Exploring the Benefits of Casing Pipe: How It Can Improve Your Piping System
Are you looking for ways to improve your piping system? If so, you should consider the benefits of casing pipe. Casing pipe is a type of pipe that is used to line the walls of a borehole or well. It is designed to protect the integrity of the borehole and to prevent contamination of the water or other substances that may be present.
Casing pipe is an essential part of any piping system, as it helps to ensure that the system is safe and secure. It also helps to reduce the risk of leaks and other problems that can occur with a poorly maintained system. Here are some of the benefits of using casing pipe in your piping system:
1. Increased Durability: Casing pipe is designed to be strong and durable, so it can withstand the pressure and wear and tear of a piping system. This means that it will last longer and be less likely to need repairs or replacements.
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.
2. Improved Safety: Casing pipe helps to protect the integrity of the piping system, which can help to reduce the risk of leaks and other problems. This can help to keep your system running smoothly and safely.
3. Reduced Maintenance: Casing pipe is designed to be easy to maintain, so you won’t have to spend as much time and money on repairs and replacements. This can help to save you money in the long run.
NPS
OD
WT
INCH
MM
SCH10
SCH20
SCH30
STD
SCH40
SCH60
XS
SCH80
SCH100
SCH120
SCH140
SCH160
1/2″
21.3
2.11
2.41
2.77
2.77
3.73
3.73
4.78
3/4″
26.7
2.11
2.41
2.87
2.87
3.91
3.91
5.56
1″
33.4
2.77
2.9
3.38
3.38
4.55
4.55
6.35
1.1/4″
42.2
2.77
2.97
3.56
3.56
4.85
4.85
6.35
1.1/2″
48.3
2.77
3.18
3.68
3.68
5.08
5.08
7.14
2″
60.3
2.77
3.18
3.91
3.91
5.54
5.54
8.74
2.1/2″
73
3.05
4.78
5.16
5.16
7.01
7.01
9.53
3″
88.9
3.05
4.78
5.49
5.49
7.62
7.62
11.13
3.1/2″
101.6
3.05
4.78
5.74
5.74
8.08
8.08
4″
114.3
3.05
4.78
6.02
6.02
8.56
8.56
11.13
13.49
5″
141.3
3.4
6.55
6.55
9.53
9.53
12.7
15.88
6″
168.3
3.4
7.11
7.11
10.97
10.97
14.27
18.26
8″
219.1
3.76
6.35
7.04
8.18
8.18
10.31
12.7
12.7
15.09
18.26
20.62
23.01
10″
273
4.19
6.35
7.8
9.27
9.27
12.7
12.7
15.09
18.26
21.44
25.4
28.58
12″
323.8
4.57
6.35
8.38
9.53
10.31
14.27
12.7
17.48
21.44
25.4
28.58
33.32
14″
355.6
6.35
7.92
9.53
9.53
11.13
15.09
12.7
19.05
23.83
27.79
31.75
35.71
16″
406.4
6.35
7.92
9.53
9.53
12.7
16.66
12.7
21.44
26.19
30.96
36.53
40.19
18″
457.2
6.35
7.92
11.13
9.53
14.27
19.05
12.7
23.83
39.36
34.93
39.67
45.24
20″
508
6.35
9.53
12.7
9.53
15.09
20.62
12.7
26.19
32.54
38.1
44.45
50.01
22″
558.8
6.35
9.53
12.7
9.53
22.23
12.7
28.58
34.93
41.28
47.63
53.98
24″
609.6
6.35
9.53
14.27
9.53
17.48
24.61
12.7
30.96
38.89
46.02
52.37
59.54
26″
660.4
7.92
12.7
9.53
12.7
28″
711.2
7.92
12.7
15.88
9.53
12.7
4. Improved Efficiency: Casing pipe helps to reduce the amount of energy that is lost through the piping system. This can help to make your system more efficient and cost-effective.
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.
These are just a few of the benefits of using casing pipe in your piping system. If you’re looking for ways to improve your system, then you should definitely consider the benefits of casing pipe. It can help to make your system more efficient, safe, and cost-effective. So, don’t wait any longer – start exploring the benefits of casing pipe today!
Understanding the Different Types of Casing Pipe and Their Uses in Piping Systems
When it comes to piping systems, casing pipe is an essential component. It provides structural support and protection for the pipes that run through it, ensuring that the system runs smoothly and safely. But not all casing pipes are the same. There are several different types of casing pipe, each with its own unique characteristics and uses.
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Let’s take a look at the different types of casing pipe and how they can be used in piping systems.
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Steel Casing Pipe: Steel casing pipe is the most common type of casing pipe used in piping systems. It is strong and durable, making it ideal for use in high-pressure applications. It is also resistant to corrosion, making it a great choice for underground piping systems.
Plastic Casing Pipe: Plastic casing pipe is a lightweight and cost-effective alternative to steel casing pipe. It is often used in low-pressure applications, such as residential water lines. It is also resistant to corrosion and can be used in underground piping systems.
Fiberglass Casing Pipe: Fiberglass casing pipe is a great choice for piping systems that require insulation. It is lightweight and easy to install, making it a popular choice for residential and commercial applications.
Concrete Casing Pipe: Concrete casing pipe is a heavy-duty option for piping systems that require extra strength and durability. It is often used in industrial applications, such as oil and gas pipelines.
No matter what type of casing pipe you need for your piping system, there is an option that will meet your needs. Each type of casing pipe has its own unique characteristics and uses, so it’s important to understand the differences between them before making a decision. With the right type of casing pipe, you can ensure that your piping system runs smoothly and safely.
1. Increased Durability: Casing pipe is designed to be strong and durable, so it can withstand the pressure and wear and tear of a piping system. This means that it will last longer and be less likely to need repairs or replacements.
These are just a few of the benefits of using casing pipe in your piping system. If you’re looking for ways to improve your system, then you should definitely consider the benefits of casing pipe. It can help to make your system more efficient, safe, and cost-effective. So, don’t wait any longer – start exploring the benefits of casing pipe today!
Concrete Casing Pipe: Concrete casing pipe is a heavy-duty option for piping systems that require extra strength and durability. It is often used in industrial applications, such as oil and gas pipelines.
No matter what type of casing pipe you need for your piping system, there is an option that will meet your needs. Each type of casing pipe has its own unique characteristics and uses, so it’s important to understand the differences between them before making a decision. With the right type of casing pipe, you can ensure that your piping system runs smoothly and safely.
