API 5CT J55 Casing pipes Manufacturer

Exploring the Benefits of   API 5ct J55 Casing Pipes for oil and gas production api 5ct J55 casing pipes are widely used in the oil and gas industry for a variety of purposes. these pipes are designed to provide structural support to oil and gas wells, as well as to facilitate the flow of oil…

Exploring the Benefits of  API 5ct J55 Casing Pipes for oil and gas production

api 5ct J55 casing pipes are widely used in the oil and gas industry for a variety of purposes. these pipes are designed to provide structural support to oil and gas wells, as well as to facilitate the flow of oil and gas from the Wellhead to the surface. The J55 casing pipe is one of the most popular grades of api 5ct casing pipes, and is used in a wide range of applications.

casing pipe china good Factory,Oil Tube wholesalePrice highquality good chinese,casing pipe Chinese high-quality factory,The J55 casing pipe is made from a variety of Materials, including carbon steel, stainless steel, and alloy steel. This makes it an ideal choice for a variety of oil and gas production applications. The J55 casing pipe is designed to provide superior strength and durability, and is able to withstand high pressures and temperatures. This makes it an ideal choice for deep wells and high-pressure applications.

Labels Outside diameter
(d/mm)
T&C
(kg/m)
Wall thickness  
(t/mm)
Type of end-finish
         
