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    3PE Anti-corrosion Steel Pipes
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    3PE Anti-corrosion Steel Pipes

    Detail

    The full name of TPEP anti-corrosion steel pipe is Internal Fusion-Bonded Epoxy and External 3PE Anti-Corrosion Steel Pipe.

    It uses steel pipe as the base material. The inner wall is coated with fusion-bonded epoxy powder through high-temperature melting and uniform application, forming a steel-plastic alloy layer. The outer wall adopts a three-layer structure of wrapped polyethylene for anti-corrosion protection.

    TPEP anti-corrosion steel pipe is an upgraded product based on composite steel pipes with external single-layer polyethylene and internal epoxy coating, representing the fourth-generation new anti-corrosion production technology.

    • Internal fusion-bonded epoxy coating (thickness > 0.4 mm):

      Chemical corrosion resistance, cathodic disbondment resistance, smooth surface, environmentally friendly.

    • First layer: epoxy powder (¡Ý 120 ¦Ìm):

      Chemical corrosion resistance, cathodic disbondment resistance.

    • Second layer: adhesive (¡Ý 170 ¦Ìm):

      Bonds the underlying epoxy layer and the outer polyethylene layer.

    • Third layer: polyethylene (2.2¨C4.2 mm):

      Mechanical protection and corrosion resistance.



    1.Development and application of the product at home and abroad

    abroad

    In the early 1980s, it took the lead in applying in Europe

    domestic

    Stage

    Study tour

    Equipment introduction

    Widely used

    time

    1994

    1995

    1996

    2000Äê

    Unit / Organization

    CNPC system

    Liaohe Oilfield Construction Company

    Baoji Yadong Anti-corrosion Company

    PetroChina Qinghai Oilfield Company (West-to-East Gas Transmission Project ¨C Se-Ning-Lan Pipeline)


    2. Product Performance

    TPEP composite coating:

    Both polyethylene and epoxy have excellent corrosion resistance. Polyethylene is a thermoplastic material with good flexibility and impact resistance.

    Epoxy resin is a polar molecule containing hydroxyl groups, which can easily react with steel pipe at a certain temperature and exhibits extremely strong adhesion. Therefore, the combination of these two materials is currently the optimal match in the anti-corrosion industry.

    (1) Excellent Corrosion Resistance and Impermeability

    Epoxy coating and polyethylene layer feature high impermeability, high sealing performance, and strong insulation properties.

    • Peel strength (N/cm):

      ¡Ý 100 at 20¡æ¡À5¡æ,

      ¡Ý 70 at 60¡æ¡À5¡æ.


    Corrosion resistance is 3¨C5 times higher than that of composite steel pipes with internal EP and external PE coating.

    Design service life is no less than 50 years (applied in domestic oil & gas fields for more than 20 years, and abroad for more than 30 years).

    (2) Smooth Inner Wall, Low Roughness

    Inner wall roughness: 0.0081¨C0.0091, average 0.0086 (tested by the Test Center of China Institute of Water Resources and Hydropower Research).

    Low head loss, and scaling is not easy to occur on the inner wall.

    (3) Light Weight and High Toughness of 3PE Anti-corrosion Steel Pipe

    Light weight and high toughness make construction, installation and hoisting convenient.

    It adapts to various complex terrains, has low requirements for foundations, and features strong resistance to foundation settlement and earthquakes.

    (4) Green, Safe and Environmentally Friendly

    The internal fusion-bonded epoxy powder is food-grade and green. The external wall is wrapped with polyethylene, which is environmentally friendly and has passed hygiene, health and safety inspections.

    (5) Strong Adhesion and Good Impact Resistance

    The inner wall and outer base layer adopt medium-frequency heating for fusion-bonded epoxy powder, which greatly improves coating adhesion.

    The outer polyethylene winding layer significantly enhances impact resistance.

    High toughness, strong resistance to stress cracking, and good impact resistance (impact strength ¡Ý 8 J/mm).

    3. Application Fields

    This product is suitable for water conservancy, municipal water supply, petroleum and natural gas transmission, coal mines, power plants and other fluid transmission projects.

