Preparation of Fine Particles by Gas Evaporation Technique with Electron Beam Heating
スポンサーリンク
概要
- 論文の詳細を見る
The electron beam heating was applied to the gas evaporation technique to produce fine metallic particles. The advantages of the present method are that it works at very low pressures where the plasma flame heating does not work, and that it is free of the crucible damage which is serious in the case of the tungsten heater. It was found that copper particles of 50 mg were produced per minute in the argon gas of 0.5 Torr with an electron beam of 50 kV at 5 mA.
- 社団法人応用物理学会の論文
- 1973-10-05
著者
-
IWAMA Saburo
Department of Electronics Engineering, Daido Institute of Technology
-
Iwama Saburo
Department Of Electrical Engineering Daido Institute Of Technology
-
Sahashi Toshio
Department Of Electrical Engineering Daido Institute Of Technology
-
SHICHI Eiichi
Daido Steel Co., Ltd.
-
Shichi Eiichi
Daido Steel Co. Ltd.
関連論文
- Niobium Oxide Electrochromic Thin Films Prepared by Reactive DC Magnetron Sputtering
- Preparation of Fine Particles by Gas Evaporation Technique with Electron Beam Heating
- Al, Cu and W Oxide Fine Particles Produced by Discharge Explosions
- Experimental Study of the Mechanism of Skiing Turns. : III. Measurement of Edging Angles of Skis on Snow Surface
- Experimental Study of the Mechanism of Skiing Turns. : II. Measurement of Edging Angles
- Method for Drawing Locus of a Sliding Ski as Observed from Direction Perpendicular to Snow Surface
- Focusing Anisotropy of Kikuchi Lines Obtained by Selected Area Diffraction of Electron Microscopy
- Experimental Study of the Mechanism of Skiing Turns. : I. An Uphill Turn from Straight Running Downhill
- The Contrast of Electron Microscope Images of Thick Crystalline Object. : Experiment with an Al-Mg-Si Alloy at 50-100 kV.
- Coefficient of Kinetic Friction of Snow Skis during Turning Descents
- Sintering of Ultrafine Metal Powders. : I. Coalescence Growth Stage of Au and Ag
- Sintering of Ultrafine Metal Powders. : II. Neck Growth Stage of Au, Ag, Al and Cu
- Coefficient of Kinetic Friction of Snow Skis during Turning Descents
- Improvement of the Quality of Dark Field Images of Electron Microscope with the Increase of Accelerating Voltage