Melt Drawn Heat Resistant Stainless Steel Fiber

The raw material is stainless steel ingots, using electric stoves which melt the stainless steel ingots to become 1500 ~ 1600 ℃ steel liquid, and then with a grooved high speed rotating melt-extracting steel wheel which produces wires that meets are our customers’ specific requirements. When melting down to a wheel steel liquid surface, the liquid steel blow out by slot with centrifugal force at extremely high speed with cooling forming. Melting wheels with water keep the cooling speed. This production method is more convenient and efficient in producing steel fibers of different materials and sizes.

Products Details

Code Chemical Content %
C P Mn Si Cr Ni
330 ≤0.20 ≤0.04 ≤2.0 ≤0.75 17-20 34-37
310 ≤0.20 ≤0.04 ≤2.0 ≤1.5 24-26 19-22
304 ≤0.20 ≤0.04 ≤2.0 ≤2.0 18-20 8-11
446 ≤0.20 ≤0.04 ≤1.5 ≤2.0 23-27
430 ≤0.20 ≤0.04 ≤1.0 ≤2.0 16-18
Physical, mechanical, hot-corrosive properties
Performance   ( Alloy ) 310 304 430 446
Melting point range ℃ 1400-1450 1400-1425 1425-1510 1425-1510
Elastic modulus at 870℃ 12.4 12.4 8.27 9.65
Tensile Strength at 870℃ 152 124 46.9 52.7
Expansile modulus at 870℃ 18.58 20.15 13.68 13.14
Conductivity at 500℃ w/m.k 18.7 21.5 24.4 24.4
Gravity at normal temperature g/cm3 8 8 7.8 7.5
Weight loss after 1000hrs of cyclic oxidation % 13 70(100h) 70(100h) 4
Sharp cycling of air, Oxidation temperature ℃ 1035 870 870 1175
1150 925 815 1095
Corrosion Rate in H2S mil/yr 100 200 200 100
Maximum recommended temperature in SO2 1050 800 800 1025
Corrosive ratio in natural gas at 815℃ mil/yr 3 12 4
Corrosive ratio in coal gas at 982℃ mil/yr 25 225 236 14
Nitridation rate in anhydrous ammonia at 525 ℃ mil/yr 55 80 <304#>446# 175
Corrosive ratio in CH2 at 454 ℃ mil/yr 2.3 48 21.9 8.7
Carbon increment of alloy at 982℃,25hrs,40cycles  % 0.02 1.4 1.03 0.07
Code
C P Mn Si Cr Ni
330 ≤0.20 ≤0.04 ≤2.0 ≤0.75 17-20 34-37
310 ≤0.20 ≤0.04 ≤2.0 ≤1.5 24-26 19-22
304 ≤0.20 ≤0.04 ≤2.0 ≤2.0 18-20 8-11
446 ≤0.20 ≤0.04 ≤1.5 ≤2.0 23-27
430 ≤0.20 ≤0.04 ≤1.0 ≤2.0 16-18
The raw material is stainless steel ingots, using electric stoves which melt the stainless steel ingots to become 1500 ~ 1600 ℃ steel liquid, and then with a grooved high speed rotating melt-extracting steel wheel which produces wires that meets are our customers’ specific requirements. When melting down to a wheel steel liquid surface, the liquid steel blow out by slot with centrifugal force at extremely high speed with cooling forming. Melting wheels with water keep the cooling speed. This production method is more convenient and efficient in producing steel fibers of different materials and sizes.Adding heat-resistant stainless steel fibers to amorphous refractory materials (castables, plastic materials, and compacted materials) will change the internal stress distribution of the refractory material, prevent crack propagation, transform the brittle fracture mechanism of the refractory material into ductile fracture, and significantly improve the performance of the refractory material. Application areas: heating furnace top, furnace head, furnace door, burner brick, tapping groove bottom, annular furnace fire wall, soaking furnace cover, sand seal, intermediate ladle cover, electric furnace triangle area, hot metal ladle lining, spray gun for external refining, hot metal trench cover, slag barrier, various refractory material lining in blast furnace, coking furnace door, etc.Short process flow and good alloy effect; (2) The rapid quenching process makes the steel fiber have microcrystalline structure and high strength and toughness; (3) The cross section of the fiber is irregular crescent shaped, the surface is naturally rough, and has strong adhesion with the refractory matrix; (4) It has good high temperature strength and high temperature corrosion resistance.

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