Exploring the Benefits of  API 5ct Pipe for carbon steel piping Projects

Are you looking for a reliable and costeffective way to complete your carbon steel piping projects? If so, then you should consider using API 5CT pipe. This type of pipe is designed to meet the needs of Oil and gas industry applications, and it offers a number of benefits that make it an ideal choice for many projects.

First, API 5CT pipe is made from highquality carbon steel, which makes it strong and durable. This means that it can withstand the pressures and temperatures associated with oil and gas applications, making it a great choice for projects that require a reliable and long-lasting pipe.

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Second, API 5CT pipe is designed to be corrosionresistant. This is important for projects that involve transporting corrosive materials, as it ensures that the pipe won’t be damaged by the materials it is transporting.

Casing Pipe china high-grade Supplier,casing pipe China good manufacturer,casing pipe wholesalePrice High-Quality best China,Third, API 5CT pipe is designed to be easy to install. This makes it a great choice for projects that require quick and efficient installation. The pipe is designed to be easy to cut and weld, which makes it easy to customize for any project.

Finally, API 5CT pipe is cost-effective. This makes it a great choice for projects that are on a tight budget. The pipe is designed to be cost-effective without sacrificing quality, making it a great choice for projects that need to stay within a certain budget.

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.

Overall, API 5CT pipe is a great choice for carbon steel piping projects. It is strong, durable, corrosion-resistant, easy to install, and cost-effective, making it an ideal choice for many projects. So, if you’re looking for a reliable and cost-effective way to complete your carbon steel piping projects, then you should consider using API 5CT pipe.

          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
7 17 177.8 25.6 5.87 166.06 162.88 24.89 7.61
7 20 177.8 29.91 6.91 163.98 160.8 29.12 6.74 — 7.94 — 8.28 — 0.58
7 23 177.8 34.67 8.05 161.7 158.75 e 158.52 156.24 153.90 33.7 6.26 7.94 8.28 0.58
7 23 177.8 34.67 8.05 161.7 152.40 e 33.7 6.26 7.37 7.65 –0.54
7 26 177.8 39.14 9.19 159.42 151.6 38.21 5.79 6.79 7.13 –0.69
7 29 177.8 43.6 10.36 157.08 149.32 42.78 6.23 6.4 –1.31
7 32 177.8 47.92 11.51 154.78 147.18 47.2 6.23 6.4 –1.31
7 32 177.8 47.92 11.51 154.78 142.86 47.2 5.68 5.79 –1.91
7 35 177.8 52.09 12.65 152.5 139.72 51.52 5.18 5.24 –2.47
7 38 177.8 56.1 13.72 150.36 136.52 55.52
7 42.7 177.8 63.84 15.88 146.04 133.38 63.41
7 46.4 177.8 69.35 17.45 142.9 130.18 69.01
7 50.1 177.8 74.85 19.05 139.7   74.58
7 53.6 177.8 80.21 20.62 136.56   79.93
7 57.1 177.8 85.42 22.22 133.36   85.25      
7 5/8 24 193.68 35.72 7.62 178.44 175.26 34.96 7.11 — 8.58 — 9.12 — 2.59
7 5/8 26.4 193.68 39.29 8.33 177.02 173.84 38.08 6.78 7.91 8.38 1.84
7 5/8 29.7 193.68 44.2 9.52 174.64 171.46 43.24 7.13 7.51 0.98
7 5/8 33.7 193.68 50.15 10.92 171.84 168.66 49.22 6.16 6.44 – 0.10
7 5/8 39 193.68 58.04 12.7 168.28 165.1 56.68 5.32 5.5 –1.03
7 5/8 42.8 193.68 63.69 14.27 165.14 161.96 63.14 4.87 5.01 –1.52
7 5/8 45.3 193.68 67.41 15.11 163.46 160.28 66.54 4.48 4.57 –1.96
7 5/8 47.1 193.68 70.09 15.88 161.92 158.74 69.63
7 5/8 51.2 193.68 76.19 17.45 158.78 155.6 75.84
7 5/8 55.3 193.68 82.3 19.05 155.58 152.4 82.04      
7 3/4 46.1 196.85 68.6 15.11 166.63 165.10 e 67.72
7 3/4 46.1 196.85 68.6 15.11 166.63 163.45 67.72