Veröffentlichungen Bücher und Beiträge in Sammelwerken
—— Wood Chemistry. 1952. New York: Reinhold Publishing Company, Wise and E.C. Jahn (Ed.); Volume I, Chapter 8, Cellulose Solvents and Properties of Cellulose in Solution, pp. 228–277. Volume II, Part 4, Surface Properties of Cellulose Materials, pp. 691–814.
—— mit Harris, E. E. 1953. Chemical Processing of Wood. New York: Chemical Publishing Company. 595 p.
— Wood and Cellulose Science. 1964. New York: Ronald Press Company. 547 p.
Alfred J. Stamm. Principles of Wood Science and Technology. Vol. II. Berlin-Heidelberg-New York: J. Springer Verlag. F. F. P. Kollmann (Ed.). Chapter 2: Solid Modified Wood.
Beiträge in Periodika
—— mit Mathews, J. H. 1924. Adsorption and surface tension of the liquid-liquid interface. J. Am. Chem. Soc.46: 1071–1079.
—— mit Kraemer, E. O. 1924. A new method for the determination of the distribution of sizes of particles in emulsions. J. Am. Chem. Soc.45: 2709–2718.
—— mit Svedberg, Th. 1925. The use of scattered light in the determination of the distribution of size of particles in emulsions. J. Am. Chem. Soc.47: 1582–1597.
—— 1925. An experimental study of emulsification on the basis of the distribution of size particles. Colloid Symposium Monograph3: 251–267.
—— mit Kraemer, E. O. 1926. A note on the mechanism of emulsification. J. Phys. Chem.30: 992–1000.
—— 1926. Electroendosmose through wood membranes. Colloid Symposium Monograph4: 246–258.
—— 1927. The electrical resistance of wood as a measure of its moisture content. Ind. Eng. Chem.19: 1021–1032.
—— 1927. Effect of electrolytes on electroendosmose through wood membranes. Colloid Symposium Monograph5: 361–368.
—— 1928. Importance of physical investigations in the study of the constitution of wood. J. Chem. Education.5: 129–141.
—— 1928. Structure of softwoods as revealed by dynamic physical methods. Colloid Symposium Monograph6: 82–108.
—— 1929. Capillary structure of softwoods. J. Agr. Research,38: 26–67.
—— 1929. Density of wood substance, adsorption by wood, and permeability of wood. J. Phys. Chem.33: 398–413.
—— 1929. The fiber-saturation point of wood as obtained from electrical conductivity measurements. Ind. Eng. Chem. (Anal. Ed.)1: 94–98.
—— mit Svedberg, Th. 1929. The molecular weight of edestin. J. Am. Chem. Soc.51: 2170–2185.
—— 1930. The state of dispersion of cellulose in cuprammonium solvent as determined by ultracentrifuge methods. J. Am. Chem. Soc.52: 3048–3063.
—— 1930. Difference between the state of dispersion of isolated wood cellulose and cotton cellulose in cuprammonium. J. Am. Chem. Soc.52: 3062–3067.
—— 1930. An electrical conductivity method for determining the moisture content of wood. Ind. Eng. Chem. (Anal. Ed.)2: 240–244.
—— 1931. Note regarding the colloidal nature of cuprammonium solution. J. Phys. Chem.35: 659–660.
—— 1931. Three methods of studying capillary structure as applied to wood. Physics1: 116–128.
—— 1931. A new method for determining the proportion of the length of a tracheid that is in contact with rays. Botanical Gazette92: 101–108.
—— mit Seborg, C. O. 1931. Sorption of water vapor by papermaking materials; 1—Effect of beating. Ind. Eng. Chem.23: 1271–1275.
—— 1932. An electrical conductivity method for determining the effective capillary dimensions of wood. J. Phys. Chem.36: 312–325.
—— 1932. Effect of chemical treatment upon the permeability of wood. Ind. Eng. Chem.24: 51–52.
—— mit Semb, J., Harris, E. E. 1932. Absorption spectra of lignin. J. Phys. Chem.36: 1574–1585.
—— 1934. Effect of inorganic salts upon the swelling and the shrinking of wood. J. Am. Chem. Soc.56: 1195–1204.
—— mit Seborg, R. M. 1935. Adsorption compression on cellulose and wood. 1—From density measurements in benzene. J. Phys. Chem.39: 133–142.
—— mit Loughborough, W. K. 1935. Thermodynamics of the swelling of wood. J. Phys. Chem.39: 121–132.
—— 1935. Shrinking and swelling of wood. Ind. Eng. Chem.27: 401–406.
