Iron Powder Metallurgy |
Contents
1 | |
Production Characteristics Fabrication | 20 |
Relations between Pore Structure and Densification Mechanism | 54 |
Some Properties of Engineering Iron Powders | 72 |
The Pressing and Sintering Properties of Iron Powders | 122 |
High Velocity Compaction of Iron Powder | 154 |
The Effect of DieWall Lubrication and Admixed Lubricant | 184 |
HotPressing of Iron Powders | 200 |
Study of the Mechanical Properties of Porous Iron | 221 |
The Effect of HClH₂ Sintering on the Properties | 249 |
Densification and Grain Growth in the Later Stages | 262 |
Effect of Powder Particle Size on the Grain Size of | 284 |
The System IronCarbon in Powder Metallurgy | 304 |
Effect of Different Furnaces and Sintering Practices | 320 |
The Temperature Dependence of the Mechanical Properties | 345 |
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Common terms and phrases
admixed lubricant alloy annealed apparent density atomized carbon carbon monoxide carbonyl iron carbonyl iron powder cathode cold-rolled compacting pressure compressibility cone curves decarburizing decrease determined diameter distribution effect electrical resistivity electrolytic iron powder electrolytic powder elongation Fe powder flow fraction furnace g/cc g/cm³ grain growth graphite green density green strength green strips H₂ heating hydrogen increase Iron Oxides kg/mm² Laboratory magnetite materials mesh metal powders method microns mill scale obtained oxide-reduced particle shape particle size pore porosity powder compacts powder feed rate Powder Metallurgy powder particles powder rolling pressing and sintering production properties of sintered range Reduction of Iron roll gap rolling load rolling speed sample shown in Fig sieve Sieve Analysis sintered compacts sintered iron sintering temperature specific pressure specific surface specimens sponge iron steel structure sulfur Table tensile strength test bars theoretical density tion tons/sq torsion values zinc stearate