Correspondence - "Silver Plating of Optical Glassware" - Industrial

Ind. Eng. Chem. , 1942, 34 (9), pp 1132–1132. DOI: 10.1021/ie50393a600. Publication Date: September 1942. ACS Legacy Archive. Cite this:Ind. Eng. Ch...
0 downloads 0 Views 95KB Size
1132

INDUSTRIAL AND ENGINEERING CHEMISTRY

Vol. 34, No. 9

TABLE I. VARIATION OF A AND B WITH CORCENTRATION OF SODIUM HYDROXIDE Molality

’1

Temperature t, De9 c.

t

60

my ,

/

‘j;

/

/’

of NaOH

A

0.1 0.2 0.4 0.6 0.8 1.0 1.5 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

7.98632 7.98547 7.98202 7.97927 7.97711 7.97355 7.96619 7.95769 7.94304 7.93081 7.92252 7.91801 7.92019 7,92909 7.94692 7.97600 8.01875 8.07724 8.10618 8.14039 8.18029 8.22770 8.28290

B

1685.97 1685.97 -1686.10 -1686.01 - 1686.23 -1686.10 1686.31 -- 1686.36 - 1687.70 1690.65 -1695.73 - 1703.07 - 1713.40 - 1726.77 - 1743.56 - 1764.22 - 1789.01 -1818.00 -1839.19 - 1862.58

- 1888.23 -1916.75 -1948.13

+

shown that plots of log p against l / ( t 230) result in straight convergent lines, within the family, for metal, benzene, alcohol, organic acid, and silicon hydride series. 230) Plots of log ( p - 6) against l / ( t for various concentrations of sodium hydroxide exhibit a rough convergence in the neighborhood of 610” C. and 1200 atmospheres, although this point is not definite enough to be used in a system of correlation. I n Figure 1, which covers the range of 1 to 17 molal, the index line shows that the vapor pressure of a 10-molal solution of sodium hydroxide is 6.1 mm. of mercury a t 15’ C. Figure 2, confined t o concentrations of 0.1 t o 7 molal, can be read a little closer than can Figure 1. The index line shows that the vapor pressure of a 3.6molal solution of sodium hydroxide is 48 mm. of mercury a t 40” C. The average deviation of pressures read from the chart from the original data is about 0.5 per cent.

+

5

L

-i E-

L FIGURE 2

Literature Cited (1) Akerlof, G., and Kegeles, G., J . Am. Chem. SOC., 62, 620 (1940).

(2) Calingaert, G., and Davis, D. S., IND. ENG. CHEM.,17, 1287 (1925). (3) Cox, E. R., Ibid., 15, 592 (1923). (4) Davis, D. S., Ibid., 17, 735 (1925).

Silver Plating of Optical Glassware-Correspondence SIR: I n connection with this article by Robert D. Barnard [IND.ENQ.CHEM.,34 637 (1942)], I wish to call attention to the fact that reduction of inorganic and organic compounds by ethanolamines was reported in my article entitled “Reduction of Organic Compounds with Ethanolamines” [J.Am. Chem. Soc., 57, 2554 (1935)]. Further, the use of ethanolamines-. g., triethanolamine-for the production of silver reflecting surfaces is the subject of U. S. Patent 1,989,764, granted me in February, 1935. M. MEV~SNER College of the City of New York New York, N. Y.

SIR: I have gone into the literature carefully and admit the justification of Meltsner’s claim to originality in devising the method. I think he is entitled to priority rights and have so notified those who have corresponded with me about the method. However, the use of the amino alcohols was not original with either of us in this connection, since this method was in use in 1933. I believe the modifications which I introduced for the specific purpose of applying the method to optical glassware justified my report, but it was an unfortunate oversight that I did not give proper credit to Meltsner for his contributions. ROBERT D. BARNARD

4404 Drexel Boulevard

Chicago, Ill.