    4. Implementation Standards

    • External anti-corrosion layer:

      GB/T 23257-2017Polyethylene Coating for Buried Steel Pipelines


    • Internal anti-corrosion layer:

      CJ/T 120-2016Plastic-Coated Composite Steel Pipes for Water Supply

    ¨‹Internal epoxy coating thickness£¨CJ/T120-2016£©

    DN£¨mm£©

    Inner Coating (Epoxy Resin) Thickness£¨mm£©

    DN¡Ü300

    ¡Ý0.35

    350¡ÜDN¡Ü800

    ¡Ý0.4

    DN¡Ý900

    ¡Ý0.45

    Hygienic performance (for drinking water transmission) complies with the provisions of GB/T 17219

    ¨‹Thickness of the external 3PE anti-corrosion coating£¨GB/T23257-2017£©

    Nominal diameter of steel pipe

    DN£¨mm£©

    Epoxy coating

    £¨¦Ìm£©

    External 3PE anti-corrosion layer thickness

    £¨¦Ìm£©

    Minimum thickness of the anti-corrosion layer£¨mm£©

    Normal Grade£¨G£©

    Enhanced Grade£¨S£©

    250<DN<500

    ¡Ý120

    ¡Ý170

    2.2

    2.9

    500¡ÜDN<800

    ¡Ý150

    2.5

    3.2

    800¡ÜDN¡Ü1200

    3.0

    3.7

    DN>1200

    3.3

    4.2

    Only applicable to three-layer polyethylene anti-corrosion coating, not applicable to two-layer polyethylene anti-corrosion coating.

    ¨‹Performance Indicators of External 3PE Anti-corrosion Coating£¨GB/T23257-2017£©

    Item

    Performance Indicators

    Test Method

    Peel Strength£¨N/cm£©

    20¡æ¡À5¡æ

    60¡æ¡À5¡æ

    ¡Ý100£¨Cohesive failure£©

    ¡Ý70£¨Cohesive failure£©

    GB/T23257 ¸½Â¼K

    Cathode Disbondment£¨60¡æ£¬48h£©

    ¡Ü5mm

    GB/T23257 ¸½Â¼D

    Impact Strength

    £¨J/mm£©

    ¡Ý8

    GB/T23257 ¸½Â¼L

    Bending Resistance£¨-30¡æ£¬2.5¡ã£©

    Polyethylene without cracking

    GB/T23257¸½Â¼E

    £¨80¡æ£¬48h£©

    Average edge lifting depth¡Ü2mm

    Max¡Ü3mm

    GB/T23257¸½Â¼M

    Curing Degree of Epoxy Powder£¨%£©

    ¡Ý95

    GB/T23257¸½Â¼

    5.Anticorrosion process flow

    ·Â·ð¹¤Òսṹ.jpg

    6.Specifications and Dimensions

                                                 Specification and Size Table of TPEP Composite Steel Pipe

    Nominal diameterDN£¨mm£©

    Outer diameter of steel pipe/mm

    Conventional wall thickness£¨mm£©

    Single length£¨m£©

    Series¢ñ

    Series¢ò

    400

    406.4

    426

    6

    12

    500

    508

    529

    7

    12

    600

    610

    630

    8

    12

    700

    711

    720

    8

    12

    800

    813

    820

    8

    12

    900

    914

    920

    10

    12

    1000

    1016

    1020

    12

    12

    1200

    1219

    1220

    12

    12

    1400

    1622

    1420

    14

    12

    1600

    1626

    1620

    14

    12

    1800

    1829

    1820

    16

    12

    2000

    2032

    2020

    18

    12

    The actual wall thickness shall be designed according to the actual working conditions and operating conditions.


    7. Connection Method

    (1) Butt Welded Joint

    The construction and installation of TPEP composite steel pipes mainly adopt the butt welding method. Although the construction and installation cost is relatively higher than that of flexible joints, the joint sealing performance and safety factor are higher.

    Butt welding forms a butt groove weld. In terms of weld strength and stress conditions, the butt welded joint is superior to the socket joint. Therefore, butt welding is recommended for working conditions with high pressure levels and complex service environments.


    £¨1£©.jpg


    (2) Lined Stainless Steel Interface

    To solve the issue of field joint coating on the inner wall of small-diameter pipes, C304 stainless steel is welded onto the inner wall at both ends of the steel pipe, eliminating the need for additional inner wall joint coating.

    This method is generally only used for pipes with a diameter of DN600mm and below (with slightly higher construction cost).



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