Exploring the Manufacturing Process of K55 API 5CTTubing: A Comprehensive Guide The K55 API 5CTTubing is a high-grade, corrosion-resistant steel…
Exploring the Manufacturing Process of K55 API 5CTTubing: A Comprehensive Guide
The K55 API 5CTTubing is a high-grade, corrosion-resistant steel Pipe that is used in a variety of applications, including Oil and gas production. It is one of the most popular grades of Tubing used in the Oil and gas industry due to its strength and durability. In this guide, we will explore the manufacturing process of K55 API 5CTTubing and how it is used in the Oil and gas industry.
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
8 5/8
24
219.08
35.72
6.71
205.66
202.48
35.14
10.93
—
—
—
8 5/8
28
219.08
41.67
7.72
203.64
200.46
40.24
10.07
— 12.44
— 12.57
— 2.51
8 5/8
32
219.08
47.62
8.94
201.2
200.02 e 198.02 195.58
46.33
9.39
12.44
12.57
2.51
8 5/8
32
219.08
47.62
8.94
201.2
193.68 e
46.33
9.39
11.6
11.68
1.62
8 5/8
36
219.08
53.57
10.16
198.76
193.04
52.35
8.72
10.73
10.77
0.71
8 5/8
40
219.08
59.53
11.43
196.22
190.5
58.53
—
10.73
10.77
0.71
8 5/8
40
219.08
59.53
11.43
196.22
187.6
58.53
—
9.88
9.87
–0.20
8 5/8
44
219.08
65.48
12.7
193.68
64.64
—
8.88
8.85
–1.21
8 5/8
49
219.08
72.92
14.15
190.78
71.51
—
9 5/8
32.3
244.48
48.07
7.92
228.6
224.66
46.2
11
— 14.48
— 13.87
— 2.74
9 5/8
36
244.48
53.57
8.94
226.6
222.63
51.93
10.36
13.59
12.97
1.84
9 5/8
40
244.48
59.53
10.03
224.4
222.25 e 220.45 218.41 218.41 216.54 216.54
57.99
9.69
13.59
12.97
1.84
9 5/8
40
244.48
59.53
10.03
224.4
215.90 e
57.99
9.69
12.78
12.15
1.01
9 5/8
43.5
244.48
64.74
11.05
222.4
215.90 e 212.83 212.83
63.61
—
12.84 f
12.15
1.01
9 5/8
43.5
244.48
64.74
11.05
222.4
212.72 e
63.61
—
12.03
11.39
0.25
9 5/8
47
244.48
69.94
11.99
220.5
212.72 e 210.29 210.29 209.58 206.38 203.23 200.02
68.75
—
12.09 f
11.39
0.25
9 5/8
47
244.48
69.94
11.99
222.5
68.75
—
10.57
9.92
–1.22
9 5/8
53.5
244.48
79.62
13.84
216.8
78.72
—
10.63 f
9.92
–1.22
9 5/8
53.5
244.48
79.62
13.84
216.8
78.72
—
10.57
9.92
–1.22
9 5/8
53.5
244.48
79.62
13.84
216.8
78.72
—
10.63 f
9.92
–1.22
9 5/8
53.5
244.48
79.62
13.84
216.8
78.72
—
9.58
8.92
–2.22
9 5/8
58.4
244.48
86.91
15.11
214.25
85.47
—
9.65 f
8.92
–2.22
9 5/8
58.4
244.48
86.91
15.11
214.25
85.47
—
9.58
8.92
–2.22
9 5/8
58.4
244.48
86.91
15.11
214.25
85.47
—
9.65 f
8.92
–2.22
9 5/8
58.4
244.48
86.91
15.11
214.25
85.47
—
—
—
—
9 5/8
59.4
244.48
88.4
15.47
213.5
87.37
—
—
—
—
9 5/8
64.9
244.48
96.58
17.07
210.3
95.73
—
—
—
—
9 5/8
70.3
244.48
104.62
18.64
207.2
103.82
—
—
—
—
9 5/8
75.6
244.48
112.51
20.24
204
111.93
—
The K55 API 5CTTubing is made from a combination of carbon and alloy steel. The alloy steel is used to increase the strength and durability of the Tubing, while the carbon steel is used to reduce the cost of production. The Tubing is then heat-treated to increase its strength and durability. This process involves heating the Tubing to a specific temperature and then cooling it quickly. This process helps to increase the strength and durability of the Tubing, making it ideal for use in the Oil and gas industry.
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.
Once the Tubing has been heat-treated, it is then tested for quality assurance. This includes testing for strength, corrosion resistance, and other factors. The Tubing is then cut to the desired length and inspected for any defects. Once the Tubing has passed all of the quality assurance tests, it is ready for use in the Oil and gas industry.
Oil Pipe, Oil Pipe joint, Oil Pipelines company China, Oil Pipe from tank to b Oiler, Oil Pipe insulation, Oil Pipeline construction cost per km, Oil Pipe for sale near me, Oil Pipeline contractor in China, Oil Pipe cutter, Oil Pipe leak, Oil Pipe size chart, Oil Pipeline construction, Oil Pipeline cleaning, Oil Pipe fence, Oil Pipeline, Oil Pipe, Oil Pipeline company, Oil Pipe welderThe K55 API 5CTTubing is used in a variety of applications in the Oil and gas industry. It is used in drilling operations, production operations, and other operations. It is also used in Pipelines, storage tanks, and other equipment. The Tubing is also used in the construction of offshore platforms and other structures.
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The K55 API 5CT Tubing is made from a combination of carbon and alloy steel. The alloy steel is used to increase the strength and durability of the Tubing, while the carbon steel is used to reduce the cost of production. The Tubing is then heat-treated to increase its strength and durability. This process involves heating the Tubing to a specific temperature and then cooling it quickly. This process helps to increase the strength and durability of the Tubing, making it ideal for use in the Oil and gas industry.
