TH12957B - Particle CaF2 improves the mechanical ability of iron-based powders to be sintered. - Google Patents

Abstract

This invention is about additives to improve the mechanical ability of the composition. Iron-based powder This additive contains calcium fluoride particles, which are included in an amount of 0.1-0.6% by weight of the powder composition. In addition, the invention is related to Kang Ong Composed of powder form containing the additives indicated. And also about the products that have been sintered, produced from Powder composition

Claims (4)

1. Iron-based powder mixtures must be free from the material in the rigid cycle for Compacting and sintering into products that expand mechanical capabilities In which the aforementioned mixtures With at least one additional iron of the alloy C, P, Cr, Mn, Cu, Ni, and Mo alloys less than or equal to 2% by weight, which iron-based powders, including caF2 particles, are 0.1- 0.6% is a modifying agent. Cooked the particle mechanical ability of CaF2 powder, which is not attached to the CaF2 powder graphite particles at times. Together with one or more general mechanical modifiers And must be free from the elemental sulfur. 2. Powdered mixtures sought in claim 1, in which the alloying elements, including in quantity, are contained in substances for improving the mechanical ability of sintered products. The following is compared by weight of C 0.1-1.2% wt., P 0-0.6% wt., Cr 0-25% wt., Mn 0-10% wt., Cu 0-5% wt., Ni. 0-8% wt, and Mo 0-2% wt. 3. Powder mixture requested in Clause 2, which includes MoS2 of 0.05-0.5% by weight. It is a powder according to claim 1, in which iron-based powders contain CaF2 free particles with an average particle size of less than 100 μm. 5. Powder mixture according to claim 1, in which additional mechanical modifiers are MnS in dosage up to 30% by weight of the total weight of CaF2 6. Sintered product with extended mechanical capacity. And must be independent from the material in Tough cycle, the product contains C 0.1-1.2% wt, P 0-0.6% wt, Cr 0-25% wt, Mn 0-10% wt, Cu 0-5% wt, Ni 0-. 8% wt, and Mo 0-2% wt, and CaF2 0.1-0.6% wt, and the iron or iron balance. 7. The sintered product of the claim that 6, which contains CaF2 as a CaF2 particle, which is not attached to the graphite particle, the CaF2 particle improves the mechanical capacity of the sintered product, and the sintered product must be independent of the material in the cycle. Tough Sector 8. The sintered product of claim 6, which is made by adding CaF2 particles, which are not attached to graphite particles, to the iron powder. Or steel Which must be independent from the material in the tough sector to achieve Powdered mixtures Compacting of powdered mixtures into green bodies And sintered green bodies. 9. Powder mixture requested in claim 1, in which iron-based powders contain CaF2 0.15-0.6% particles by weight of 1 0. Powder mixture requested in claim 1, where iron-based powders contain 0.2-0.5% CaF2 particles by weight 1. 1. Powder mixtures sought in claim 2, including MoS2 0.1-0.3% by weight 1. 2. Powder mixtures sought in claim 1, where the iron-based powder contains free particles of CaF2 with an average particle size between 20 μm and 70 μm. 3. The powdered mixture requested in claim 1, where the additional mechanical modifier is MnS at a maximum amount of 15% by weight of the total weight of CaF2 1. 4. The powdered mixture requested in claim 6 is strong. Less than or equal to 234 HV 10