Fireproof coated plastic PIPE API gas line is slightly seamless
Fire coated plastic pipe, With straight or seamless steel tube as the base pipe, the outer wall is coated with thermosetting powder coating with high adhesion, impact resistance, corrosion resistance and weather resistance, and the inner wall is coated with thermoplastic powder coating with high adhesion, corrosion resistance and food hygiene.
Using sandblasting chemical double pretreatment, preheating, inner coating, outer coating, curing, post treatment and other processes, made of water supply plastic coated composite steel pipe, is the traditional steel plastic pipe, galvanized pipe upgrade type of cost-effective products. Products through the national chemical building materials testing center fire professional certification.
The corrosion and scaling problems of common steel pipes in the process of burying and transporting water were solved by applying plastic coating to steel pipes or galvanized pipes. The phenomenon of pipe blockage and spray blockage is eliminated, and the service life of the pipe is improved. The service life of the coated steel pipe is more than 50 years. The powder coating of plastic steel tube added flame retardant and modified epoxy resin powder, the temperature resistance of the coating is superior, and does not burn or soften in long-term use. Coated plastic steel pipe has both the high strength of ordinary steel pipe and anti-corrosion properties of plastic grease products. The compressive performance of the product reaches 0-5.0mpa.
Fire Coated Plastic Pipe, Pipeline Interface
Thread connection for: DN15-DN100
Groove connection for: DN65-DN400;
Bimetal welding connection for: DN100-DN800
Flange connection is suitable for: suitable for any caliber;
Welding connection is suitable for: suitable for any diameter;
Fire Coated Plastic Pipe, The Use Of Temperature
0 ~ 110 degrees long-term use.
Fire Coated Plastic Pipe, Coating Thickness
Between 100 microns and 500 microns, usually 350 microns.
Fire Coated Plastic Pipe, Product Features
1. Health non-toxic, no scaling, no breeding of microorganisms, ensure the quality of fluid
2. Resistant to chemical corrosion, soil and Marine organisms, cathodic stripping
3. The installation process is mature, convenient and quick, and the connection with ordinary galvanized pipe is the same
4. Good weather resistance, suitable for harsh environment such as desert, salt and alkali
5. Smooth pipe wall, improve conveying efficiency, long service life
Fire Coated Plastic Pipe, Detection Method
A visual inspection
Visually inspect the appearance quality of the coated steel pipe, and the test results shall comply with the provisions of 5.1.
Thickness measurement
Two cross sections of different lengths are taken from both ends of the coated steel pipe. In each cross section, the coating thickness at any four points directly intersecting the circumference is measured with the electromagnetic thickness gauge. The test results shall conform to the provisions of 5.4.
Pinhole test
The length of the pipe section specimen is about 1000 mm. The coating of the steel tube is inspected by the spark leak detector under the specified test voltage. The coating thickness is less than 0.4mm, the test voltage is 1500 V, the coating thickness is more than 0.4mm, and the test voltage is 2000 V. Check whether electric spark is generated and test result should conform to 5.5.
Adhesion test
The adhesion test shall be carried out according to 7.4.2 of CJ/T 120-2008, and the test results shall conform to 5.6.
Bending test
Bend test for coated steel pipe DN≤50mm. The length of the pipe section specimen is (1200±100) mm.
At the temperature of (20±5) ℃, 8 times of the nominal diameter of the steel pipe as the radius of curvature, bending Angle of 30O, bending on the pipe bender or die. When bending test, there is no filler in the tube, and the weld is located on the side of the main bending surface.
After the test, cut the specimen from the middle of the curved arc to check the inner coating, and the test results should comply with the provisions of 5.7.
Flattening test
DN> The 50 mm coated steel tube shall be compressed. The length of pipe section specimen is (50±10) mm.
At the temperature of (20±5) ℃, the specimen was placed between two plates and compressed gradually on the pressure test machine until the distance between the two plates was four-fifths of the outer diameter of the specimen. The welded seam of the coated steel pipe was perpendicular to the direction of load application. After the test, the inner coating shall be checked and the test results shall conform to 5.8.
Impact test
A sample about 100 mm in length was cut from any position of the coated steel pipe, and the impact test was carried out according to the provisions in Table 2 at the temperature of (20±5) ℃ to observe the damage of the inner coating. During the test, the weld shall be in the opposite direction of the impact surface, and the test result shall comply with the provisions of 5.9.
Table 2 Impact test conditions
Nominal diameter DN
Mm hammer weight, kg falling height, mm
15-251.0300
32 ~ 502.1500
80 ~ 3006.31000
Impact test apparatus
Vacuum test
The length of the pipe section specimen is (500±50) mm. Use appropriate measures to block the inlet and outlet of the pipe, and gradually increase the negative pressure from the inlet to 660 mm hg, keep it for 1 min. After the test, check the inner coating, and the test results should comply with the provisions of 5.10.
High temperature test
The length of the pipe section specimen was (100±10) mm. The specimen was placed in the incubator and heated to (300±5) ℃ for 1 h. Then it was removed and cooled naturally to normal temperature. After the test, take out the specimen and check the inner coating (darker and darker appearance is allowed), and the test results should comply with 5.11.
Low temperature test
The pipe section specimen was of (100±10) mm in size and length. The specimen was placed in a cryogenic chamber, cooled to (-30±2) ℃ and kept at a constant temperature for 1 h. Then it was removed and placed at a temperature of (20±5) ℃ for (4-7) h. At the end of the test period, the specimen shall be taken out to check the inner coating, and the adhesion test shall be carried out according to the provisions of 6.4, and the test results shall conform to the provisions of 5.12.
Pressure cycle test
The length of the pipe section specimen was (500±50) mm. Appropriate measures were used to block the inlet and outlet of the pipe, and the pipe was connected with the water supply system. Water was filled to remove air, and then 3000 alternating hydrostatic tests from (0.4±0.1) MPa to MPa were carried out, and the period of each test was not more than 2 s. After the test, the inner coating shall be checked and the adhesion test shall be carried out according to the provisions of 6.4, and the test results shall conform to the provisions of 5.13.
Temperature cycle test
The length of the pipe section specimen was (500±50) mm. The specimens were placed for 24 h at each temperature in the following order:
(50±2) ℃;
(-10±2) ℃;
(50±2) ℃;
(-10±2) ℃;
(50±2) ℃;
(-10±2) ℃.
After the test, the specimen was placed in an environment with a temperature of (20±5) ℃ for 24 h. The inner coating was checked and the adhesion test was carried out according to the provisions of 6.4. The test results should conform to the provisions of 5.14.
Warm water aging test
The size and length of the pipe section specimen is about 100 mm. The exposed parts at both ends of the pipe section should be treated with anticorrosion. The pipe section should be soaked in distilled water at (70±2) ℃ for 30 days.
Specification
Fire coated plastic pipe | |||||
OD (mm) |
WT (mm) |
OD (mm) |
WT (mm) |
OD (mm) |
WT (mm) |
219 |
4-8 |
558.8 |
4-12 |
914.4 |
8-16 |
273 |
4-8 |
609.6 |
4-12 |
965.2 |
8-16 |
325 |
4-8 |
630 |
4-12 |
1020 |
8-16 |
377 |
4-8 |
711.2 |
4-13 |
1220 |
8-16 |
406 |
4-12 |
720 |
8-13 |
1420 |
8-20 |
426 |
4-12 |
762 |
8-14 |
1620 |
8-20 |
478 |
4-12 |
812.8 |
8-14 |
1820 |
8-20 |
508 |
4-12 |
863 |
8-14 |
2020 |
8-20 |