Home > Special Alloy > 652/S63199

2016-01-18 09:00:06   Source:   Criticism:0 CTR:

The 652/S63199 is special steel, and is low temperature of Structural steel in Germany, we can produce 652/S63199 plate,652/S63199 flat,652/S63199 belt,652/S63199 sheet,652/S63199 wire coil,652/S63199 square bar,652/S63199 round rod,652/S63199 pipe,652/S63199 forged valve body,652/S63199 forged rings, 652/S63199 forged multidiameter shafts etc for this steel.
Steel Grade|AISI: 652
Steel Grade|UNS: S63199
C(%): 0.32
Si(%): O.55
Mn(%): 1.15
Cr(%): 18.5
Ni(%): 9
Mo(%): 1.6
W(%): 1.35
Fe(%): Balance
Other(%): Ti0.55
Similar Grade: 19-9DX
①: Martensitic low alloy steel.
②: Martensitic secondary hardening steel.
③: Martensitic high chrome steel.
④: Austenitic precipitation hardening steel.
⑤: Austenitic Cold working with high strength steel.
⑥: Ironbase superalloy steel.
⑦: Cobalt-base superalloy steel.
⑧: Nickel-base superalloy steel.
⑨: It can be determined by manufacturer.


Introduction High Temperature Alloys Steel(652/S63199)
According to the existing theory, 760 ℃ high temperature materials according to the matrix elements mainly can be divided into high temperature iron base alloy, nickel base superalloy and cobalt-based superalloy.According to the preparation process can be divided into deformation and high temperature alloy, casting high temperature alloy powder metallurgy superalloy.By strengthening methods with solid solution strengthening, precipitation strengthening, oxide dispersion strengthened with fiber reinforced type, etc.High temperature alloy is mainly used in the manufacture of aviation, ships, and industrial gas turbine turbine blades, guide vane, combustion chamber and turbine disc, high-pressure compressor plate of high temperature components, also used in the manufacture of aerospace aircraft, rocket, nuclear reactors, petrochemical equipment, and the conversion of coal and other energy conversion device.
Classification of High Temperature Alloys Steel(652/S63199)
High temperature alloy is divided into three kinds of material: 760 ℃ high-temperature material, high temperature of 1200 ℃ and 1500 ℃ high temperature materials, the tensile strength of 800 mpa.Or refers to the 760-1500 ℃ above and the conditions of stress, the long-term work of the high temperature metal material, has excellent high temperature strength, good resistance to oxidation and thermal corrosion resistance, good fatigue properties, fracture toughness and other comprehensive performance, has become a military and civilian use of gas turbine engine hot end components an irreplaceable key materials.
Improve Strength(652/S63199)
1, solid solution strengthening: add elements of different size with matrix metal atoms, chromium, tungsten, molybdenum, etc.) cause the distortion of the matrix metal lattice, join can reduce the alloy substrate can stacking fault elements, such as cobalt and join will slow down the rate of diffusion of matrix elements (tungsten, molybdenum, etc.), to strengthen the matrix.
2, precipitation strengthening: by aging treatment, the second phase precipitation from the supersaturated solid solution (gamma, gamma ", carbide, etc.), to strengthen the alloy. Gamma 'matrix with the same, all is face-centered cubic structure, the lattice constant and the substrate, and with crystal lattice, so gamma phase are tiny particles in the matrix can be homogeneous precipitation, hinder dislocation motion, and have a significant reinforcement.
3, grain boundary strengthening: under high temperature, the alloy grain boundary is the weak link, add trace boron and zirconium and rare earth elements can improve the grain boundary strength.This is because of rare earth elements can purify grain boundary, boron, zirconium atomic energy filling grain boundary space, reduce the grain boundary diffusion rate in the process of creep, inhibition of grain boundary carbide spheroidizing of agglomeration and promote grain boundary in the second phase.In addition, add the right amount of casting alloy hafnium, also can improve the strength and plasticity of grain boundary.Through heat treatment on the grain boundary carbide or cause bending formation chain distribution of grain boundary, improve the plasticity and strength.
4,Oxide dispersion strengthened: by powder metallurgy method, remained stable under the high temperature alloy with little oxide, the dispersion distribution status, thereby gaining obvious reinforcement effect.Usually join oxides such as ThO2 and Y2O3.These oxide is through the obstacles to dislocation motion and stable dislocation structure and other factors and strengthen the alloy.

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