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I. Product overview
ASTM A513 specifies manufacturing, inspection, and testing methods for electric arc welded carbon and alloy steel mechanical pipes. These pipelines are typically used in applications that require high mechanical loads and harsh environments, such as oil and gas, chemicals, power, construction, and more.
Second, product characteristics
High strength: Arc-welded carbon and alloy steel mechanical pipes to ASTM A513 are of high strength and can withstand high pressure, high temperature and harsh environments.
Corrosion resistance: These pipes are usually made of corrosion-resistant materials that effectively resist chemical and atmospheric corrosion.
Wear resistance: The surface of the pipe is treated to have high hardness and wear resistance, which can resist the influence of wear and wear media.
Good weldability: ASTM A513 standard arc welded carbon steel and alloy steel mechanical pipes have good weldability and can meet the requirements of various welding processes.
3. Manufacturing process
The manufacturing process for arc-welded carbon and alloy steel mechanical piping according to ASTM A513 consists of the following steps:
Preparation of raw materials: Select high-quality carbon steel and alloy steel materials in line with ASTM standards, and carry out strict inspection and testing.
Cutting and bending: The raw material is cut to the desired length and shape, and the bending process is performed.
Welding: The arc welding process is used to connect the pipes together to ensure the quality and strength of the welding.
Inspection and testing: The welded pipe is inspected and tested to ensure that it meets the requirements of ASTM A513.
Surface treatment: The surface treatment of the pipeline to improve its hardness and wear resistance.
Packaging and transportation: The pipe is packed and transported to its destination by appropriate means of transportation.
4. Application field
Arc welded carbon and alloy steel mechanical piping according to ASTM A513 is widely used in the following fields:
Oil and gas: used for the exploitation, transportation and storage of oil and gas, such as oil and gas well pipelines, oil and gas transmission pipelines, etc.
Chemical: used in the chemical production process of material transportation, reactor and equipment connection.
Power: Used for the connection and support of power equipment, such as transformers, generator sets, etc.
Construction: Used for support and connection in building structures, such as Bridges, high-rise buildings, etc.
V. Summary
Arc welded carbon and alloy steel mechanical piping according to ASTM A513 is a high quality, high performance piping product that is widely used in various engineering fields. Its manufacturing process strictly follows the requirements of ASTM standards to ensure product quality and performance. At the same time, these pipes also have the characteristics of high strength, corrosion resistance, wear resistance and good welding performance, which can meet various engineering needs.
I. Product overview
ASTM A513 specifies manufacturing, inspection, and testing methods for electric arc welded carbon and alloy steel mechanical pipes. These pipelines are typically used in applications that require high mechanical loads and harsh environments, such as oil and gas, chemicals, power, construction, and more.
Second, product characteristics
High strength: Arc-welded carbon and alloy steel mechanical pipes to ASTM A513 are of high strength and can withstand high pressure, high temperature and harsh environments.
Corrosion resistance: These pipes are usually made of corrosion-resistant materials that effectively resist chemical and atmospheric corrosion.
Wear resistance: The surface of the pipe is treated to have high hardness and wear resistance, which can resist the influence of wear and wear media.
Good weldability: ASTM A513 standard arc welded carbon steel and alloy steel mechanical pipes have good weldability and can meet the requirements of various welding processes.
3. Manufacturing process
The manufacturing process for arc-welded carbon and alloy steel mechanical piping according to ASTM A513 consists of the following steps:
Preparation of raw materials: Select high-quality carbon steel and alloy steel materials in line with ASTM standards, and carry out strict inspection and testing.
Cutting and bending: The raw material is cut to the desired length and shape, and the bending process is performed.
Welding: The arc welding process is used to connect the pipes together to ensure the quality and strength of the welding.
Inspection and testing: The welded pipe is inspected and tested to ensure that it meets the requirements of ASTM A513.
Surface treatment: The surface treatment of the pipeline to improve its hardness and wear resistance.
Packaging and transportation: The pipe is packed and transported to its destination by appropriate means of transportation.
4. Application field
Arc welded carbon and alloy steel mechanical piping according to ASTM A513 is widely used in the following fields:
Oil and gas: used for the exploitation, transportation and storage of oil and gas, such as oil and gas well pipelines, oil and gas transmission pipelines, etc.
