Snerūdijančio plieno 310
Nerūdijantis plienas 310 is an austenitic heat resistant alloy with phenomenal resistance to oxidation under mildly cyclic conditions through 2000ºF. Its nickel and high chromium contents provide similar corrosion resistance, superior resistance to oxidation and the retention of a larger fraction of room temperature strength than the common austenitic alloys like Type 304. Nerūdijantis 310 is frequently utilized at cryogenic temperatures, with excellent toughness to -450°F.temperatures, with excellent toughness to -450°F, and low magnetic permeability.
Stainless steel 310S
Stainless steel 310S is austenitic chromium, nickel stainless steel (.08% max carbon) with good oxidation resistance and strength at high temperatures. It resist oxidation in continuous service up to 2000ºF gave decreasing sulphur gasses are not present. It is additionally utilized for intermittent service at temperatures up to 1900°F due to it resists rescaling and has a low coefficient of expansion. This factor reduces the tendency of the steel to warp in heat service. 310s are same as 310 aside from lower carbon content to minimize carbide precipitation during welding.
310/310S Form
- SHEET
- PLATES
- ROUND BAR
- TUBES/PIPES
- WIRE
Applications for 310/310S Nerūdijantis plienas
- Oil and Gas industries
- Pharmacy industries
- Textile industries
- Water Piping Systems
- Acid and Chemical industries
- Beverage industries
- Refinery Plants
- Automobile industries
- Cement industries
- Food industries
- Paper and Pulp industries
Equivalents of grade 310/310S
STANDARD | WERKSTOFF NR. | JAV | JIS | BS | GOST | AFNOR | IN |
SS 310 | 1.4841 | S31000 | S31000 | 310S24 | 20Ch25N20S2 | – | X15CrNi25-20 |
SS 310S | 1.4845 | S31008 | SUS 310S | 310S16 | 20Ch23N18 | – | X8CrNi25-21 |
Sudėtis ranges for 310/310S grade of stainless steel
Įvertinimas | C | Mn | Ir | P | S | Kr | Mo | Į | N | |
SS310 | min.max. | –0.25 | –2.00 | –1.50 | –0.045 | –0.030 | 24.026.0 | – | 19.022.0 | – |
SS310S | min.max. | –0.08 | –2.00 | –1.50 | –0.045 | –0.030 | 24.026.0 | – | 19.022.0 | – |
Mechaninės savybės
Įvertinimas | Tensile Strength (MPa) min | Derlingumo stiprumas 0.2% Proof (MPa) min | Pailgėjimas (% in 50mm) min | Hardness | |
Rockwell B (HR B) maks | Brinell (HB) maks | ||||
SS 310 | 515 | 205 | 40 | 95 | 217 |
SS 310S | 515 | 205 | 40 | 95 | 217 |
Fizinės savybės
Įvertinimas | Tankis (kg/m3) | Tamprumo modulis (GPa) | Vidutinis šiluminio plėtimosi koeficientas (m/m/0C) | Šilumos laidumas (W/m.K) | Specific Heat 0-1000C (J/kg.K) | Elektrinė varža (n.m) | |||
0-1000C | 0-3150C | 0-5380C | at 1000C | at 5000C | |||||
310 / 310S | 7750 | 200 | 15.9 | 16.2 | 17.0 | 14.2 | 18.7 | 500 | 720 |
Atsparumas korozijai
310 / 310S stainless steel (1.4845) has excellent corrosion resistance at normal temperatures but is primarily designed to perform at high temperatures. In these high-temperature environments, 310 / 310S(1.4845) maintains very good corrosion resistance and also has exceptional resistance to; oxidizing and carburizing atmospheres and other forms of hot corrosion, up to a maximum dry air service temperature of 1100ºC. Other corrosive compounds such as water and sulphur compounds will significantly reduce the maximum service temperature.
HEAT RESISTANCE:
Good resistance to oxidation in intermittent service in air at temperatures up to 1040°C and 1150°C in continuous service.
Good resistance to thermal fatigue and cyclic heating.
Widely used where sulphur dioxide gas is encountered at elevated temperatures.
Continuous use in 425-860°C range not recommended due to carbide precipitation, if subsequent aqueous corrosion resistance is needed
Generally used at temperatures starting from about 800 or 900°C – above the temperatures at which 304H and 321 are effective.
Karščio gydymas
Heat Treatment Type 310/310S are solution annealed by heating to temperature range 1040 -1065°C, holding at temperature until thoroughly soaked, then water quenching.
Hot Working
After uniform heating to 2150 F (1177 C) most common hot work techniques can be successfully performed. Do not forge down 1800 F (982 C). Fast cooling is required to maximize corrosion resistance.
Cold Working
In spite of the fact that this alloy has a high work hardening rate, this alloy can be drawn, headed, upset and stamped. To remove internal stress full annealing is required after cold work.
Annealing
1900-2050 F (1038-1121 C) water quench.
Hardening
This alloy doesn’t reply to heat treatment. Cold work will cause an increase in both hardness and streng
Machinability
Machinability Grades 310/310SS are similar in machinability to type 304. Work hardening can be a problem and it is normal to remove the work hardened layer by using slow speeds and heavy cuts, with sharp tools and good lubrication. Powerful machines and heavy, rigid tools are used.
WELDABILITY:
Austenitic stainless steel is generally considered to be weldable
Generally considered to have weldability equivalent to 304 ir 304L
Special consideration is needed to compensate for a higher coefficient of thermal expansion to avoid warping and distortion