—— 1935. The effect of changes of equilibrium relative vapor pressure upon the capillary structure of wood. Physics6: 334–342.
—— mit Hansen, L. A. 1935. Minimizing wood shrinkage and swelling: Replacing water in wood with nonvolatile materials. Ind. Eng. Chem.27: 148–152.
—— mit Seborg, R. M. 1936. Minimizing wood shrinkage and swelling: Treating with synthetic resin-forming materials. Ind. Eng. Chem.28: 1164–1170.
Alfred J. Stamm 1986. Colloid chemistry of cellulosic materials. U.S. Department of Agriculture Miscellaneous Publication 240, 90 p.
—— mit Loughborough, D. L. 1936. Molecular properties of lignin solutions. J. Phys. Chem.40: 1113–1132.
—— mit Hansen, L. A. 1937. Minimizing wood shrinkage and swelling: Effect of heating in various gases. Ind. Eng. Chem.29: 831–833.
—— 1937. Mimmizing wood shrinkage and swelling: Treatment with sucrose and invert sugar. Ind. Eng. Chem.29: 833–836.
—— mit Hansen, L. A. 1937. The bonding force of cellulosic materials for water from specific volume and thermal data. J. Phys. Chem.41: 1007–1016.
—— mit Hansen, L. A. 1938. Surface-bound versus capillary-condensed water in wood. J. Phys. Chem.42: 209–214.
—— mit Cohen, W. E. 1938. The viscosity of cellulose in phosphoric acid solutions. J. Phys. Chem.42: 921–934.
—— 1938. Calculations of the void volume of wood. Ind. Eng. Chem.30: 1280–1281.
—— mit Seborg, R. M. 1939. Resin-treated plywood. Ind. Eng. Chem.31: 897–902.
—— mit Bateman, E., Hohf, J. P. 1939. Unidirectional drying of wood. Ind. Eng. Chem.31: 1150–1154.
—— mit Petering, W. H. 1940. Treatment of wood with aqueous solutions: Effect of wetting agents. Ind. Eng. Chem.32: 809.
—— mit Millett, M. A. 1940. The internal surface of cellulosic materials. J. Phys. Chem.45: 44–54.
—— mit Seborg, R. M. 1941. The compression of wood. Mech. Eng.63: 211–213.
—— mit Seborg, R. M. 1941. Resin-treated, laminated, compressed wood. Trans. Am. Inst. Chem. Eng.37: 385–397.
—— mit Woodruff, S. A., Burr, H. K. 1941. Internal stirring of liquids. (1) In an evacuated sorption apparatus. (2) In the cup-type of moisture transfusion apparatus. Ind. Eng. Chem. (Anal. Ed.)13: 565, 655.
—— mit Woodruff, S. A. 1941. Convenient six-tube vapor sorption apparatus. Ind. Eng. Chem. (Anal. Ed.)13: 836–838.
Alfred J. Stamm mit Seborg, R. M. 1941. Forest products laboratory resin-treated wood (Impreg). Forest Products Lab. Mimeo. 1380, 9 p.
Alfred J. Stamm mit Seborg, R. M. 1942. Forest products laboratory resin-treated, laminated, compressed wood (Compreg). Forest Products Lab. Mimeo. 1381, 13 p.
—— mit Longhborough, W. K. 1942. Variation in the shrinking and swelling of wood. Am. Soc. Mech. Eng. Trans.63: 379–387.
Alfred J. Stamm mit Seborg, R. M. 1942. Effect of resin treatment and compression upon the properties of wood. Forest Products Lab. Mimeo. 1383, 15 p.
Alfred J. Stamm mit Burr, H. K. 1943. Comparison of commercial water-soluble phenol-formaldehyde resinoids for wood impregnation. Forest Products Lab. Mimeo. 1384, 20 p.
Alfred J. Stamm mit Weatherwax, R. C. 1943. The electrical resistivity of resintreated wood (Impreg and Compreg), hydrolyzed-wood sheet (hydroxylin), and laminated resin-treated paper (Papreg). Forest Products Lab. Mimeo. 1385, 18 p.
Alfred J. Stamm mit Millett, M. A., Seborg, R. M. 1943. Influence of manufacturing variables on the impact resistance of resin-treated wood. Forest Products Lab. Mimeo. 1386, 18 p.
Alfred J. Stamm mit Seborg, R. M., Millett, M. A. 1944. Heat-stabilized compressed wood (Staypak). Forest Products Lab. Mimeo, 1580, 19 p.
