Fe-C System Alloys Prepared by Mechanical Alloying and Powder Metallurgy
スポンサーリンク
概要
- 論文の詳細を見る
Fe-C system alloys were prepared by mechanical alloying and powder metallurgy (MA-PM). Elemental powders of iron and graphite with various carbon concentrations were mechanically alloyed (MAed) by using a planetary ball mill in argon atmosphere. The MAed powders were then characterized by X-ray diffraction (XRD), differential thermal analysis (DTA) and scanning electron microscopy (SEM). During MA, the particle refinement, formation of super-saturated solid solution and Fe/C amorphous occur and their degrees are influenced by carbon concentration in the mixed powders. The MAed powders with 4-10 mass% carbon concentration were hot isostatic pressed (HIPed) and with 0.4-2 mass% were hot pressed (HPed) at both lower and higher temperatures than the eutectoid transformation point A<SUB>1</SUB>. The sintered compacts were characterized by Vickers hardness test, tensile test and scanning electron microscopy (SEM). Both the HIPed and HPed compacts obtained in the present study have very fine microstructures in which very fine cementite dispersed in very fine ferrite matrix. Mechanical properties of the HPed compacts of Fe-C system with hypo-eutectoid composition are comparable with those of standard steels. Thus, MA and PM is a new technique of near net-shape to gain steels with excellent mechanical properties without thermal refining and alloying elements.
- 社団法人 粉体粉末冶金協会の論文
- 2003-11-15
著者
-
Sueyoshi Hidekazu
Department Of Mechanical Engineering Faculty Of Engineering Kagoshima University
-
Rochman Nurul
Research Centre For Physics-lipi Kompleks Puspiptek Serpong
-
Rochman Nurul
Research Center For Physics Indonesian Institute Of Science
-
Sueyoshi Hidekazu
Department Of Nano Structured And Advanced Materials Graduate School Of Science And Engineering Kago
関連論文
- Removal of Lead from Copper Alloy Scraps by Compound-Separation Method
- LCA of Manufacturing Lead-Free Copper Alloys
- Effect of Processing Conditions on Gas Nitriding of Austenitic Stainless Steels
- Effect of Preheating in Air on Gas Nitriding of Austenitic Stainless Steels
- Effects of microstructural factors and alloying elements on dezincification of brass
- Removal of lead from scrap brass
- Solid State Bonding of Graphite to S45C Steel
- Processing of a Continuous Ceramic Fiber-Reinforced Iron Alloy
- Processing of a Continuous Ceramic Fiber/Iron Alloy Composite
- Iron Aluminide Coating of Structural Steel by Mechanical Alloying Followed by Annealing
- Effect of Preheating in Air on Gas Nitriding of SUS304 Stainless Steel
- Effect of preforms on the synthesis of micro β-SiC from phenol resin and silicon
- Damping Capacity of Graphite-Dispersed Composite Steel
- Solid State Bonding of Graphite to SUS304 Steel
- Effect of Mechanical Pretreatment on Gas Nitriding Behavior of Austenitic Stainless Steels
- Fe-C System Alloys Prepared by Mechanical Alloying and Powder Metallurgy
- Solid State Bonding of Graphite to Inconel 718
- Solid State Bonding of Graphite to Nickel^
- Effect of Graphitization on Solid State Bonding of Carbon to Nickel
- Effects of Carbon Fiber Orientation and Graphitization on Solid State Bonding of C/C Composite to Nickel
- Effect of Joining Compressive Stress on Solid State Bonding of Graphite to Nickel
- Microwave Heating of Thin Au Film