The Benefits of Using N80 API 5CTTubing for Oil and Gas Production Using N80 API 5CTTubing for Oil and gas…
The Benefits of Using N80 API 5CTTubing for Oil and Gas Production
Using N80 API 5CTTubing for Oil and gas production offers a number of benefits. This type of Tubing is designed to withstand the extreme pressures and temperatures associated with Oil and gas production, making it an ideal choice for this type of application.
One of the main benefits of using N80 API 5CTTubing is its durability. This type of Tubing is made from high-grade steel, which is designed to withstand the extreme pressures and temperatures associated with Oil and gas production. This makes it an ideal choice for long-term use in this type of environment.
Another benefit of using N80 API 5CTTubing is its corrosion resistance. This type of Tubing is designed to resist corrosion from the harsh chemicals and other substances that are often found in Oil and gas production. This makes it an ideal choice for use in this type of environment.
Finally, N80 API 5CTTubing is also easy to install. This type of Tubing is designed to be easy to install, making it an ideal choice for those who need to quickly and easily install their Oil and gas production equipment. This makes it an ideal choice for those who need to quickly and easily install their equipment.
Overall, using N80 API 5CTTubing for Oil and gas production offers a number of benefits. This type of Tubing is designed to withstand the extreme pressures and temperatures associated with Oil and gas production, making it an ideal choice for this type of application. Additionally, this type of Tubing is also corrosion resistant and easy to install, making it an ideal choice for those who need to quickly and easily install their equipment.
Understanding the Specifications and Requirements for N80 API 5CTTubing in Oil and Gas Applications
The N80 API 5CTTubing is a crucial component in Oil and gas applications. It is used to transport Oil and gas from the wellhead to the surface. This Tubing is made from a variety of materials, including carbon steel, stainless steel, and alloy steel.
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• The Tubing must have a minimum yield strength of 80,000 psi.
• The Tubing must have a minimum tensile strength of 95,000 psi.
• The Tubing must have a minimum elongation of 10%.
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 Tubing must have a minimum hardness of HBW 240.
• The Tubing must have a minimum wall thickness of 0.250 inches.
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.
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• The Tubing must have a maximum weight of 10.5 pounds per foot.
• The Tubing must be able to withstand a maximum pressure of 15,000 psi.
• The Tubing must be able to withstand temperatures up to 250°F.
• The Tubing must be able to withstand corrosion from hydrogen sulfide and other corrosive elements.
These specifications and requirements are essential for ensuring the safe and effective use of N80 API 5CTTubing in Oil and gas applications. It is important to understand these requirements and adhere to them in order to ensure the safety of personnel and equipment.
One of the main benefits of using N80 API 5CT Tubing is its durability. This type of Tubing is made from high-grade steel, which is designed to withstand the extreme pressures and temperatures associated with Oil and gas production. This makes it an ideal choice for long-term use in this type of environment.
• The Tubing must have a minimum elongation of 10%.