Chemical: used in the chemical production process of material transportation, reactor and equipment connection.
Power: Used for the connection and support of power equipment, such as transformers, generator sets, etc.
Construction: Used for support and connection in building structures, such as Bridges, high-rise buildings, etc.
V. Summary
Arc welded carbon and alloy steel mechanical piping according to ASTM A513 is a high quality, high performance piping product that is widely used in various engineering fields. Its manufacturing process strictly follows the requirements of ASTM standards to ensure product quality and performance. At the same time, these pipes also have the characteristics of high strength, corrosion resistance, wear resistance and good welding performance, which can meet various engineering needs.
Grade | Chemical Component,% | |||||||
C | Mn | P≤ | S≤ | Si | Ni | Cr | Mo | |
1008 1010 1012 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1030 1033 | ≤0.10 0.08~0.13 0.10~0.15 0.12~0.18 0.12~0.18 0.14~0.20 0.14~0.20 0.14~0.20 0.17~0.23 0.17~0.23 0.17 -0.23 0.19~0.25 0.18-0.25 0.22~0.28 0.22-0.28 0.22-0.29 0.27-0.34 0.29~0.36 | ≤0.50 0.30~0.60 0.30-0.60 0.30~0.60 0.60~0.90 0.30-0.6 0.60~0.90 0.70~1.0 0.30~0.60 0.60-0.90 0.70~1.00 0.30~0.60 1.30~1.65 0.30~0.60 0.60-0.90 1.20~1.55 0.60~0.90 0.70~1.00 | 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 | 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... |
Grade | Chemical Component,% | |||||||
C | Mn | P≤ | S≤ | Si | Ni | Cr | Mo | |
1035 1040 1050 1060 1340 1524 4118 4130 4140 5130 8620 8630 | 0.31~0.38 0.36~0.44 0.47~0.55 0.55~0.66 0.38~0.43 0.18~0.25 0.18~0.23 0.28~0.33 0.38~0.43 0.23~0.33 0.18-0.23 0.28~0.33 | 0.60~0.90 0.60~0.90 0.60~0.90 0.60~0.90 1.60~1.90 1.35-1.65 0.70-0.90 0.40~0.60 0.75~1.00 0.70~0.90 0.70~0.90 0.70~0.90 | 0.035 0.040 0.040 0.040 0.035 0.040 0.035 0.035 0.035 0.035 0.035 0.035 | 0.035 0.050 0.050 0.050 0.040 0.050 0.040 0.040 0.040 0.040 0.040 0.040 | ... ... ... ... 0.15-0.35 ... 0.15-0.35 0.15~0.35 0.15~0.35 0.15~0.35 0.15~0.35 0.15~0.35 | ... ... ... ... ... ... ... ... ... ... 0.40~0.70 0.40~0.70 | ... ... ... ... ... ... 0.40~0.60 0.80~1.10 0.80~1.10 0.80~1.10 0.40~0.60 0.40~0.60 | ... ... ... ... ... ... 0.08~0.15 0.15~0.25 0.15~0.25 ... 0.15~0.25 0.15~0.25 |
Welded Tubing | |||||
Grade | Yield Strength,ksi[MPa] min | Ultimate Strength,ksi[MPa] min | Elongation,% min | RB,min | RB,max |
1008 | 30 [205] | 42 [290] | 15 | 50 | ... |
1009 | 30 [205] | 42 [290] | 15 | 50 | ... |
1010 | 32 [220] | 45 [310] | 15 | 55 | ... |
1015 | 35 [240] | 48 [330] | 15 | 58 | ... |
1020 | 38 [260] | 52 [360] | 12 | 62 | ... |
1021 | 40 [275] | 54 [370] | 12 | 62 | ... |
