X4CrNiMo16-5-1

<Clicks:
We could produce X4CrNiMo16-5-1 X4CRNIMO16.5.1,X 4 Cr Ni Mo 16-5-1 Forged forging stainless Steel Round Bars Rods Square rectangular rectangle Flat Hex Bars,X4CrNiMo16-5-1 X4CRNIMO16.5.1,X 4 Cr Ni Mo 16-5-1 Forged Forging Steel Hollow Bars Forged Forging Sleeves Bushes Bushing Pipes Piping tube tubings barrels Casing Cases Shells cylinders hubs housings,X4CrNiMo16-5-1 X4CRNIMO16.5.1,X 4 Cr Ni Mo 16-5-1 Seamless Rolled Steel Rings X4CrNiMo16-5-1 X4CRNIMO16.5.1,X 4 Cr Ni Mo 16-5-1 Forged Forging Steel rings,X4CrNiMo16-5-1 X4CRNIMO16.5.1,X 4 Cr Ni Mo 16-5-1 Forged Forging Steel Blocks Discs Disks Plates ,X4CrNiMo16-5-1 Forged Forging Steel hydroelectric Hydraulic Kaplan Hydro Power Water turbine blades,X4CrNiMo16-5-1 X4CRNIMO16.5.1,X 4 Cr Ni Mo 16-5-1 forged forging steel pump shafts spindles,injector bodies.X4CrNiMo16-5-1 forged forging Centrifugal Machines Disc Stack Decanter Centrifuge Bowl Body Bodies Hood Covers,and other forged forging parts forged forging pieces forged forging steel components materials as per the requirement of the clients
Type Analysis
Single figures are nominal except where noted.
Carbon (Maximum) 0.06 % Manganese (Maximum) 1.50 %
Phosphorus (Maximum) 0.040 % Sulfur (Maximum) 0.030 %
Silicon (Maximum) 0.70 % Chromium 16.00 %
Nickel 5.00 % Molybdenum 1.20 %
Nitrogen (Minimum) 0.02 % Iron Balance  
X4CrNiMo16-5-1 Stainless is a martensitic stainless steel specially designed for those applications requiring high mechanical properties combined with improved corrosion resistance relative to traditional martensitic steels.
X4CrNiMo16-5-1 Stainless is also offered as an enhanced machining variant, X4CrNiMo16-5-1  stainless, which obtains an enhanced machinability characteristic through controlled addition of sulfur without degrading strength or corrosion resistance. X4CrNiMo16-5-1 EM Stainless contains differentiated micro constituents for easier machining production.
Corrosion Resistance
This alloy shows good corrosion resistance to mild atmospheres, both in annealed and heat-treated conditions. It resists corrosion in many industrial and domestic environments as well as potable and mine waters.
For optimum corrosion resistance, surfaces must be free of scale, lubricants, foreign particles, and coatings applied for drawing and heading. After fabrication of parts, cleaning and/or passivation should be considered.
Annealing
This alloy is typically annealed at 1112°F - 1200°F (600°C - 650°C), followed by slow cooling in air. Heat uniformly to the selected temperature.
Hardening
Heat to 1740°F - 1920°F (950°C - 1050°C), followed by oil quench. Small sections can be hardening by air cool.
Tempering
QT900 properties are achieved by tempering at 1025°F - 1145°F (550°C - 620°C) for 8 hours followed by oil or air cool. Alternately, material may be treated using two cycles, 4 hours each followed by oil or air cool. This alloy may suffer temper embrittlement if tempered at 785°F - 1022°F (450°C - 550°C), or slow cool at this temperature range.
Our X4CrNiMo16-5-1 forging rings will be Ultrasonic testing as per standard, EN10228-3,Sep1921,ASTM A388 and so on
We could supply X4CrNiMo16-5-1 stainless steel forging parts certificate as per the standard of EN10204-3.1 or EN10204-3.2 of third party
Please send us the size or drawing of X4CrNiMo16-5-1 forged material that you need, we are glad to quote the best price for your side
 

 


X4CrNiMo16-5-1