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15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube
Specifications
Brand Name :
Hengxin Zhicheng
Model Number :
High-Pressure Boiler Tube
Certification :
ASTM, GB, ISO, etc.
Place of Origin :
CHINA
MOQ :
1 PCE
Price :
Negotiation
Payment Terms :
L/C, T/T
Delivery Time :
10 to 35 days
Packaging Details :
Default bare pipe bundling, or packaging according to customer requirements, such as oil cloth packaging, wooden box packaging, frame packaging
Description

15crmog High-Pressure Boiler Tube

15CrMoG is a chromium-molybdenum (Cr-Mo) alloy steel tube specifically designed for high-temperature and high-pressure applications in power generation, petrochemical, and industrial boiler systems. As a seamless steel tube, it conforms to strict international standards, including GB 5310 (China), ASTM A335 (USA), and EN 10216-2 (Europe), ensuring reliability in critical environments. The "G" in its designation denotes its use in high-pressure boiler systems, highlighting its suitability for transporting superheated steam, hot water, and other high-temperature fluids under extreme conditions.

Dimensional tolerance:
Pipe types Outer-caliber(D) Thickness(S)
Pipe outer-caliber(mm) Allowable warp(mm) Pipe thickness(mm) Allowable warp(mm)
Hot-rolled pipes >219~457 ±1.0% ≤20 -10%,+12.5%
>20~40 -10%,+10%
>457~1066 ±0.9% >40~70 -7%,+9%
>70~120 -6%,+8%
Mechanical Properties:
Standards Steel pipes No. Tensile strength(MPa) Bend strength(MPa) Elongation(%) Impact energy(J) Hardness
GB3087 10 335~475 ≥195 ≥24 /
20 410~550 ≥245 ≥20 /
GB5310 20G 410~550 ≥245 ≥24 ≥35 /
20MnG ≥415 ≥240 ≥22 ≥35 /
25MnG ≥485 ≥275 ≥20 ≥35 /
15CrMoG 440~640 ≥235 ≥21 ≥35 /
12Cr2MoG 450~600 ≥280 ≥20 ≥35 /
12Cr1MoVG 470~640 ≥255 ≥21 ≥35 /
10Cr9Mo1VNb ≥585 ≥415 ≥20 ≥35 /
ASME SA106 SA106B ≥415 ≥240 ≥22 ≥35 /
SA106C ≥485 ≥275 ≥20 ≥35 /
ASME SA333 SA333Ⅰ级 ≥380 ≥205 ≥28 -45≥18 /
ASME SA335 SA335 P11 ≥415 ≥205 ≥22 ≥35 ≤163HB
SA335 P12 ≥415 ≥220 ≥22 ≥35 ≤163HB
SA335 P22 ≥415 ≥205 ≥22 ≥35 ≤163HB
SA335 P5 ≥415 ≥205 ≥22 ≥35 ≤187HB
SA335 P91 585~760 ≥415 ≥20 ≥35 ≤250HB
SA335 P92 ≥620 ≥440 ≥20 ≥35 250HB
DIN17175 ST45.8/Ⅲ 410~530 ≥255 ≥21 ≥27(DVM) /
15Mo3 450~600 ≥270 ≥22 ≥34(DVM) /
13CrMo44 440~590 ≥290 ≥22 ≥34(DVM) /
10CrMo910 480~630 ≥280 ≥20 ≥34(DVM) /
EN10216-2 15NiCuMoNb5-6-4 (WB36) 610~780 ≥440 ≥19 ≥40 /

Chemical composition:

