ASTM Q195 Seamless/Welded Round/Square Carbon/Stainless Steel Pipe/Tube for Oil and Gas Pipeline
Advantages of Using ASTM Q195 Seamless/Welded Steel Pipe/Tube for oil and Gas Pipeline ASTM Q195 seamless/welded round/square carbon/Stainless steel pipe/tube is a popular choice for oil and gas pipelines due…
Advantages of Using ASTM Q195 Seamless/Welded Steel Pipe/Tube for oil and Gas Pipeline
ASTM Q195 seamless/welded round/square carbon/Stainless steel pipe/tube is a popular choice for oil and gas pipelines due to its numerous advantages. This type of steel pipe/tube is manufactured according to the American Society for Testing and Materials (ASTM) standards, ensuring high quality and reliability for use in demanding applications such as oil and gas pipelines.
Hot Sale Custom Made Case for Essential Oils
One of the main advantages of using ASTM Q195 seamless/welded steel pipe/tube for oil and gas pipelines is its strength and durability. This type of steel pipe/tube is made from High-Quality materials that are designed to withstand high pressure and extreme temperatures, making it ideal for use in the harsh conditions of oil and gas pipelines. Additionally, the seamless/welded construction of ASTM Q195 steel pipe/tube ensures that it is less prone to leaks and failures, providing a reliable and long-lasting solution for transporting oil and gas.
Another advantage of using ASTM Q195 seamless/welded steel pipe/tube for oil and gas pipelines is its versatility. This type of steel pipe/tube can be manufactured in a variety of shapes and sizes, including round and square, to meet the specific requirements of different pipeline projects. Whether you need a small Diameter pipe for a local oil pipeline or a large diameter tube for a major gas transmission line, ASTM Q195 steel pipe/tube can be customized to fit your needs.
In addition to its strength and versatility, ASTM Q195 seamless/welded steel pipe/tube is also corrosion-resistant. This type of steel pipe/tube is coated with a protective layer that helps prevent rust and corrosion, ensuring that it remains in good condition even when exposed to harsh environmental conditions. This Corrosion resistance is essential for oil and gas pipelines, which are often buried underground or submerged in water, where they are at risk of corrosion from moisture and other corrosive substances.
Furthermore, ASTM Q195 seamless/welded steel pipe/tube is easy to install and maintain, making it a cost-effective choice for oil and gas pipelines. The seamless/welded construction of this type of steel pipe/tube allows for quick and efficient installation, reducing labor costs and minimizing downtime during pipeline construction. Additionally, the corrosion-resistant coating of ASTM Q195 steel pipe/tube helps to reduce Maintenance requirements, saving time and money over the lifespan of the pipeline.
Calculated Mass c | |||||||||||
Nominal Linear Mass T& C b,c | Wall Thick- ness | em, Mass Gain or Loss Due to End Finishing d | |||||||||
Labels a | 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 |
10 3/4 | 32.75 | 273.05 | 48.74 | 7.09 | 258.9 | 254.91 | 46.5 | 13.94 | — | — 15.38 | — 3.03 |
10 3/4 | 40.5 | 273.05 | 60.27 | 8.89 | 255.3 | 251.31 | 57.91 | 11.91 | — | 14.21 | 1.86 |
10 3/4 | 45.5 | 273.05 | 67.71 | 10.16 | 252.7 | 250.82 e 248.77 246.23 246.33 | 65.87 | 11 | — | 14.21 | 1.86 |
10 3/4 | 45.5 | 273.05 | 67.71 | 10.16 | 252.7 | 244.48 e | 65.87 | 11 | — | 13.05 | 0.7 |
10 3/4 | 51 | 273.05 | 75.9 | 11.43 | 250.2 | 244.48 e 243.94 243.94 241.40 241.40 238.86 238.86 234.95 231.80 228.60 | 73.75 | 10.11 | — | 13.05 | 0.7 |
10 3/4 | 51 | 273.05 | 75.9 | 11.43 | 250.2 | 73.75 | 10.16 f | — | 12.25 | –0.09 | |
10 3/4 | 55.5 | 273.05 | 82.59 | 12.57 | 247.9 | 80.75 | 9.3 | — | 12.01 | –0.34 | |
10 3/4 | 55.5 | 273.05 | 82.59 | 12.57 | 247.9 | 80.75 | 9.35 f | — | 12.25 | –0.09 | |
10 3/4 | 55.5 | 273.05 | 82.59 | 12.57 | 247.9 | 80.75 | 9.3 | — | 12.01 | –0.34 | |
10 3/4 | 55.5 | 273.05 | 82.59 | 12.57 | 247.9 | 80.75 | 9.35 f | — | 11.07 | — | |
10 3/4 | 60.7 | 273.05 | 90.33 | 13.84 | 245.4 | 88.47 | 8.42 | — | 10.87 | — | |
10 3/4 | 60.7 | 273.05 | 90.33 | 13.84 | 245.4 | 88.47 | 8.47 f | — | 9.98 | — | |
10 3/4 | 65.7 | 273.05 | 97.77 | 15.11 | 242.8 | 96.12 | 7.54 | — | 9.74 | — | |
10 3/4 | 65.7 | 273.05 | 97.77 | 15.11 | 242.8 | 96.12 | 7.60 f | — | — | — | |
10 3/4 | 73.2 | 273.05 | 108.93 | 17.07 | 238.9 | 107.76 | — | — | — | — | |
10 3/4 | 79.2 | 273.05 | 117.86 | 18.64 | 235.8 | 116.95 | — | — | — | — | |
10 3/4 | 85.3 | 273.05 | 126.94 | 20.24 | 232.6 | 126.19 | — | — | |||
11 3/4 | 42 | 298.45 | 62.5 | 8.46 | 281.5 | 279.40 e 277.50 275.44 272.39 | 62.56 | 13.27 | — | — | — |
