Manufacturing range(介绍):
Stainless steel capillary, stainless steel small tube is widely used in medical treatment, fiber-optic, pen making, electronic welding products, light cable joint, food, vintage, dairy, drink, pharmacy and biochemistry, different length can be provided according to requests
Capillary tubes with a maximum bore of 0.0158 in., available in a wide range of stainless steels. Sandvik capillary tubes are characterized by tight tolerances, and the inside surface of the tubes is free from oil, grease and other particles. This ensures, for example, an optimized and even flow of liquids and gases from the sensor to the measuring instrument.
Stainless steel Coiled tubing is available in a range of different product forms depending on the customer requirements. Licancheng sihe stainless steel material manufactures welded and seamless tube products. The standard grades are 304 304L 316L(UNS S31603) Duplex 2205 (UNS S32205 & S31803) Super Duplex 2507 (UNS S32750) Incoloy 825 (UNS N08825) Inconel 625 (UNS N06625) Other grades of stainless steel in duplex and superduplex and nickel alloy are available on request.
Diameter from 3mm (0.118’’) to 25.4mm (1.00’’) OD. Wall thickness from 0.5mm (0.020’’) to 3mm (0.118’’).Tubing can be supplied in the annealed or cold worked stainless steel control line pipe condition.
Specification
3. Size range: diameter 3MM(0.118”-25.4(1.0”)MM
4. Wall thicknesses: 0.5mm (0.020’’) to 3mm (0.118’’)
5.General delivery pipe status: half hard / soft bright annealing
6.The tolerance range: diameter: + 0.1mm, wall thickness: + 10%, length: -0/+6mm
7.Annual output: 600 tons
8.Coil lengthsup to: 500MM-13500MM (45000feet)(can be adjusted according to customer requirements)
Commonly Size of stainless steel coiled tube: we can product them as your request.
Size of Stainless steel Coil Tube |
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ITEM |
Grade |
Size |
Pressure |
Length |
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1 |
316L、304L、304 alloy 625 825 2205 2507 |
1/8″×0.025″ |
3200 |
500-35000 |
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2 |
316L、304L、304 alloy 625 825 2205 2507 |
1/8″×0.035″ |
3200 |
500-35000 |
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3 |
316L、304L、304 alloy 625 825 2205 2507 |
1/4″×0.035″ |
2000 |
500-35000 |
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4 |
316L、304L、304 alloy 625 825 2205 2507 |
1/4″×0.049″ |
2000 |
500-35000 |
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5 |
316L、304L、304 alloy 625 825 2205 2507 |
3/8″×0.035″ |
1500 |
500-35000 |
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6 |
316L、304L、304 alloy 625 825 2205 2507 |
3/8″×0.049″ |
1500 |
500-35000 |
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7 |
316L、304L、304 alloy 625 825 2205 2507 |
1/2″×0.049″ |
1000 |
500-35000 |
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8 |
316L、304L、304 alloy 625 825 2205 2507 |
1/2″×0.065″ |
1000 |
500-35000 |
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9 |
316L、304L、304 alloy 625 825 2205 2507 |
φ3mm×0.7mm |
3200 |
500-35000 |
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10 |
316L、304L、304 alloy 625 825 2205 2507 |
φ3mm×0.9mm |
3200 |
500-35000 |
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11 |
316L、304L、304 alloy 625 825 2205 2507 |
φ4mm×0.9mm |
3000 |
500-35000 |
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12 |
316L、304L、304 alloy 625 825 2205 2507 |
φ4mm×1.1mm |
3000 |
500-35000 |
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13 |
316L、304L、304 alloy 625 825 2205 2507 |
φ6mm×0.9mm |
2000 |
500-35000 |
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14 |
316L、304L、304 alloy 625 825 2205 2507 |
φ6mm×1.1mm |
2000 |
500-35000 |
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15 |
316L、304L、304 alloy 625 825 2205 2507 |
φ8mm×1mm |
1800 |
500-35000 |
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16 |
316L、304L、304 alloy 625 825 2205 2507 |
φ8mm×1.2mm |
1800 |
500-35000 |
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17 |
316L、304L、304 alloy 625 825 2205 2507 |
φ10mm×1mm |
1500 |
500-35000 |
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18 |
316L、304L、304 alloy 625 825 2205 2507 |
φ10mm×1.2mm |
1500 |
500-35000 |
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19 |
316L、304L、304 alloy 625 825 2205 2507 |
φ10mm×2mm |
500 |
500-35000 |
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20 |
316L、304L、304 alloy 625 825 2205 2507 |
φ12mm×1.5mm |
500 |
500-35000 |
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Pressure tables | ||||||||||||||||