Standards Steel pipes No. Chemical composition(%)
C Si Mn P S Cr Mo Cu Ni V Al W Nb N
GB3087 10 0.07~0.13 0.17~0.37 0.38~0.65 ≤0.030 ≤0.030 0.3~0.65 / ≤0.25 ≤0.30 / /
20 0.17~0.23 0.17~0.37 0.38~0.65 ≤0.030 ≤0.030 0.3~0.65 / ≤0.25 ≤0.30 / /
GB5310 20G 0.17~0.24 0.17~0.37 0.35~0.65 ≤0.030 ≤0.030 ≤0.25 ≤0.15 ≤0.20 ≤0.25 ≤0.08
20MnG 0.17~0.25 0.17~0.37 0.70~1.00 ≤0.030 ≤0.030 ≤0.25 ≤0.15 ≤0.20 ≤0.25 ≤0.08
25MnG 0.23~0.27 0.17~0.37 0.70~1.00 ≤0.030 ≤0.030 ≤0.25 ≤0.15 ≤0.20 ≤0.25 ≤0.08
15CrMo 0.12~0.18 0.17~0.37 0.40~0.70 ≤0.030 ≤0.030 0.80~1.10 0.40~0.55 ≤0.20 ≤0.30
12Cr2MoG 0.08~0.15 ≤0.50 0.40~0.70 ≤0.030 ≤0.030 2.00~2.50 0.90~1.20 ≤0.20 ≤0.30
12Cr1MoV 0.08~0.15 0.17~0.37 0.40~0.70 ≤0.030 ≤0.030 0.90~1.20 0.25~0.35 ≤0.20 ≤0.30 0.15~0.30
10Cr9Mo1VNb 0.08~0.12 0.20~0.50 0.30~0.60 ≤0.020 ≤0.010 8.00~9.50 0.85~1.05 ≤0.20 ≤0.40 0.18~0.25 ≤0.015 0.06~0.10 0.03~0.07
ASME SA106 SA106B 0.17~0.25 ≥0.1 0.70~1.00 ≤0.030 ≤0.030
SA106C 0.23~0.27 ≥0.1 0.70~1.00 ≤0.030 ≤0.030
ASME SA333 SA333Ⅰ 0.09~0.12 / 0.7~1.00 ≤0.020 ≤0.010
SA333Ⅵ 0.09~0.12 ≥0.1 0.9~1.10 ≤0.020 ≤0.010
ASME SA335 SA335 P11 0.05~0.15 0.50~1.0 0.30~0.60 ≤0.030 ≤0.030 1.00~1.50 0.50~1.00
SA335 P12 0.05~0.15 ≤0.50 0.30~0.61 ≤0.030 ≤0.030 0.80~1.25 0.44~0.65
SA335 P22 0.05~0.15 ≤0.50 0.30~0.60 ≤0.030 ≤0.030 1.90~2.60 0.87~1.13
SA335 P5 ≤0.15 ≤0.50 0.30~0.60 ≤0.030 ≤0.030 4.00/
6.00		 0.45/
0.65
SA335 P91 0.08~0.12 0.20~0.50 0.30~0.60 ≤0.020 ≤0.010 8.00~9.50 0.85~1.05 ≤0.40 0.18~0.25 ≤0.015 0.06~0.10 0.03~0.07
SA335 P92 0.07~0.13 ≤0.50 0.30~0.60 ≤0.020 ≤0.010 8.50~9.50 0.30~0.60 0.30~0.60 ≤0.40 0.15~0.25 ≤0.015 1.50~2.00 0.04~0.09 0.03~0.07
DIN 17175 ST45.8/Ⅲ ≤0.21 0.10~0.35 0.40~1.20 ≤0.040 ≤0.040 ≤0.30
15Mo3 0.12~0.20 0.10~0.35 0.40~0.80 ≤0.035 ≤0.035 0.25~0.35
13CrMo44 0.10~0.18 0.10~0.35 0.40~0.70 ≤0.035 ≤0.035 0.70~1.10 0.45~0.65
10CrMo910 0.08~0.15 ≤0.50 0.30~0.70 ≤0.025 ≤0.020 2.00~2.50 0.90~1.10 ≤0.30 ≤0.30 ≤0.015
EN1021 6-2 15NiCuMoNb5-6-4 (WB36) ≤0.17 0.25~0.50 0.80~1.20 ≤0.025 ≤0.020 ≤0.30 0.25~0.50 0.50~0.80 1.00~1.30 ≤0.05 0.015~0.045

Chemical Composition and Mechanical Properties

The exceptional performance of 15CrMoG stems from its optimized chemical composition:

  • Carbon (C): 0.12-0.18% - Provides fundamental strength and hardness.
  • Chromium (Cr): 0.80-1.10% - Enhances oxidation and corrosion resistance at elevated temperatures.
  • Molybdenum (Mo): 0.40-0.55% - Improves high-temperature strength and creep resistance.
  • Other elements like Silicon (Si), Manganese (Mn), Phosphorus (P), and Sulfur (S) are controlled to ensure weldability, toughness, and purity.

Mechanical Properties:

  • Tensile Strength: ≥440 MPa
  • Yield Strength: ≥295 MPa
  • Elongation: ≥22%
  • These properties ensure structural integrity under high internal pressures and mechanical loads.

Manufacturing Process

15CrMoG tubes are manufactured using a seamless process, typically hot extrusion or rotary piercing, followed by cold drawing to achieve precise dimensions and superior surface quality. Key steps include:

  • Smelting: Electric arc furnace refining with secondary refining (e.g., ladle furnace) ensures low impurity levels and homogeneous composition.
  • Heat Treatment: Normalizing (at ~900-960°C) and tempering (at ~680-730°C) optimize the microstructure, enhancing toughness and stress relief.
  • Testing: Each batch undergoes rigorous non-destructive testing (ultrasonic, eddy current) and hydrostatic tests to guarantee defect-free performance.

High-Temperature Performance and Microstructure

15CrMoG operates reliably in temperatures up to 550°C, owing to its stable microstructure and alloy design:

  • Creep Resistance: Molybdenum forms stable carbides, resisting deformation under prolonged stress and high temperatures.
  • Oxidation Resistance: Chromium forms a protective Cr₂O₃ layer, preventing scaling and degradation in steam environments.
  • Microstructure: The heat-treated structure consists of fine bainite or ferrite with pearlite, balancing strength and ductility.

Applications

15CrMoG is widely used in:

  • Superheaters and reheaters in coal-fired and biomass power plants.
  • High-pressure steam pipelines and headers in industrial boilers.
  • Heat exchangers and catalyst tubes in petrochemical industries.
  • Its durability reduces downtime and maintenance costs, making it a preferred choice for critical infrastructure.

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Product Detail
Brand Name :
Hengxin Zhicheng
Model Number :
High-Pressure Boiler Tube
Certification :
ASTM, GB, ISO, etc.
Place of Origin :
CHINA
MOQ :
1 PCE
Price :
Negotiation
Contact Supplier
15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube
15crmog High-Pressure Boiler Tube

Wuxi Hengxin Zhicheng International Trade Co., LTD

Verified Supplier
1 Years
wuxi
Since 2014
Business Type :
Manufacturer, Trading Company
Main Products :
Mechanical Structure Pipe, Conveyor Pipe, Precision Tube
Total Annual :
30000000-50000000
Employee Number :
<300
Certification Level :
Verified Supplier
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