:
Minimum Order Quantity: 0.5Ton
Price: Negotiable
Packaging Details: Standard export seaworthy package,or as required
Delivery Time: 5-15 work days
Payment Terms: L/C, D/P, T/T
Supply Ability: 8000MT/Month
  • Detail Information
  • Product Description

Detail Information

Standards: JIS AISI ASTM GB DIN CE Outside Diameter: Diameter 10.3 To 1219 Mm
Section Shape: Round Surface: Black Painted,PE Coated,Galvanized.
Graded: A335 P11, A335 P5, A335 P91, A335 P9, A335 P1, A335 P12, A335 P92, A335 P23, 15crmo, 10CRMO910, Cr5Mo, 12CrMo, Cr9Mo, 12cr1movg, 15CrMoG, A53-A369, Cr-Mo Alloy Packaging Details: Ply-wooden Case /Iron Case/ Bundle With Plastic Cap
High Light:

astm a335 p5 alloy steel tubes

,

4" alloy steel tubes

,

34" alloy steel seamless pipe

Product Description

A335 P9 alloy seamless steel pipe Astm A335/Asme Sa335 Gr.P5, P22, P91 4-34 "thick wall hot rolled steel

A335 P9 Alloy Steel Pipe ASTM A335/ASME SA335 Gr. P5, P9, P11, P22, P91

Standard: ASTM A335

grade:P1, P2,P5,P9,P11,P91,P92

OD:10.3-660mm

WT:1.6-60mm

Length:5.8m-12m or random legth

Technical: Quenching & Tempering

Application: Gas fire power plant, coal fire power plant, headers and steam lines, Feed water pipes,

super heaters and reheaters.

A335 P9 Alloy Steel Pipe that covers “chrome-moly” seamless pipes with remarkable resistance to

corrosion and good tensile strength at high-temperature service. Generally, ASTM A335 P11, P22,

and P91 pipes are used in power generation and in downstream oil and gas, P5 and P9 grades are

for refinery applications.

How to define alloy pipes?

Alloy pipes are tubular with higher percentages, than standard carbon steel pipes, of alloying elements

as Molybdenum (Mo), Chromium (Cr), Nickel, etc. Actually, the ASTM A335 covers “low-alloy” steel pipes,

i.e. pipes that have a total amount of alloying elements below 5%. The addition of higher percentages of

alloying elements (example Nickel and Chromium) transforms the steel into higher alloys, like stainless steel,

duplex, up to super-alloyed materials like Inconel, Hastelloy, Monel, etc.

Alloy steel pipes are used in the energy industry for high temperature and very low-temperature service

(cryogenic), or for applications with very high pressures.

ASTM A335 alloy steel pipes fit ASTM A234 WPx series buttweld fittings (WP5, WP9, WP91) and A182 Fx

forged fittings and flanges (A182 F5, F9, F11, F22, F91). All these materials have similar chemical and mechanical

properties and can be joined or welded.

Alloying elements

The addition of Molybdenum (“Moly”) increases the strength of the steel and its elastic limit, enhance

the steel resistance to wear, its impact qualities, and the hardenability. It also improves the resistance

to softening, makes chromium steel less prone to embrittlement and prevents pitting.

Chromium, a key element also for stainless steel alloys, prevents steel oxidation at elevated temperatures

and increases the resistance of steel to corrosion. It enhances the tensile, yield, and hardness properties

of low-alloy pipes at room temperatures.

Other alloying elements, present in various degrees in pipes of all grades are:

1. Aluminum: decreases oxygen from steelmaking

2. Boron: used to produce fine grain size and enhance steel hardness

3. Cobalt: used to enhance the steel’s heat and wear-resistance

4. Manganese: gives better steel hardenability

5. Nickel: Enhances toughness, hardenability and impact strength at low temperatures

6. Silicon: decreases oxygen, enhances hardenability and toughness

7. Titanium: prevents precipitation of chromium carbide

8. Tungsten: refines steel grain size and enhance the steel hardness, especially at high temperatures

9. Vanadium: gives steel enhanced fatigue resistance

As mentioned, low-alloy steels have a total amount of alloying elements below 5%; high alloy steel has a higher

percentage of these elements.

