The effects of certain process variables on the grain size, grain type, and microhardness of vapor-deposited tungsten were established, and the near-optimum parameters and the efficacy for the vapor deposition process were determined. No significant change in the grain size or microstructure resulted from ultrasonic vibration of the substrate during deposition, from variations in the hydrogen (H2) to tungsten hexafluoride (WF6) ratio, or from small increases in reaction-chamber pressure. Near-optimum conditions were continuous deposition at atmospheric pressure, a deposition rate of 2-mils thickness/square inch of substrate area/hour, a temperature of 5500 C, and a hydrogen to WF6 ratio of 4:1. The addition, individually, of about 2 volume-percent of butane, 24 volume-percent of carbon dioxide, or 4 volume-percent of propane to the hydrogen and WF6 mixture produced deposits with the finest grain size for each gas. A corresponding increase in microhardness accompanied the decrease in grain size. The addition of gases did not alter the columnar microstructure found in vapor-deposited tungsten.
The various applications of beryllium and its compounds in atomic - energy
technology and a growing recognition of possible increased utilization of the
metal in the aircraft and space - missile fields have resulted in increased
interest in domestic and world reserves of beryllium .
Unfortunately, little dependable data on beryllium resources and reserves
are available , as past consumption of the element has been small and only
limited prospecting and exploration work has been done . The scarcity of resource
information is attributed partly to the difficulty of recognizing beryllium
minerals in the field . These minerals frequently do not have distinctive
characteristics of specific gravity, color , or other physical properties , that
enable ready identification by the average prospector . This is particularly
true of fine - grained minerals .
As a result , a simple field test for identifying beryllium- bearing rock
is needed . Recognizing this , technologists of the Federal Bureau of Mines
investigated several of the proposed qualitative chemical tests for beryllium .
This report describes various modifications of one of these methods to make it
more suitable for use in the field .
In the modified method , duplicate samples are fluxed -- one with potassium
bifluoride and one with potassium bisulfate -- followed by dissolution of salts
in water , conversion of the solution to an alkaline condition, addition of
morin , and examination of the solution for fluorescence under short -wave
ultraviolet light . This method provides a fast , dependable field test for
beryllium minerals containing as little as 0.2 percent beryl or its equivalent .
The test involves no radiation hazards , and it can be performed by persons
having no technical training ; therefore , it should be useful to prospectors in
discovering beryllium mineralization .
RI 6731 Effect Of Certain Process Variables On Vapor Deposited Tungsten