1 2       j55/k55 M65 l80/R95 n80-1/Q C90/T95 p110 Q125
4-1/2 9.50 114.30 14.14 5.21 PS PS
  10.50 114.30 15.63 5.69 PSB PSB
  11.60 114.30 17.26 6.35 pslB PLB PLB PLB PLB PLB
  13.50 114.30 20.09 7.37 PLB PLB PLB PLB PLB
  15.10 114.30 22.47 8.56 PLB PLB
5 11.50 127.00 17.11 5.59 PS PS
  13.00 127.00 19.35 6.43 PSLB PSLB
  15.00 127.00 22.32 7.52 PSLB PLB SLB PLB PLB PLB  
  18.00 127.00 26.79 9.19 PLB SLB PLB PLB PLB PLB
  21.40 127.00 31.85 11.10 PLB PLB PLB PLB PLB PLB
  23.20 127.00 34.53 12.14 PLB PLB PLB PLB PLB
  24.10 127.00 35.87 12.70 PLB PLB PLB PLB PLB
5-1/2 14.00 139.70 20.83 6.20 PS PS
  15.50 139.70 23.07 6.98 PSLB PSLB
  17.00 139.70 25.30 7.72 PSLB PLB PLB PLB PLB PLB
  20.00 139.70 29.76 9.17 PLB PLB PLB PLB PLB
  23.00 139.70 34.23 10.54 PLB PLB PLB PLB PLB PLB
  26.80 139.70 39.88 12.70 P
  29.70 139.70 44.20 14.27 P
  32.60 139.70 48.52 15.88 P
  35.30 139.70 52.53 17.45 P
  38.00 139.70 56.55 19.05 P
  40.50 139.70 60.27 20.62 P
  43.10 139.70 64.14 22.22 P
6-5/8 20.00 168.28 29.76 7.32 PSLB PSLB
  24.00 168.28 35.72 8.94 PSLB PLB PLB PLB PLB PLB
  28.00 168.28 41.67 10.59 PLB PLB PLB PLB PLB
  32.00 168.28 47.62 12.06 PLB PLB PLB PLB PLB
7 17.00 177.80 25.30 5.87
  20.00 177.80 29.76 6.91 PS PS
  23.00 177.80 34.23 8.05 PSLB PLB PLB PLB PLB
  26.00 177.80 38.69 9.19 PLB PLB PLB PLB PLB
  29.00 177.80 43.16 10.36 PLB PLB PLB PLB PLB
  32.00 177.80 47.62 11.51 PLB PLB PLB PLB PLB
  35.00 177.80 52.09 12.65 PLB PLB PLB PLB PLB
  38.00 177.80 56.55 13.72 PLB PLB PLB PLB PLB
  42.70 177.80 63.55 15.88 P
  46.40 177.80 69.05 17.45 P
  50.10 177.80 74.56 19.05 P
  53.60 177.80 79.77 20.62 P
  57.10 177.80 84.98 22.22 P
7-5/8 24.00 193.68 35.72 7.62  
  26.40 193.68 39.29 8.33 PSLB PSLB PLB PLB PLB
  29.70 193.68 44.20 9.52 PLB PLB PLB PLB PLB
  33.70 193.68 50.15 10.92 PLB PLB PLB PLB PLB
  39.00 193.68 58.04 12.70 PLB PLB PLB PLB PLB
  42.80 193.68 63.69 14.27 PLB PLB PLB PLB PLB
  45.30 193.68 67.42 15.11 PLB PLB PLB PLB PLB
  47.10 193.68 70.09 15.88 PLB PLB PLB PLB PLB
  51.20 193.68 76.20 17.45 P
  55.30 193.68 82.30 19.05 P
7-3/4 46.10 196.85 68.61 15.11 P P P P P
8-5/8 24.00 219.08 35.72 6.71 PS PS
  28.00 219.08 41.67 7.72   PS
  32.00 219.08 47.62 8.94 PSLB PSLB
  36.00 219.08 53.58 10.16 PSLB PSLB PLB PLB PLB PLB
  40.00 219.08 59.53 11.43 PLB PLB PLB PLB PLB
  44.00 219.08 65.48 12.70 PLB PLB PLB PLB
  49.00 219.08 72.92 14.15 PLB PLB PLB PLB PLB
9-5/8 32.30 244.48 48.07 7.92
  36.00 244.48 53.58 8.94 PSLB PSLB
  40.00 244.48 59.53 10.03 PSLB PSLB PLB PLB PLB
  43.50 244.48 64.74 11.05 PLB PLB PLB PLB PLB
  47.00 244.48 69.95 11.99 PLB PLB PLB PLB PLB PLB
  53.50 244.48 79.62 13.84 PLB PLB PLB PLB PLB
  58.40 244.48 86.91 15.11 PLB PLB PLB PLB PLB
  59.40 244.48 88.40 15.47 P
  64.90 244.48 96.58 17.07 P
  70.30 244.48 104.62 18.64 P
  75.60 244.48 112.51 20.24 P
10-3/4 32.75 273.05 48.74 7.09
  40.50 273.05 60.27 8.89 PSB PSB
  45.50 273.05 67.71 10.16 PSB PSB
  51.00 273.05 75.90 11.43 PSB PSB PSB PSB PSB PSB
  55.50 273.05 82.60 12.57 PSB PSB PSB PSB PSB
  60.70 273.05 90.33 13.84 PSB PSB PSB
  65.70 273.05 97.77 15.11 PSB PSB PSB
  73.20 273.05 108.94 17.07 P
  79.20 273.05 117.87 18.64 P
  85.30 273.05 126.94 20.24 P
11-3/4 42.00 298.45 62.50 8.46
  47.00 298.45 69.95 9.53 PSB PSB
  54.00 298.45 80.36 11.05 PSB PSB
  60.00 298.45 89.29 12.42 PSB PSB PSB PSB PSB PSB PSB
  65.00 298.45 96.73 13.56 P P P P P
  71.00 298.45 105.66 14.78 P P P P P
13-3/8 48.00 339.72 71.43 8.38
  54.50 339.72 81.11 9.65 PSB PSB
  61.00 339.72 90.78 10.92 PSB PSB
  68.00 339.72 101.20 12.19 PSB PSB PSB PSB PSB PSB
  72.00 339.72 107.15 13.06 PSB PSB PSB PSB PSB
16 65.00 406.40 96.73 9.53
  75.00 406.40 111.62 11.13 PSB PSB
  84.00 406.40 125.01 12.57 PSB PSB
  109.00 406.40 162.21 16.66 P P P P P
18-5/8 87.50 473.08 130.22 11.05 PSB PSB
20 94.00 508.00 139.89 11.13 PSLB PSLB
  106.50 508.00 158.49 12.70 PSLB PSLB
  133.00 508.00 197.93 16.13 PSLB

The J55 casing pipe is also designed to be corrosionresistant, making it an ideal choice for offshore applications. The J55 casing pipe is also designed to be resistant to cracking and other forms of damage, making it an ideal choice for long-term use.