 

1.Chemical details:

Item C Si Mn P S Cr Mo
P1 0.10-0.20 0.10-0.50 0.3-0.80 ≤0.025 ≤0.025 / 0.44-0.65
P2 0.10-0.20 0.10-0.30 0.3-0.61 ≤0.025 ≤0.025 0.5-0.81 0.44-0.65
P5 ≤0.15 ≤0.50 0.3-0.60 ≤0.025 ≤0.025 4.0-6.0 0.44-0.65
P9 ≤0.15 ≤0.50 0.3-0.60 ≤0.030 ≤0.030 8.0-10.0 0.90-1.10
P11 0.05-0.15 0.5-1.0 0.3-0.60 ≤0.025 ≤0.025 1.0-1.50 0.44-0.65
P22 0.05-0.15 ≤0.50 0.3-0.60 ≤0.025 ≤0.025 1.9-2.60 0.87-1.13
P21 0.05-0.15 ≤0.50 0.3-0.60 ≤0.025 ≤0.025 2.65-3.35 0.80-1.06
P91 0.08-0.12 0.20-0.50 0.30-0.60 ≤0.020 ≤0.010 8.0-9.5 0.85-1.05
P15 0.05-0.15 1.15-1.65 0.30-0.60 ≤0.025 ≤0.025 / 0.44-0.65
 

Astm A335 / Asme Sa335 Alloy Steel Tubes Gr P5 P9 P22 P91 4-34" 0

 

Astm A335 / Asme Sa335 Alloy Steel Tubes Gr P5 P9 P22 P91 4-34" 1

Astm A335 / Asme Sa335 Alloy Steel Tubes Gr P5 P9 P22 P91 4-34" 2

CHEMICAL COMPOSITION
The types of alloy steel covered by the ASTM A335 – ASME SA335 specification are designed with a “P” prefix,
from P5 to P92. Grades P11/P22 and P91/92 are typically found in power stations, whereas grade P5 and P9 are
more common for application in the petrochemical industry. Grades P9, P91 are, in the list, the more expensive
(a P91 seamless pipe may cost approx 5€ per kg.).

Product Tags:

carbon steel seamless tube

carbon steel seamless pipes

ASTM A335
Low-Alloy

Steel
(Grades)

UNS
equivalent C≤ Mn P≤ S≤ Si≤ Cr Mo
P1 K11522 0.10~0.20 0.30~0.80 0.025 0.025 0.10~0.50 – 0.44~0.65
P2 K11547 0.10~0.20 0.30~0.61 0.025 0.025 0.10~0.30 0.50~0.81 0.44~0.65
P5 K41545 0.15 0.30~0.60 0.025 0.025 0.5 4.00~6.00 0.44~0.65
P5b K51545 0.15 0.30~0.60 0.025 0.025 1.00~2.00 4.00~6.00 0.44~0.65
P5c K41245 0.12 0.30~0.60 0.025 0.025 0.5 4.00~6.00 0.44~0.65
P9 S50400 0.15 0.30~0.60 0.025 0.025 0.50~1.00 8.00~10.00 0.44~0.65
P11 K11597 0.05~0.15 0.30~0.61 0.025 0.025 0.50~1.00 1.00~1.50 0.44~0.65
P12 K11562 0.05~0.15 0.30~0.60 0.025 0.025 0.5 0.80~1.25 0.44~0.65
P15 K11578 0.05~0.15 0.30~0.60 0.025 0.025 1.15~1.65 – 0.44~0.65
P21 K31545 0.05~0.15 0.30~0.60 0.025 0.025 0.5 2.65~3.35 0.80~1.60
P22 K21590 0.05~0.15 0.30~0.60 0.025 0.025 0.5 1.90~2.60 0.87~1.13
P91 K91560 0.08~0.12 0.30~0.60 0.02 0.01 0.20~0.50 8.00~9.50 0.85~1.05

ASTM A335
Low-Alloy

Steel
(Grades)

UNS
equivalent

C≤

Mn

P≤

S≤

Si≤

Cr

Mo

P1

K11522

0.10~0.20

0.30~0.80

0.025

0.025

0.10~0.50

0.44~0.65

P2

K11547

0.10~0.20

0.30~0.61

0.025

0.025

0.10~0.30

0.50~0.81

0.44~0.65

P5

K41545

0.15

0.30~0.60

0.025

0.025

0.5

4.00~6.00

0.44~0.65

P5b

K51545

0.15

0.30~0.60

0.025

0.025

1.00~2.00

4.00~6.00

0.44~0.65

P5c

K41245

0.12

0.30~0.60

0.025

0.025

0.5

4.00~6.00

0.44~0.65

P9

S50400

0.15

0.30~0.60

0.025

0.025

0.50~1.00

8.00~10.00

0.44~0.65

P11

K11597

0.05~0.15

0.30~0.61

0.025

0.025

0.50~1.00

1.00~1.50

0.44~0.65

P12

K11562

0.05~0.15

0.30~0.60

0.025

0.025

0.5

0.80~1.25

0.44~0.65

P15

K11578

0.05~0.15

0.30~0.60

0.025

0.025

1.15~1.65

0.44~0.65

P21

K31545

0.05~0.15

0.30~0.60

0.025

0.025

0.5

2.65~3.35

0.80~1.60

P22

K21590

0.05~0.15

0.30~0.60

0.025

0.025

0.5

1.90~2.60

0.87~1.13

P91

K91560

0.08~0.12

0.30~0.60

0.02

0.01

0.20~0.50

8.00~9.50

0.85~1.05

 

