Welded/Square Low ERW Grade B Galvanized/Carbon/Stainless Seamless Steel Pipe for Oil and Gas
the importance of welded/square Low erw grade B galvanized/carbon/stainless seamless steel Pipe in the Oil and gas industry The oil and gas industry is one of the most crucial sectors in the global economy. It plays a vital role in meeting the energy demands of various industries and households. To ensure the smooth functioning of…
the importance of welded/square Low erw grade B galvanized/carbon/stainless seamless steel Pipe in the Oil and gas industry
The oil and gas industry is one of the most crucial sectors in the global economy. It plays a vital role in meeting the energy demands of various industries and households. To ensure the smooth functioning of this industry, it is essential to have reliable and efficient infrastructure in place. One crucial component of this infrastructure is the welded/square low ERW grade B galvanized/carbon/stainless seamless steel pipe. These pipes are specifically designed to meet the demanding requirements of the oil and gas industry. They are made from high-quality steel, which provides exceptional strength and durability. The welded/square low ERW grade B galvanized/carbon/stainless seamless steel pipe is capable of withstanding extreme temperatures and pressures, making it ideal for use in oil and gas exploration, production, and transportation. One of the key advantages of these pipes is their ability to resist corrosion. The galvanized coating on the pipe’s surface acts as a protective barrier, preventing rust and corrosion from damaging the pipe. This is particularly important in the oil and gas industry, where the pipes are exposed to harsh environments, including saltwater, chemicals, and abrasive materials. The galvanized coating ensures that the pipes remain in excellent condition, reducing the risk of leaks and failures.
Another significant advantage of the welded/square low ERW grade B galvanized/carbon/stainless seamless steel pipe is its versatility. These pipes can be used for a wide range of applications in the oil and gas industry. They are commonly used for drilling and extraction purposes, as well as for transporting oil and gas from the Wellhead to processing facilities. The seamless design of these pipes ensures a smooth flow of fluids, minimizing pressure drops and energy losses.
Furthermore, the welded/square low ERW grade B galvanized/carbon/stainless seamless steel pipe is highly resistant to impact and vibration. This is crucial in the oil and gas industry, where the pipes are often subjected to high levels of stress and strain. The robust construction of these pipes ensures that they can withstand the rigors of the industry, reducing the risk of failures and accidents.
| 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. | |||||||||||
