| 钢级: | 300 系列,不锈钢 304/316L, 400 系列, X5CrNi18-20, 200 系列 | 类型 | 无缝,焊接,圆管/钢管 |
|---|---|---|---|
| 标准: | ASTM, AISI, GB, DIN, JIS | 认证: | ISO,SGS,BV,ISO & SGS,ISO/CE/SGS |
| 长度 | 3000 毫米-6000 毫米,6 米或定制,最大 18000 米,11.8 米或根据需要,8 米 | 厚度 | 0.4-30毫米, 1.0毫米, 0.6毫米-2500毫米, 1毫米-60毫米, 0.6-25 毫米 |
| 技术: | 冷轧、热轧、冷拔、挤压、冷拔/冷轧或两者兼有 | 产品名称 | 不锈钢管,304 304L 316 316L 321 310S 不锈钢焊接管/无缝管,工厂直销电热元件用不锈钢管,不锈钢无缝管/管 |
| 外径: | 6-630毫米,定制, 6-762毫米, 6-860毫米;, 6毫米-630毫米 | 表面: | 退火,8K,抛光或非抛光,摩尔/铂金 |
| 完成: | 刷光,冷拔,酸洗,光亮退火或未退火,光亮 | 材料 | 不锈钢 |
| 形状 | 无缝管 | ||
| 强光 | astm a213 tp321 heat exchanger tubes, bright annealed heat exchanger tubes, 316 stainless steel heat exchanger tubes | ||
ASTM A213 TP321 Stainless Steel Seamless Tube
TONG CHUANG Special Steel has been engaged in seamless welded pipes and pipes of austenitic stainless steel and nickel alloy steel
(Hastelloy, Monel, Inconel, Inconel) for more than 25 years, with annual sales of more than 80,000 tons of steel pipes and pipes.
pipeline. Our customers are located in over 55 countries including USA, Canada, UK, Germany, Italy, Chile, Colombia,
Saudi Arabia, South Korea, Singapore, Australia, Poland and France.
Stainless Steel 321 is a basic austenitic 18/8 steel (grade 304) stabilized by the addition of titanium (321). SS 321 are used
because they are not susceptible to intergranular corrosion after heating in the carbide precipitation range of 425-850°C.
SS 321 is the grade of choice for applications in the temperature range up to about 900°C, combining high strength,
resistance to scaling and phase stability with subsequent resistance to water corrosion. SS 321H is an improved version
of SS 321 with a higher carbon content to provide higher high temperature strength.
规格
| 不锈钢 SS 321 / 321H | |
|---|---|
| AISI | 321 / 321H |
| UNS | S32100 / S32109 |
| Werkstoff Nr. | 1.4541 / 1.4878 |
机械和物理特性
| 密度 | 8.0 克/立方厘米 |
| 熔点 | 1454°C (2650°F) |
| 拉伸强度 | Psi - 75000 , MPa - 515 |
| 屈服强度(0.2%Offset) | Psi - 30000 , MPa - 205 |
| 伸长率 | 35 % |
化学成分
| SS 321 | SS 321H | |
| 倪 | 9 - 12 | 9 - 12 |
| Cr | 17 - 19 | 17 - 19 |
| C | 0.08 最大值 | 0.04 - 0.10 |
| N | 最大 0.10 | |
| 铁 | 平衡 | |
| 锰 | 2 最大值 | 2 最大值 |
| Si | 0.75 最大值 | 0.75 最大值 |
| S | 0.03 最大值 | 0.03 最大值 |
| P | 0.045 最大值 | 0.045 最大值 |
| Ti | 5xC min 0.60% 最大值 | 4xC min 0.60% 最大值 |
Alloys 321 (S32100) and 347 (S34700) are stable stainless steels whose main advantage is their excellent resistance to
intergranular corrosion after exposure to the chromium carbide precipitation temperature range of 800 to 15000F (427 to 8160C).
Alloy 321 stabilizes chromium carbide formation by adding titanium. Alloy 347 is stabilized by the addition of niobium and tantalum.
While Alloys 321 and 347 continue to be used for long-term use in the 800 to 15000F (427 to 8160C) temperature range, Alloy 304L
has superseded these stable grades for applications involving only welding or short-term heating.
Alloy 321 and 347 stainless steels are also beneficial for high temperature applications because of their good mechanical properties.
Alloy 321 and 347 stainless steels offer higher creep and stress rupture properties than Alloy 304, especially Alloy 304L, which can also be
considered for exposures concerned with sensitization and intergranular corrosion. This results in higher high temperature allowable stresses
for these stable alloys used in ASME boiler and pressure vessel code applications. Alloys 321 and 347 have a maximum service temperature of
15000F (8160C) for code applications such as Alloy 304, while Alloy 304L is limited to 8000F (4260C).
这两种合金都有高碳版本。这些牌号的 UNS 名称分别为 S32109 和 S34709。
.
321 不锈钢管的抗腐蚀性
general corrosion
Alloys 321 and 347 offer general bulk corrosion resistance similar to the unstable chromium-nickel alloy 304. Prolonged heating in the
chromiumcarbide precipitation range may affect the general resistance of alloys 321 and 347 in severely corrosive media.
In most environments, both alloys will exhibit similar corrosion resistance; however, Alloy 321 in the annealed condition is slightly less
resistant to general corrosion than annealed Alloy 347 in a strongly oxidizing environment. Therefore, Alloy 347 is more suitable for water
and other low temperature environments. The overall corrosion resistance of Alloy 321 is much more degraded than Alloy 347 when exposed
to the temperature range of 8000F to 15000F (4270C to 8160C). Alloy 347 is primarily used in high temperature applications where high
resistance to sensitization is required to prevent intergranular low temperature corrosion.
物理特性 321 不锈钢管和钢管
The physical characteristics of the Models 321 and 347 are very similar and, for all practical purposes, can be considered the same.
The values given in the table can be used for both steels.
When properly annealed, Alloy 321 and 347 stainless steels consist primarily of austenite and carbides of titanium or niobium. Small amounts
of ferrite may or may not be present in the microstructure. A small amount of sigma phase may form during prolonged exposure in the temperature
range of 10000F to 15000F (5930C to 8160C).
稳定 合金 321 和 347 不锈钢不能通过热处理硬化。
The overall heat transfer coefficient of a metal depends on factors other than the thermal conductivity of the metal. In most cases, film coefficients,
fouling, and surface conditions make stainless steels that require no more than 10% to 15% surface area than other metals with higher thermal
conductivity. Stainless steel's ability to maintain a clean surface generally has better heat transfer than other metals with higher thermal conductivity.