Selection of the appropriate material for any given control or chemical injection line is subject to the prevailing operational and site conditions. In order to assist in the selection, the following tables provide internal pressure ratings and the adjustments factors for a range of common grades and sizes of seamless and laser welded stainless tubing. | ||||||||||||||||
Maximum pressure (P) for TP 316L at 100°F (38°C)1) | ||||||||||||||||
Please refer to grade and product form adjustment factors below. | ||||||||||||||||
Outside diameter, in. | Wall thickness, in. | Working pressure2) | Burst pressure2) | Collapse pressure4) | ||||||||||||
psi (MPa) | psi (MPa) | psi (MPa) | ||||||||||||||
1/4 | 0.035 | 6,600 (46) | 22,470 (155) | 6,600 (46) | ||||||||||||
1/4 | 0.049 | 9,260 (64) | 27,400 (189) | 8,710 (60) | ||||||||||||
1/4 | 0.065 | 12,280 (85) | 34,640 (239) | 10,750 (74) | ||||||||||||
3/8 | 0.035 | 4,410 (30) | 19,160 (132) | 4,610 (32) | ||||||||||||
3/8 | 0.049 | 6,170 (43) | 21,750 (150) | 6,220 (43) | ||||||||||||
3/8 | 0.065 | 8,190 (56) | 25,260 (174) | 7,900 (54) | ||||||||||||
3/8 | 0.083 | 10,450 (72) | 30,050 (207) | 9,570 (66) | ||||||||||||
1/2 | 0.049 | 4,630 (32) | 19,460 (134) | 4,820 (33) | ||||||||||||
1/2 | 0.065 | 6,140 (42) | 21,700 (150) | 6,200 (43) | ||||||||||||
1/2 | 0.083 | 7,840 (54) | 24,600 (170) | 7,620 (53) | ||||||||||||
5/8 | 0.049 | 3,700 (26) | 18,230 (126) | 3,930 (27) | ||||||||||||
5/8 | 0.065 | 4,900 (34) | 19,860 (137) | 5,090 (35) | ||||||||||||
5/8 | 0.083 | 6,270 (43) | 26,910 (151) | 6,310 (44) | ||||||||||||
3/4 | 0.049 | 3,080 (21) | 17,470 (120) | 3,320 (23) | ||||||||||||
3/4 | 0.065 | 4,090 (28) | 18,740 (129) | 4,310 (30) | ||||||||||||
3/4 | 0.083 | 5,220 (36) | 20,310 (140) | 5,380 (37) | ||||||||||||
1) Estimates only. Actual pressures should be calculated considering all stress factors in the system. | ||||||||||||||||
2) Based on calculations from API 5C3, using a wall tolerance of +/-10% | ||||||||||||||||
3) Based on ultimate strength burst calculations from API 5C3 | ||||||||||||||||
4) Based on yield strength collapse calculations from API 5C3 | ||||||||||||||||
Adjustment factors for working pressure limits1) | ||||||||||||||||
Pw = reference working pressure rating for TP 316L at 100°F (38°C). To determine working pressure for grade/temperature combination, multiply Pw by adjustment factor. | ||||||||||||||||
Grade | 100°F | 200°F | 300°F | 400°F | ||||||||||||
(38°C) | (93°C) | (149°C) | (204°C) | |||||||||||||
TP 316L, seamless | 1 | 0.87 | 0.7 | 0.63 | ||||||||||||
TP 316L, welded | 0.85 | 0.74 | 0.6 | 0.54 | ||||||||||||
Alloy 825, seamless | 1.33 | 1.17 | 1.1 | 1.03 | ||||||||||||
Alloy 825, welded | 1.13 | 1.99 | 1.94 | 0.88 | ||||||||||||
1) Adjustment factors based on allowable stress in ASME. | ||||||||||||||||
Adjustment factors for burst pressure limits1) | ||||||||||||||||
Pb = reference burst pressure for TP 316L at 100°F. To determine burst pressure for grade/temperature combination, multiply Pb by adjustment factor. | ||||||||||||||||
Grade | 100°F | 200°F | 300°F | 400°F | ||||||||||||
(38°C) | (93°C) | (149°C) | (204°C) | |||||||||||||
TP 316L, seamless | 1 | 0.93 | 0.87 | 0.8 | ||||||||||||
TP 316L, welded | 0.85 | 0.79 | 0.74 | 0.68 | ||||||||||||
Alloy 825, seamless | 1.13 | 1.07 | 1 | 0.87 | ||||||||||||
Alloy 825, welded | 0.96 | 0.91 | 0.85 | 0.74 | ||||||||||||
1) Adjustment factors based on ultimate strength in ASME. |
Chemical composition:
316 Stainless steel capillary tube |
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Grade | UNS | C | Cr | Ni | Mo | Others | |||
max. | |||||||||
TP 316L |
S31600/ S31603 |
0.03 |
17.5 |
13 |
2.1 |
0.1 |
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Mechanical properties | |||||||||
Grade |
Yield strength, |
Tensile strength, |
Elongation |
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psi (MPa) |
psi (MPa) |
% |
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TP 316L |
32,000 (220) |
75,000 (515) |
35 |
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Corrosion properties | |||||||||
Grade |
UNS |
PRE1) |
CPT2) F (oC) |
Max H2S3) |
CO24) |
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TP 316L |
S31600/S31603 |
24 |
95 (35) |
No limit |
+ |
Quality advantage:
The quality of our products for the control line in oil and gas sector is assured not just during the controlled manufacturing process but also by way of finished product testing. Typical tests include:
1.Non-destructive tests
2. Hydrostatic tests
3.Surface finish controls
4. Dimensional accuracy measurements
5.Flare and coning tests
6. Mechanical and chemical property testing
Stainless steel coil tube Application: