Quantitative Characterization of Microstructure of WC-Co/TiC-Al_2O_3 Composite Materials with Relate to Mechanical Properties
スポンサーリンク
概要
- 論文の詳細を見る
The microstructure of WC-Co/TiC-Al2O3 sintered composites has been characterized quantitatively by means of image analysis. The areal fraction, the grain size distribution and the uniformity of spatial distribution expressed by the void size distribution of each component have been correlated with the mechanical properties of samples such as Vickers hardness and transverse rupture strength under various sintering temperatures.The results revealed that the larger amount of WC dissolution and smaller grains were obtained at higher sintering temperature, while the total areal fraction of β-matrix formed increased to get higher hardness but lower strength. Further, at the higher temperature, the lower areal fraction of Al2O3 was obtained from densification of alumina aggregates due to the rearrangement of individual particles to yield lower composite strength.Void size distributions of total components were relatively uniform due to the high degree of mixing of powder achieved by means of Hybridizer™. Further, more uniform dispersions of WC and Al2O3 grains were obtained at low sintering temperature, while the TiC-WC phase was dispersed uniformly at the high temperature. Thus, the areal fraction and spatial uniformity of WC and Al2O3 components were most influential to the higher strength of composite, while the higher hardness was governed by those of the β -phase.
- 社団法人 化学工学会の論文
- 2003-01-01
著者
-
GOLMAN Boris
Division of Materials Science and Engineering, Graduate School of Engineering, Hokkaido University
-
Golman Boris
Division Of Materials Science And Engineering Graduate School Of Engineering Hokkaido University
-
KANGWANTRAKOOL SUKASEM
Division of Materials Science and Engineering, Graduate School of Engineering, Hokkaido University
-
SHINOHARA KUNIO
Division of Materials Science and Engineering, Graduate School of Engineering, Hokkaido University
-
Kangwantrakool Sukasem
Division Of Material Science And Engineering Graduate School Of Engineering Hokkaido University
-
Kangwantrakool Sukasem
Division Of Materials Science And Engineering Graduate School Of Engineering Hokkaido University
-
Shinohara Kunio
Division Of Material Science And Engineering Graduate School Of Engineering Hokkaido University
関連論文
- 並流型移動層反応器におけるSi_3N_4超微粒子のAlNによるCVD被覆
- Quantitative Characterization of Microstructure of WC-Co/TiC-Al_2O_3 Composite Materials with Relate to Mechanical Properties
- New Design of Microstructure of WC-Co/TiC-Al_2O_3 Composite Materials by Mechanical Coating of Particles
- Particle flow model in a spouted bed
- Formation of a sigmoidal release pattern of core particles coated with layers of soluble and permeable particles
- Multiple-Layer Coating of Solids with Impermeable Film Dispersing Permeable Particles for Controlled Release
- Effect of the Porous Structure of a Coating Layer on the Release Rate of Core Particle
- Controlled Release of Core Particle Coated with Soluble Particles in Impermeable Layer
- Mechanical and Thermal Properties of Hot-Pressed Compact of Si_3 N_4 Particles Coated with AIN by CVD
- CVDによる超微粒子被覆用向流型移動層反応器の設計
- Estimation of Diameter of Granule Prepared by Spray Drying of Slurry with Fast and Easy Evaporation
- Basic Model of Spray Drying Granulation
- 触媒活性膜反応器による発熱性逐次反応の選択率と収率
- Preparation of large agglomerates of high voidage from charcoal particles for liquid absorption and release
- Agglomerating fluidization of group C particles : major factors of coalescence and breakup of agglomerates
- Density segregation of a binary solids mixture during batch operation in a two-dimensional hopper
- Segregation indices of multi-sized particle mixtures during the filling of a two-dimensional hopper
- Mechanism of particle shape modification by dry impact blending
- Air pressure drop across a particle moving bed in a three-dimensional cold model of a blast furnace
- Comparison of moving bed reactors for chemical vapor deposition coating of fine particles
- Hot Hardness of WC-Co/TiC-Al_2O_3 Composite Materials
- NO Adsorption Characteristics of Agglomerated Zeolite Particles
- Modeling of CVD Coating Inside Agglomerate of Fine Particles
- Size segregation of multicomponent particles during the filling of a hopper
- Preparation of New WC-Co/TiC-Al_2O_3 Composite Materials with Mechanically Coated Particles