WHOLE VOL. 



BIBLIOGRAPHY OF TERMITES: SUBJECTS — SNYDER 



129 



1946c, pp. 46-47. (New Zealand, oil solu- 

 ble preservatives brushed at rate i coat 

 for every 54 in. thickness timber pre- 

 vented attack by Calotermes brottni.) 



I946d, pp. 1-5. (U.S., salts sap stream 

 treatment, green poles and posts; penta- 

 chlorophenol in oil for dipping seasoned 

 poles, posts.) 



I947g, pp. 1-2. (India, DDT as anti-ter- 

 mite treatment for timber, fabric, and 

 cordage.) 



1948, pp. 1-20. (U.S., treated wood in 

 buildings to prevent decay and termite 

 attack, U.S. Dept. Agriculture recom- 

 mendations.) 



1949I, p. 73. (Australia, phenol-formalde- 

 hyde resins more effective than urea- 

 formaldehyde in bonding.) 



I949n, pp. i-ii. (Kanpur, India, jute sack- 

 ing treated with DDT and benzene 

 hexachloride.) 



1950, pp. 1-4. (Australia, superficial coat- 

 ings with creosote or other preservatives, 

 construction timbers.) 



1950a, pp. 170-209. (South Africa, protec- 

 tion building timbers, general account 

 preservatives and methods.) 



i95od, p. 62. (Australia, impregnation 

 with 0.06% Tanalitli (based on oven- 

 dry weight timber) gave almost com- 

 plete protection (laboratory tests) ; addi- 

 tion 4% pentachlorophenol and 0.13% 

 gamma isomer benzene hexachloride to 

 the glue line of plywood not effective; 

 cellulose acetate butyrate plastic suscepti- 

 ble to termites, polyvinyl chloride and 

 polythene not attacked in tests.) 



19506, pp. 1-5. (U.S., factors influencing 

 decay, durability.) 



I950g, pp. 1-23. (U.S., methods applying 

 wood preservatives.) 



i95oh, pp. 1-5. (U.S., Federal specifications 

 wood preservatives and recommended 

 treating practice, TT-W-571C; revision 

 of TT-W-57ib, 1941; pp. 1-7.) 



1951, pp. 1-26, revision of 1948. 



1951C, pp. 64-65. (Australia, telephone 

 cables covered with polyvinyl chloride 

 badly damaged, while polythene cover- 

 ings only surface injured.) 



I95id, pp. 1-28. (France, treatment wood, 

 cryptogilsxylophenes.) 



I952d, p. 67. (Australia, addition 4.8% 

 crude or 2.0% gamma benzene hexa- 

 chloride to the glue line of plywoods 

 did not give adequate protection against 

 termites; addition 2% pentachlorophenol 

 or sodium pentachlorophenate to rubber 



cable sheathing renders it highly resist- 

 ant; plastic cable sheathings of the poly- 

 diene or polyvinyl chloride type give 

 inadequate protection. Tests with Copto- 

 termes acinacijormis showed it to be 

 twice as voracious as C. lacieus.) 



i953i, pp. 17-19. (U.S., 1952 amount chem- 

 ically treated miscellaneous lumber and 

 timber showed a 9% increase over 1951; 

 creosote or creosote mixtures were used 

 for 92.5% of all timber treated, gallons 

 used were 3.5% more than in 1951.) 



i953n, p. 13. (Buena Vista, Va., pressure- 

 treated floor joists, sills, subflooring resi- 

 dence, southern yellow pine 0.75 lb. dry 

 salt — copperized chromated zinc chloride 

 per cu. ft., lumber air dried after treat- 

 ment. 5,000 bd. ft. lumber in house; 

 pressure treatment susceptible members 

 adds 2% to total construction cost.) 



1954, pp. 1-5. (U.S., Federal specifications 

 wood preservatives and recommended 

 treating practice, TT-W-57rd; revision 

 of i95oh, pp. 1-5; included are Boliden 

 salts and copperized chromated zinc 

 chloride, deleted are zinc chloride and 

 ZMA.) 

 Baechler, R. H., 1934, p. 1336. (Corrosion 

 of metal fastenings in zinc chloride 

 treated wood.) 



1939) PP- 56-63. (Corrosion of metal fasten- 

 ings in zinc chloride treated wood, after 

 10 years.) 



1949, pp. 390-397. (Corrosion of metal 

 fastenings in zinc chloride treated wood, 

 after 20 years.) 

 (Banks, N., and) Snyder, T. E., 1920*, p. 98. 



(U.S., treated timber for buildings.) 

 Barker, S. G., 1938, pp. 1227-1229. (India, 

 "cuprinol" protected jute for 8/2 months; 

 cellulose acetate treated fabric, Ceylon; 

 hessian treated with Bakelite varnish.) 

 Bateman, E., 1920, pp. 251-255. (Theory on 

 mechanism of the protection of wood 

 by preservatives.) 



1920a, pp. 57-59- (Inaccuracy of treating 

 records due to moisture in wood.) 



1920b, pp. 359-360. (Relation between vis- 

 cosity and penetration of creosote into 

 wood.) 



1921, pp. 506-514. (Mechanism of the pre- 

 servative treatment of wood.) 



1922, pp. 70-80. (Toxicity and solubility 

 partition of a number of tar acids proof 

 of the mechanism of protection of wood 

 by preservatives.) 



1924. (Solutions of zinc chloride and pe- 

 troleum oils, pp. 114-117; toxicity of mix- 