Alfred J. Stamm 1944. Wood and paper-base plastics. Forest Products Lab. Mimeo. 1438, 14 p.
—— 1944. Potentialities of paper-base laminates as compared with other laminates. Paper Trade J.118(2): 183–185.
Alfred J. Stamm 1944. Cellulose solvents and properties of cellulose in solution. Wood Chemistry, Reinhold Publishing Corporation, 153–188.
Alfred J. Stamm 1944. Surface properties of cellulosic materials. Wood Chemistry, Reinhold Publishing Corporation, 449–550.
—— mit Weatherwax, R. C. 1945. The electrical resistivity of resintreated wood and laminated hydrolyzed-wood and paper-base plastics. Elec. Eng. Trans.64: 833–839.
—— 1945. Possible uses of improved wood and wood-base plastics in the furniture industry. Wood Products50 (1): 21–25.
Alfred J. Stamm 1945. Wood and paper-base plastics. The New Plastics. 197–227.
Alfred J. Stamm 1946. Wood-base plastics. Handbook of Plastics. Simmonds and Ellis.
—— mit Burr, H. K., Kline, A. A. 1946. Staybwood: Heat stabilized wood. Ind. Eng. Chem.38: 630–637.
—— 1946. Chemical utilization of wood: Its opportunities and obstacles. J. Forestry44: 258–265.
—— 1946. Modified woods. Am. Wood Preservers' Association Proc.,42: 150–168.
—— mit Millett, M. A. 1946. Treatment of wood with urea resinforming systems: Dimensional stability. Modern Plastics24: 150–153.
Alfred J. Stamm 1946. Passage of liquids, vapors and dissolved materials through softwoods. U. S. D. A. Tech. Bulletin 929, 80 p.
—— mit Burr, H. K. 1947. Diffusion in wood. J. Phys. Colloid Chem.51: 240–261.
—— mit Millett, M. A. 1947. Molecular properties of hemicellulose fractions. J. Phys. Colloid Chem.51: 134–148.
—— mit Tarkow, H. 1947. Dimensional stabilization of wood. J. Phys. Colloid Chem.31: 493–505.
—— mit Weatherwax, R. C. 1947. Coefficients of thermal expansion of wood and wood products. Am. Soc. Mech. Eng. Trans.69: 421–433.
—— mit Millett, M. A. 1947. Treatment of wood with urea resinforming systems: Comparison with phenolic resins for making Compreg. Modern Plastics24: 159–164.
—— 1947. Chemical utilization of wood viewed with sober optimism. Timberman174 (2185): 38–40.
Alfred J. Stamm. This article also appeared in the following publications (1947): Mississippi Valley Lumberman 78 (16) 6: 3 p.
Alfred J. Stamm. Cosgrove's Magazine19 (3) 36: 2 p.
Alfred J. Stamm. Lake States Timber Digest1 (17) 3: 3 p.
Alfred J. Stamm. Wood2 (5) 11: 3 p.
Alfred J. Stamm National Farm Chemurg. Council. (Columbus, Ohio) Paper No. 506. 5 p.
—— mit Millett, A. M. 1947. Wood treatment with urea resin-forming systems: A study of size and species limitations. Modern Plastics25 (1): 125–128. Forest Products Lab. Report R-1703, 7 p.
Alfred J. Stamm 1947. Compreg. Modern Plastics Ency.,705–708.
—— mit Chidester, G. H. 1947. New goods from wood. U.S.D.A. Yearbook'43-'47: 725–734.
—— 1947. Wood (properties of interest to a chemical engineer). I. Ind. Eng. Chem.39: 1256–1261.
—— 1948. Wood (properties of interest to a chemical engineer). II. Ind. Eng. Chem.40: 1923–1932, 1936.
—— 1949. Wood (properties of interest to a chemical engineer). III. Ind. Eng. Chem.41: 2149–2152.
—— 1948. Passage of water through the capillary structure of wood. J. Faraday Soc.3: 264–273.
Alfred J. Stamm 1948. Modified woods. Modern Plastics Ency.,725–734.
—— mit Weatherwax, R. C., Erickson, E. C. O. 1948. A means of determing the hardness of wood and modified woods over a broad specific gravity range. A. S. T. M. Bulletin No.,153: 84–89.
—— mit Tarkow, H. 1949. Wood a limited-swelling gel. J. Phys. Colloid Chem.53: 251–261.
—— 1949. Passage of materials through wood, paper, cellulosic membranes and fabrics. Tappi,32 (193): 193–203.
