This action may take several minutes for large corpora, please wait.
doc#118 | reduction of the anode loss. The |
doc#118 | transfer to the anode for a given |
doc#118 | area at the anode by flow or |
doc#118 | transferred to the anode by applying gas |
doc#118 | transpiration through the anode . The third |
doc#118 | a transpiration cooled anode as well as |
doc#118 | through a porous anode (transpiration cooling |
doc#118 | transferred to the anode by the above |
doc#118 | reaction. The anode material was porous |
doc#118 | models of the anode holder. The |
doc#118 | spacing. The anode in figure 2 |
doc#118 | means of the anode holder which was |
doc#118 | ejected from the anode formed a jet |
doc#118 | air. The anode consisted of a |
doc#118 | flow leaving the anode . The anode |
doc#118 | anode. The anode plug (Figure |
doc#118 | into a carbon anode holder. A |
doc#118 | measurement of the anode surface temperature and |
doc#118 | distribution along the anode holder. Three |
doc#118 | disk surrounding the anode holder to determine |