High Quality Galvanized Steel Tube/Pipe 1 X 36 Zinc Plated Steel Tubingl Tubing
Benefits of Using High quality galvanized steel tube/ Pipe for industrial applications Galvanized steel tubes and pipes are essential components in various industrial applications due to their durability, strength, and corrosion resistance. One popular option is the 1 x 36 zinc-plated steel tubing, which offers numerous benefits for a wide range of industries. One of…
Benefits of Using High quality galvanized steel tube/ Pipe for industrial applications
Galvanized steel tubes and pipes are essential components in various industrial applications due to their durability, strength, and corrosion resistance. One popular option is the 1 x 36 zinc-plated steel tubing, which offers numerous benefits for a wide range of industries. One of the primary advantages of using high-quality galvanized steel tubes and pipes is their exceptional durability. The zinc coating applied to the steel surface provides a protective barrier against rust and corrosion, extending the lifespan of the tubing. This makes galvanized steel tubes an ideal choice for outdoor applications or environments with high levels of moisture or humidity.
How to properly Maintain and Extend the Lifespan of High Quality Galvanized Steel Tube/Pipe
Galvanized steel tubes and pipes are widely used in various industries due to their durability and resistance to corrosion. However, like any other Material, they require proper Maintenance to ensure their longevity and performance. In this article, we will discuss how to properly maintain and extend the lifespan of high-quality galvanized steel tube/pipe. One of the most important steps in maintaining galvanized steel tubes and pipes is to regularly inspect them for any signs of damage or corrosion. This can be done by visually inspecting the surface of the tubes and pipes for any rust or discoloration. If any damage is found, it should be Repaired immediately to prevent further deterioration. In addition to visual inspections, it is also important to regularly clean galvanized steel tubes and pipes to remove any dirt, debris, or other contaminants that can cause corrosion. This can be done using a mild detergent and a soft brush or cloth. After cleaning, the tubes and pipes should be thoroughly rinsed with clean water to remove any residue. Another important aspect of maintaining galvanized steel tubes and pipes is to protect them from harsh environmental conditions. Exposure to extreme temperatures, moisture, and chemicals can accelerate corrosion and reduce the lifespan of the tubes and pipes. To prevent this, it is recommended to store galvanized steel tubes and pipes in a dry, well-ventilated area away from direct sunlight and moisture.Labels a | Calculated mass c | ||||||||||
Nominal Linear Mass T& C b,c | Wall Thick- ness | em, Mass Gain or Loss Due to End Finishing d | |||||||||
Outside diameter | inside Diameter | Drift Diameter | Plain- end | kg | |||||||
round Thread | Buttress Thread | ||||||||||
wpe | |||||||||||
D | kg/m | t | D | mm | kg/m | Short | Long | RC | SCC | ||
mm | mm | mm | |||||||||
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 |
13 3/8 | 48 | 339.72 | 71.43 | 8.38 | 322.96 | 318.99 | 68.48 | 15.04 | — | — 17.91 | — |
13 3/8 | 54.5 | 339.72 | 81.1 | 9.65 | 320.42 | 316.45 | 78.55 | 13.88 | — | 16.44 | — |
13 3/8 | 61 | 339.72 | 90.78 | 10.92 | 317.88 | 313.91 | 88.55 | 12.74 | — | 14.97 | — |
13 3/8 | 68 | 339.72 | 101.19 | 12.19 | 315.34 | 311.37 | 98.46 | 11.61 | — | 14.97 | — |
13 3/8 | 68 | 339.72 | 101.19 | 12.19 | 315.34 | 311.37 | 98.46 | 11.67 f | — | 14.33 | — |
13 3/8 | 72 | 339.72 | 107.15 | 13.06 | 313.6 | 311.15 e | 105.21 | 10.98 | — | 13.98 | — |
13 3/8 | 72 | 339.72 | 107.15 | 13.06 | 313.6 | 311.15 e 309.63 309.63 | 105.21 | 10.91 f | — | 14.33 | — |
13 3/8 | 72 | 339.72 | 107.15 | 13.06 | 313.6 | 105.21 | 10.98 | — | 13.98 | — | |
13 3/8 | 72 | 339.72 | 107.15 | 13.06 | 313.6 | 105.21 | 10.91 e | — | — | ||
16 | 65 | 406.4 | 96.73 | 9.53 | 387.4 | 382.57 | 96.73 | 18.59 | — | — 20.13 | — |
16 | 75 | 406.4 | 111.61 | 11.13 | 384.1 | 379.37 | 108.49 | 16.66 | — | 18.11 | — |
16 | 84 | 406.4 | 125.01 | 12.57 | 381.3 | 376.48 | 122.09 | 14.92 | — | — | — |
16 | 109 | 406.4 | 162.21 | 16.66 | 373.1 | 368.3 | 160.13 | — | — | — | |
18 5/8 | 87.5 | 473.08 | 130.21 | 11.05 | 450.98 | 446.22 | 125.91 | 33.6 | — | 39.25 | — |
20 | 94 | 508 | 139.89 | 11.13 | 485.7 | 480.97 | 136.38 | 20.5 | 27.11 | 24.78 | — |
20 | 94 | 508 | 139.89 | 11.13 | 485.7 | 480.97 | 136.38 | 20.61 | 27.26 g 24.27 17.84 | 24.78 | — |
20 | 106.5 | 508 | 158.49 | 12.7 | 482.6 | 477.82 | 155.13 | 18.22 | 22 | — | |
20 | 133 | 508 | 197.93 | 16.13 | 475.7 | 470.97 | 195.66 | 13.03 | 16.02 | — | |
NOTE See also Figures D.1, D.2, and D.3. | |||||||||||
a Labels are for information and assistance in ordering. | |||||||||||
b Nominal linear masses, threaded and coupled (Column 4) are shown for information only. | |||||||||||
c The densities of martensitic chromium steels (l80 types 9Cr and 13Cr) are less than those of carbon steels; The masses shown are therefore not accurate for martensitic chromium steels; A mass correction factor of 0.989 shall be used. | |||||||||||
d Mass gain or loss due to end finishing; See 8.5. | |||||||||||
e Drift diameter for most common bit size; This drift diameter shall be specified in the purchase agreement and marked on the pipe; See 8.10 for drift requirements. | |||||||||||
f Based on 758 mPa minimum yield strength or greater. | |||||||||||
g Based on 379 mPa minimum yield strength. |