The J55 casing pipe is also designed to be easy to install and maintain. This makes it an ideal choice for oil and gas production operations, as it can be quickly and easily installed and maintained.

Tensile and hardness requirements
Grade     Yield Strength MPa Tensile Strength Hardness a,c specified Wall Thickness Allowable Hardness Variation b
  Type total Elongation Under Load   min MPa max    
      min max   HRC HBW mm HRC
1 2 3 4 5 6 7 8 9 10
H40 0.5 276 552 414
J55 0.5 379 552 517
K55 0.5 379 552 655
N80 1 0.5 552 758 689
N80 Q 0.5 552 758 689
R95 0.5 655 758 724
L80 L80 1 0.5 552 655 655 23 241
L80 9Cr 13Cr 0.5 552 655 655 23 241
    0.5 552 655 655 23 241
C90 1 0.5 621 724 689 25.4 255 £12.70 3
                12.71 to 19.04 4
                19.05 to 25.39 5
                ³ 25.40 6
T95 1 0.5 655 758 724 25.4 255 £12.70 3
                12.71 to 19.04 4
                19.05 to 25.39 5
                ³ 25.40 6
C110 0.7 758 828 793 30 286 £12.70 3
                12.71 to 19.04 4
                19.05 to 25.39 5
                ³ 25.40 6
P110 0.6 758 965 862
Q125 1 0.65 862 1034 931 b £12.70 3
                12.71 to 19.04 19.05 4
                  5
a In case of dispute, laboratory Rockwell C hardness testing shall be used as the referee method.
b No hardness limits are specified, but the maximum variation is restricted as a manufacturing control in accordance with 7.8 and 7.9.
c For through-wall hardness tests of Grades L80 (all types), c90, T95 and C110, the requirements stated in HRC scale are for maximum mean hardness number.

The J55 casing pipe is also designed to be cost-effective. This makes it an ideal choice for oil and gas production operations, as it can be used in a variety of applications without breaking the bank.

Overall, the J55 casing pipe is an ideal choice for oil and gas production operations. It is designed to provide superior strength and durability, and is corrosion-resistant and cost-effective. This makes it an ideal choice for a variety of oil and gas production applications.

understanding the Manufacturing process of API 5CT J55 Casing Pipes for optimal performance

API 5CT J55 Casing Pipes are an essential component of the oil and gas industry. They are used to transport oil and gas from the wellhead to the surface. To ensure optimal performance, it is important to understand the manufacturing process of these pipes.

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The manufacturing process of API 5CT J55 Casing Pipes begins with the selection of high-quality steel. The steel is then cut into the desired length and heated to the required temperature. after heating, the steel is formed into a pipe shape using a mandrel and a draw bench. The pipe is then subjected to a series of tests to ensure that it meets the required specifications.

Once the pipe has passed the tests, it is then coated with a protective layer. This layer helps to protect the pipe from corrosion and other environmental factors. The coating also helps to reduce friction and improve the flow of oil and gas through the pipe.

The next step in the manufacturing process is Threading. Threading is done to create a connection between the pipe and the wellhead. This connection is necessary to ensure that the pipe is securely attached to the wellhead and that the flow of oil and gas is not interrupted.

Finally, the pipe is inspected and tested again to ensure that it meets the required specifications. Once the pipe has passed all the tests, it is ready for use.

API 5CT J55 Casing Pipes are an essential component of the oil and gas industry. Understanding the manufacturing process of these pipes is essential for optimal performance. By following the steps outlined above, you can ensure that your pipes are of the highest quality and will provide reliable performance for years to come.

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