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Microstructural modelling of electrical conductivity and mechanical properties of sintered ferrous materials
Simchi, A ; Sharif University of Technology | 2000
159
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- Type of Document: Article
- DOI: 10.1179/003258900665970
- Publisher: Inst of Materials , 2000
- Abstract:
- The role of microstructure on mechanical properties of sintered ferrous materials was studied using a method based on electrical conductivity measurement. The method was accompanied by quantitative fractography to evaluate the dewaxing and sintering process in iron compacts. The effects of manufacturing parameters, such as compacting pressure in the range of 150-800 MPa, sintering temperature from 400 to 1300 °C, sintering time up to 8 h, and lubrication mode were investigated. Several mathematical models were checked to obtain the best one for prediction of electrical conductivity changes as a function of manufacturing parameters. The mechanical properties of the sintered compacts were also evaluated to establish a relationship between conductivity, total porosity, pore morphology, and mechanical behaviour. The results show that the electrical conductivity/resistivity of sintered materials is closely related to its microstructure, so that measuring these properties can replace destructive test methods for prediction of mechanical strength of sintered materials with homogeneous matrix microstructure. The application of the method is shown for sintered Fe, Fe-0.8%C, and Fe-1.5%Mo-0.7%C compacts
- Keywords:
- Dewaxing ; Porosity ; Morphology ; Metallographic microstructure ; Fractography ; Mathematical models ; Electric conductivity of solids
- Source: Powder Metallurgy, London ; Volume 43, Issue 3 , 2000 , Pages 219-227 ; 00325899 (ISSN)
- URL: https://www.tandfonline.com/doi/abs/10.1179/003258900665970