원문정보
피인용수 : 0건 (자료제공 : 네이버학술정보)
초록
영어
We are conducting research and development of magnetic filters for magnetic separation targeting paramagnetic materials. In order to develop a new magnetic filter with a large magnetic gradient, stainless fiber (SUS430, 120 mm x 3 mm) with a triangular cross section was sintered with a high void ratio (~ 70%) and the magnetic filter (20 mm x 2 mm) was created. When this magnetic filter was used to perform magnetic separation of hematite (particle size 50 μm) under a maximum magnetic flux density of 1.49 T, high separation rates were obtained.
목차
Abstract
1. INTRODUCTION
2. OUTLINE OF RESEARCH
3. EVALUATION OF HEMATITE
3.1. Factors Affecting on Magnetic Force
3.2. Magnetic Separation Experimental Conditions
4. CONVENTIONAL FILTER
4.1. Conventional Filters
4.2. Magnetic Separation Results
5. NOBEL FILTER
5.1. Noble Magnetic Filter
5.2. Magnetic Separation with Noble Magnetic Filter
6. DISCUSSION
7. CONCLUSIONS
REFERENCES
1. INTRODUCTION
2. OUTLINE OF RESEARCH
3. EVALUATION OF HEMATITE
3.1. Factors Affecting on Magnetic Force
3.2. Magnetic Separation Experimental Conditions
4. CONVENTIONAL FILTER
4.1. Conventional Filters
4.2. Magnetic Separation Results
5. NOBEL FILTER
5.1. Noble Magnetic Filter
5.2. Magnetic Separation with Noble Magnetic Filter
6. DISCUSSION
7. CONCLUSIONS
REFERENCES
저자정보
참고문헌
자료제공 : 네이버학술정보