 Astm A335 / Asme Sa335 Alloy Steel Tubes Gr P5 P9 P22 P91 4-34" 3

 

CHEMICAL COMPOSITION

The types of alloy steel covered by the ASTM A335 – ASME SA335 specification are designed with a “P” prefix,

from P5 to P92. Grades P11/P22 and P91/92 are typically found in power stations, whereas grade P5 and P9 are

more common for application in the petrochemical industry. Grades P9, P91 are, in the list, the more expensive

(a P91 seamless pipe may cost approx 5€ per kg.).

Product Tags:

A335 P9 Alloy Steel Pipe ASTM A335/ASME SA335 Gr. P5, P9, P11, P22, P91

Standard: ASTM A335

grade:P1, P2,P5,P9,P11,P91,P92

OD:10.3-660mm

WT:1.6-60mm

Length:5.8m-12m or random legth

Technical: Quenching & Tempering

Application: Gas fire power plant, coal fire power plant, headers and steam lines, Feed water pipes,

super heaters and reheaters.

A335 P9 Alloy Steel Pipe that covers “chrome-moly” seamless pipes with remarkable resistance to

corrosion and good tensile strength at high-temperature service. Generally, ASTM A335 P11, P22,

and P91 pipes are used in power generation and in downstream oil and gas, P5 and P9 grades are

for refinery applications.

How to define alloy pipes?

Alloy pipes are tubular with higher percentages, than standard carbon steel pipes, of alloying elements

as Molybdenum (Mo), Chromium (Cr), Nickel, etc. Actually, the ASTM A335 covers “low-alloy” steel pipes,

i.e. pipes that have a total amount of alloying elements below 5%. The addition of higher percentages of

alloying elements (example Nickel and Chromium) transforms the steel into higher alloys, like stainless steel,

duplex, up to super-alloyed materials like Inconel, Hastelloy, Monel, etc.

Alloy steel pipes are used in the energy industry for high temperature and very low-temperature service

(cryogenic), or for applications with very high pressures.

ASTM A335 alloy steel pipes fit ASTM A234 WPx series buttweld fittings (WP5, WP9, WP91) and A182 Fx

forged fittings and flanges (A182 F5, F9, F11, F22, F91). All these materials have similar chemical and mechanical

properties and can be joined or welded.

Alloying elements

The addition of Molybdenum (“Moly”) increases the strength of the steel and its elastic limit, enhance

the steel resistance to wear, its impact qualities, and the hardenability. It also improves the resistance

to softening, makes chromium steel less prone to embrittlement and prevents pitting.

Chromium, a key element also for stainless steel alloys, prevents steel oxidation at elevated temperatures

and increases the resistance of steel to corrosion. It enhances the tensile, yield, and hardness properties

of low-alloy pipes at room temperatures.

Other alloying elements, present in various degrees in pipes of all grades are:

1. Aluminum: decreases oxygen from steelmaking

2. Boron: used to produce fine grain size and enhance steel hardness

3. Cobalt: used to enhance the steel’s heat and wear-resistance

4. Manganese: gives better steel hardenability

5. Nickel: Enhances toughness, hardenability and impact strength at low temperatures

6. Silicon: decreases oxygen, enhances hardenability and toughness

7. Titanium: prevents precipitation of chromium carbide

8. Tungsten: refines steel grain size and enhance the steel hardness, especially at high temperatures

9. Vanadium: gives steel enhanced fatigue resistance

As mentioned, low-alloy steels have a total amount of alloying elements below 5%; high alloy steel has a higher

percentage of these elements.

Astm A335 / Asme Sa335 Alloy Steel Tubes Gr P5 P9 P22 P91 4-34" 4

FAQ

Q: Can you accept a trial order only for several tons?

A: We can ship the regular specifications with LCL service.

Q: Do you provide free samples?

A: Yes, we could offer the sample for free, with the cost of freight paid by customer.

Q: How long is your delivery time?

A: Generally it is 7-10 days if goods are in stock or as your order requirement.

Q:How can you guarantee what I got will be good ?

A: We are factory with 100% pre delivery inspection which guarantee the quality.

Q: What is your terms of payment?

A: Payment<=8000USD, 100% in advance.

Payment>=8000USD, 30% T/T in advance ,balance before shippment. Or L/C at sight (For big order, LC at 30-90days can be acceptable)

 

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