Alfred J. Stamm 1949. Importance of conversion products of wood. Paper presented before National Military Estab. Symposium on wood, sponsored by the National Research Council and Office of Naval Research, June 16–17, 1949, in Washington, D.C.
Alfred J. Stamm 1949. Chemicals from wood. U. S. D. A. Yearbook of Agriculture, 639–644.
—— 1950. Bound water and hydration. Tappi33 (9): 435–439. Pulp Paper Mag. Canada51: 90–93.
—— 1950. Specific volume of native cellulose. Text. Research J.20 (9): 631–636.
—— mit Tarkow, H. 1950. Penetration of cellulose fibers. J. Phys. Colloid Chem.54 (6): 745–753.
—— 1951. Production of nutritive substances from inedible carbohydrates. Porc. Am. Philosph. Soc.95 (1): 68–76.
—— 1951. Wood (materials of construction review). Ind. Eng. Chem.43 (10): 2276–2279.
—— mit Tarkow, H. 1952. The reaction of formic acid with carbohydrates: I. The reaction of formic acid with sugars; II. Polysacharides: a new method for determining accessibility. J. Phys. Chem.56 (2): 262–271.
—— mit Seborg, R. M., Tarkow, H. 1953. Effect of heat upon the dimensional stabilization of wood. J. For. Prod. Res. Soc.3 (3): 59–67.
—— mit Tarkow, H. 1953. Effect of formaldehyde treatments upon the dimensional stabilization of wood. J. For. Prod. Res. Soc.3 (3): 33–37.
—— 1953. Diffusion and penetration mechanism of liquids into wood. Pulp Paper Magazine Canada54 (2): 54–64.
—— mit Baechler, R. H. 1954. Wood (materials of construction review). Ind. Eng. Chem.46 (10): 2127–2129.
—— 1955. Swelling of wood and fiberboards in liquid ammonia. Forest Products J.5 (6): 413–416.
—— 1956 Dimensional stabilization of wood with carbowaxes. Forest Products J.6 (5): 201–204.
—— 1956. Diffusion of water into uncoated cellophane. I. From rates of water vapor adsorption, and liquid water absorption. II. From steady-state diffusion measurements. J. Phys. Chem.60 (1): 76–86.
—— 1956. Thermal degradation of wood and cellulose. Ind. Eng. Chem.48 (3): 413–417.
—— 1956. Diffusion in cellulose materials. Australian Pulp and Paper Industry Tech. Assoc. Proceedings10: 244–271.
—— mit Cohen, W. E.: 1956. Swelling and dimensional control of paper. I. Effect of wet-strengthening resins and carbowax. Australian Pulp and Paper Industry Tech. Assoc. Proceedings10: 346–365.
—— mit Cohen, W. E.: 1956. Swelling and dimensional control of paper. II. Effect of cyanocthylation, acetylation and cross-linking with formaldehyde. Australian Pulp and Paper Industry Tech. Assoc. Proceedings10: 366–393.
—— 1957 Adsorption in swelling versus nonswelling systems. I. Contact area. Tappi40 (9): 761–765
—— 1957 Adsorption in swelling versus nonswelling systems. II. Free energy change per unit area of molecular contact. Tappi40 (9): 765–770.
—— mit Lloyd, R. A.: 1958. Effect of resin treatment and compression upon the weathering properties of veneer laminates. Forest Products J.8: 230–235.
Alfred J. Stamm mit Baechler, R. H.: 1958. Wood (materials of construction review). Ind. Eng. Chem. 50 (10).
—— 1959. Method for estimating vapor sorption at fiber saturation point of wood and paper. Holz als Roh- und Werkstoff17 (5): 203.
—— 1959. Dimensional stabilization of paper by catalyzed heat treatment and cross-linking with formaldehyde. Tappi42: 44–50.
—— 1959. Dimensional stabilization of wood by thermal reactions and formaldehyde cross-linking. Tappi42: 39–44.
—— 1959. Bound water diffusion into wood in the fiber direction. Forest Products J.9: 27–31.
—— 1959. Effect of polyethylene glycol treatment upon the dimensional stabilization and other properties of wood. Forest Products J.9: 375–381.
—— mit Cohen, W. E., Fahey, D. J.: 1959. Dimensional stabilization of paper by catalyzed heat treatments. Tappi42: 904–908.
—— mit Cohen, W. E., Fahey, D. J.: 1959. Dimensional stabilization of paper by cross-linking with formaldehyde. Tappi42: 934–940.
—— mit Baechler, R. H.: 1960. