TH51170B - Iron-based parts and methods for manufacturing steel-based parts - Google Patents

Abstract

DC60 (24/05/47) iron-based part with excellent skid performance and corrosion resistance Excellent, will have hardness near the surface. That has been properly adjusted The surface of the base metal made of iron or iron-based alloys will be covered. Cover with a layer of nickel which contains carbon or Nickel layer which has Carbon and phosphorus The diffused layer of nickel, where the nickel content of This layer, reduced in the direction of thickness, is formed on an iron substrate or at least iron-based alloys. This diffusion of nickel contains carbon. Iron-based parts with excellent slip performance and excellent corrosion resistance Excellent, will have hardness near the surface. That has been properly adjusted The surface of the base metal made of iron or iron-based alloys will be covered. Cover with a layer of nickel which contains carbon or Nickel layer which has Carbon and phosphorus The diffused layer of nickel, where the nickel content of This layer, reduced in the direction of thickness, is formed on an iron substrate or at least iron-based alloys. This diffusion of nickel contains carbon.

Claims (2)

(All) disclaimers that will not appear on the advertisement page: EDIT 26/01/2016 1. Iron-based parts containing iron base metal or iron-based alloys. Is the basis which includes The covered surface is covered with a nickel layer containing 15 percent carbon and phosphorus by mass or less. The nickel diffusion layer forms on the base metal made up of iron or steel alloys. Iron is fundamental The contents of the nickel are lower in the direction of depth and the carbon contained at least in the surface layer of this nickel diffusion layer 2. Iron-based parts according to claim 1, where This layer of nickel diffusion There are quench-cooled metal structures, including martensites 3. steel-based parts according to claim 1 or 2, where parts containing steel Basically, this is a mechanical unit or a mechanical unit that needs to have abrasion resistance or Corrosion resistance 4. Steel-based parts in accordance with any of Clause 1 to 3 where steel or This iron-based alloy is manufactured using forged or sintered materials. 5. Manufacturing methods for steel-based parts. Which this method includes steps Covering of base metals made of iron or iron-based alloys With a layer of nickel Heating the base metal to austenite boundary temperature in the diagram. Iron-carbon elements under a gaseous atmosphere with a carbon potential of 0.1 to 1.2 percent and cooling of the base metal. Where the nickel layer is a layer of nickel-phosphorus coating that is formed by The electroless nickel-based coating contains 15 percent phosphorus by mass or less, the phosphorus content will be reduced if carburizing content. The carburizing of iron or iron-based alloys has been increased, and this phosphorus content is obtained. This increases if the carbohydrate content of iron or iron-based alloys has been reduced. 6. Method according to claim 5, where after heating the base metal to temperature Austenite scope Cooling and tempering will be performed. 7. Method according to claim 6, where base metal heating to boundary temperature Austenite is performed first at the first temperature for the carbonization and diffusion of the nickel, and then to the second temperature below the temperature of the first and to perform immediate cooling. Method according to Clause 5 to 7, any one Where this nickel layer is laminated by Perform, at a minimum, electro-nickel plating and electroless nickel plating. 9. One of Clause 5 to 8 Clause 8 Procedures where steel or iron-containing alloys are This basis is produced by using forged or steel-based sintered materials. -------------------------------------------------- ------ 1. Iron-based parts that contain a base metal of iron or iron-based alloys. Basis, which includes The covered surface is covered with a layer of nickel that has a carbon or layer. Carbon and phosphorus-containing nickel A nickel diffusion layer forms on the base metal from which it is made Derived from steel or alloy containing Iron is fundamentally, the content of nickel content is lower in its direction, depth, and the carbon present at least in the surface layer of the available layer. This nickel diffusion layer 2. Iron-containing parts are based on claim 1, where this nickel diffusion layer contains Heat-treated metal structures, including martensite 3. steel-based parts according to one or two of claim 1 or 2. Where the pieces are Iron is this basis. Is a mechanical or mechanical unit requiring abrasion resistance or corrosion resistance 4. a steel-based part in accordance with one of the claims 1 to 3 Where the iron or Iron-containing alloys The basis is made by using forged materials or Sintered material 5. Steel-based parts according to claim 4, where the forged material is carbon steel. Structure 6. Steel-based parts according to claim 4. Where the sintered material is a Fe-Cu-based alloy or a Fe-Cu-C-based alloy 7. Manufacturing methods for iron-based parts This method includes Step Covering the surface of a base metal made of iron or alloy This base metal is heated to a temperature in the austenite region. In the composition diagram Iron - carbon under a gas atmosphere, which has 0.1 to 1.2 percent carbon potential and cooling of the base metal 8. Method of claim 7, where Heats the base metal to the temperature in The austenite boundary is then treated and treated. 9. Method according to claim 8, where the metal heating Base to boundary temperature This austenite will be executed. First, in the first temperature for promoting carbon addition And the diffusion of nickel And then operating in temperature Second, which is lower than the first temperature and the plating operation 1 0. Any method of claim 7 to 9 that This nickel layer is laminated using an electroless nickel plating and a non-electroless nickel plating. 1. Method according to Clause 7 to 10, any one that Which this nickel layer is the plating layer of Nickel-phosphorus Which is formed by electroless nickel plating and The content of phosphorus containing 15% by mass or less is reduced if the carbon content of iron or iron-based alloys is increased, and the content of iron-based alloys is reduced. Phosphorus will increase if The amount of carbon added of iron or steel-containing alloys is This basis is reduced by 1. 2. Method according to Clause 7 to 11, any one that Of which iron or steel-containing alloys are This basis is produced by The use of forcing materials or materials that have been sintered Iron-based type