11 3/4 | 42 | 298.45 | 62.5 | 8.46 | 281.5 | 269.88 e | 62.56 | 13.27 | — | — 16.04 | — |
11 3/4 | 47 | 298.45 | 69.94 | 9.52 | 279.41 | 269.88 e | 67.83 | 12.42 | — | 14.5 | — |
11 3/4 | 54 | 298.45 | 80.36 | 11.05 | 276.4 | 269.65 | 78.32 | 11.23 | — | 13.12 | — |
11 3/4 | 60 | 298.45 | 89.29 | 12.42 | 273.6 | 269.65 e | 87.61 | 10.17 | — | 13.12 | — |
11 3/4 | 60 | 298.45 | 89.29 | 12.42 | 273.6 | 269.88 e 267.36 264.92 | 87.61 | 9.77 f | — | 13.12 | — |
11 3/4 | 60 | 298.45 | 89.29 | 12.42 | 273.6 | 87.61 | 10.17 | — | 13.12 | — | |
11 3/4 | 60 | 298.45 | 89.29 | 12.42 | 273.6 | 87.61 | 9.77 f | — | — | — | |
11 3/4 | 65 | 298.45 | 96.73 | 13.56 | 271.3 | 95.27 | — | — | — | — | |
11 3/4 | 65 | 298.45 | 96.73 | 13.56 | 271.3 | 95.27 | — | — | — | — | |
11 3/4 | 71 | 298.45 | 105.66 | 14.78 | 268.9 | 103.4 | — | — | — |
Overall, ASTM Q195 seamless/welded steel pipe/tube offers numerous advantages for oil and gas pipelines, including strength, durability, versatility, corrosion resistance, and cost-effectiveness. By choosing this type of steel pipe/tube for your pipeline project, you can ensure that your pipeline is built to last and can withstand the demanding conditions of the oil and gas industry. Whether you are constructing a new pipeline or replacing an existing one, ASTM Q195 steel pipe/tube is a reliable and efficient choice for transporting oil and gas safely and efficiently.
Key Differences Between Carbon and Stainless Steel Pipe/Tube for Oil and Gas Pipeline
When it comes to choosing the right Material for oil and gas pipelines, the decision between Carbon steel and stainless steel can be crucial. Both materials have their own unique properties and advantages, which can significantly impact the performance and longevity of the pipeline. In this article, we will explore the key differences between carbon and stainless steel pipe/tube for oil and gas pipelines, with a focus on ASTM Q195 seamless/welded round/square carbon/stainless steel pipe/tube.
One of the primary differences between carbon and stainless steel is their composition. Carbon steel is primarily made up of iron and carbon, with trace amounts of other elements such as manganese, silicon, and sulfur. On the other hand, stainless steel contains chromium, nickel, and other alloying elements, which give it its corrosion-resistant properties. This makes stainless steel ideal for applications where corrosion is a concern, such as in oil and gas pipelines.
In terms of strength and durability, carbon steel is known for its high tensile strength and impact resistance. This makes it a popular choice for pipelines that are exposed to harsh environmental conditions or high-pressure environments. Stainless steel, on the other hand, is not as strong as carbon steel but offers superior corrosion resistance. This makes it a better choice for pipelines that are exposed to corrosive substances or environments.
When it comes to cost, carbon steel is generally more affordable than stainless steel. This is because carbon steel is more readily available and easier to manufacture, making it a cost-effective option for oil and gas pipelines. Stainless steel, on the other hand, is more expensive due to its higher alloy content and specialized manufacturing processes. However, the long-term cost savings of using stainless steel in corrosive environments may outweigh the initial investment.
In terms of maintenance, stainless steel requires less upkeep than carbon steel. Stainless steel is highly resistant to corrosion, rust, and staining, making it a low-maintenance option for oil and gas pipelines. Carbon steel, on the other hand, is more prone to corrosion and requires regular maintenance to prevent rust and deterioration. This can add to the overall cost of using carbon steel in pipelines.
In conclusion, the choice between carbon and stainless steel for oil and gas pipelines ultimately depends on the specific requirements of the project. Carbon steel offers High strength and durability at a lower cost, making it a popular choice for pipelines in harsh environments. Stainless steel, on the other hand, provides superior corrosion resistance and low maintenance, making it ideal for pipelines exposed to corrosive substances. ASTM Q195 seamless/welded round/square carbon/stainless steel pipe/tube offers a range of options for oil and gas pipelines, allowing engineers to select the material that best suits their needs. Ultimately, both carbon and stainless steel have their own advantages and considerations, and the decision should be based on the specific requirements of the project.