1025 | 40 [275] | 56 [385] | 12 | 65 | ... |
1026 | 45 [310] | 62 [425] | 12 | 68 | ... |
1030 | 45 [310] | 62 [425] | 10 | 70 | ... |
1035 | 50 [345] | 66 [455] | 10 | 75 | ... |
1040 | 50 [345] | 66 [645] | 10 | 75 | ... |
1340 | 55 [380] | 72 [495] | 10 | 80 | ... |
1524 | 50 [345] | 66 [455] | 10 | 75 | ... |
4130 | 55 [380] | 72 [495] | 10 | 80 | ... |
4140 | 70 [485] | 90 [620] | 10 | 85 | ... |
Normalized Tubing | |||||
Grade | Yield Strength,ksi[MPa] min | Ultimate Strength,ksi[MPa] min | Elongation,% min | RB,min | RB,max |
1008 | 23 [160] | 38 [260] | 30 | ... | 65 |
1009 | 23 [160] | 38 [260] | 30 | ... | 65 |
1010 | 25 [170] | 40 [275] | 30 | ... | 65 |
1015 | 30 [205] | 45 [310] | 30 | ... | 70 |
1020 | 35 [240] | 50 [345] | 25 | ... | 75 |
1021 | 35 [240] | 50 [345] | 25 | ... | 78 |
1025 | 37 [255] | 55 [379] | 25 | ... | 80 |
1026 | 40 [275] | 60 [414] | 25 | ... | 85 |
1030 | 40 [275] | 60 [415] | 25 | ... | 85 |
1035 | 45 [310] | 65 [450] | 20 | ... | 88 |
1040 | 45 [310] | 65 [450] | 20 | ... | 90 |
1340 | 50 [345] | 70 [480] | 20 | ... | 100 |
1524 | 45 [310] | 65 [450] | 20 | ... | 88 |
4130 | 50 [345] | 70 [480] | 20 | ... | 100 |
4140 | 65 [450] | 90 [620] | 20 | ... | 105 |
Sink-Drawn Tubing | |||||
1008 | 38 [260] | 48 [330] | 8 | 65 | ... |
1009 | 38 [260] | 48 [330] | 8 | 65 | ... |
1010 | 40 [275] | 50 [345] | 8 | 65 | ... |
1015 | 45 [310] | 55 [380] | 8 | 67 | ... |
1020 | 50 [345] | 60 [415] | 8 | 70 | ... |
1021 | 52 [360] | 62 [425] | 7 | 70 | ... |
1025 | 55 [380] | 65 [450] | 7 | 72 | ... |
1026 | 55 [380] | 70 [480] | 7 | 77 | ... |
1030 | 62 [425] | 70 [480] | 7 | 78 | ... |
1035 | 70 [480] | 80 [550] | 7 | 82 | ... |
Grade | Chemical Component,% | |||||||
C | Mn | P≤ | S≤ | Si | Ni | Cr | Mo | |
1008 1010 1012 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1030 1033 | ≤0.10 0.08~0.13 0.10~0.15 0.12~0.18 0.12~0.18 0.14~0.20 0.14~0.20 0.14~0.20 0.17~0.23 0.17~0.23 0.17 -0.23 0.19~0.25 0.18-0.25 0.22~0.28 0.22-0.28 0.22-0.29 0.27-0.34 0.29~0.36 | ≤0.50 0.30~0.60 0.30-0.60 0.30~0.60 0.60~0.90 0.30-0.6 0.60~0.90 0.70~1.0 0.30~0.60 0.60-0.90 0.70~1.00 0.30~0.60 1.30~1.65 0.30~0.60 0.60-0.90 1.20~1.55 0.60~0.90 0.70~1.00 | 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 | 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 0.035 | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... | ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... |
Grade | Chemical Component,% | |||||||
C | Mn | P≤ | S≤ | Si | Ni | Cr | Mo | |
1035 1040 1050 1060 1340 1524 4118 4130 4140 5130 8620 8630 | 0.31~0.38 0.36~0.44 0.47~0.55 0.55~0.66 0.38~0.43 0.18~0.25 0.18~0.23 0.28~0.33 0.38~0.43 0.23~0.33 0.18-0.23 0.28~0.33 | 0.60~0.90 0.60~0.90 0.60~0.90 0.60~0.90 1.60~1.90 1.35-1.65 0.70-0.90 0.40~0.60 0.75~1.00 0.70~0.90 0.70~0.90 0.70~0.90 | 0.035 0.040 0.040 0.040 0.035 0.040 0.035 0.035 0.035 0.035 0.035 0.035 | 0.035 0.050 0.050 0.050 0.040 0.050 0.040 0.040 0.040 0.040 0.040 0.040 | ... ... ... ... 0.15-0.35 ... 0.15-0.35 0.15~0.35 0.15~0.35 0.15~0.35 0.15~0.35 0.15~0.35 | ... ... ... ... ... ... ... ... ... ... 0.40~0.70 0.40~0.70 | ... ... ... ... ... ... 0.40~0.60 0.80~1.10 0.80~1.10 0.80~1.10 0.40~0.60 0.40~0.60 | ... ... ... ... ... ... 0.08~0.15 0.15~0.25 0.15~0.25 ... 0.15~0.25 0.15~0.25 |
Welded Tubing | |||||
Grade | Yield Strength,ksi[MPa] min | Ultimate Strength,ksi[MPa] min | Elongation,% min | RB,min | RB,max |
1008 | 30 [205] | 42 [290] | 15 | 50 | ... |
1009 | 30 [205] | 42 [290] | 15 | 50 | ... |
1010 | 32 [220] | 45 [310] | 15 | 55 | ... |
1015 | 35 [240] | 48 [330] | 15 | 58 | ... |
1020 | 38 [260] | 52 [360] | 12 | 62 | ... |
1021 | 40 [275] | 54 [370] | 12 | 62 | ... |
1025 | 40 [275] | 56 [385] | 12 | 65 | ... |
1026 | 45 [310] | 62 [425] | 12 | 68 | ... |
1030 | 45 [310] | 62 [425] | 10 | 70 | ... |
1035 | 50 [345] | 66 [455] | 10 | 75 | ... |
1040 | 50 [345] | 66 [645] | 10 | 75 | ... |
1340 | 55 [380] | 72 [495] | 10 | 80 | ... |
1524 | 50 [345] | 66 [455] | 10 | 75 | ... |
4130 | 55 [380] | 72 [495] | 10 | 80 | ... |
4140 | 70 [485] | 90 [620] | 10 | 85 | ... |
Normalized Tubing | |||||
Grade | Yield Strength,ksi[MPa] min | Ultimate Strength,ksi[MPa] min | Elongation,% min | RB,min | RB,max |
1008 | 23 [160] | 38 [260] | 30 | ... | 65 |
1009 | 23 [160] | 38 [260] | 30 | ... | 65 |
1010 | 25 [170] | 40 [275] | 30 | ... | 65 |
1015 | 30 [205] | 45 [310] | 30 | ... | 70 |
1020 | 35 [240] | 50 [345] | 25 | ... | 75 |
1021 | 35 [240] | 50 [345] | 25 | ... | 78 |
1025 | 37 [255] | 55 [379] | 25 | ... | 80 |
1026 | 40 [275] | 60 [414] | 25 | ... | 85 |
1030 | 40 [275] | 60 [415] | 25 | ... | 85 |
1035 | 45 [310] | 65 [450] | 20 | ... | 88 |
1040 | 45 [310] | 65 [450] | 20 | ... | 90 |
1340 | 50 [345] | 70 [480] | 20 | ... | 100 |
1524 | 45 [310] | 65 [450] | 20 | ... | 88 |
4130 | 50 [345] | 70 [480] | 20 | ... | 100 |
4140 | 65 [450] | 90 [620] | 20 | ... | 105 |
Sink-Drawn Tubing | |||||
1008 | 38 [260] | 48 [330] | 8 | 65 | ... |
1009 | 38 [260] | 48 [330] | 8 | 65 | ... |
1010 | 40 [275] | 50 [345] | 8 | 65 | ... |
1015 | 45 [310] | 55 [380] | 8 | 67 | ... |
1020 | 50 [345] | 60 [415] | 8 | 70 | ... |
1021 | 52 [360] | 62 [425] | 7 | 70 | ... |
1025 | 55 [380] | 65 [450] | 7 | 72 | ... |
1026 | 55 [380] | 70 [480] | 7 | 77 | ... |
1030 | 62 [425] | 70 [480] | 7 | 78 | ... |
1035 | 70 [480] | 80 [550] | 7 | 82 | ... |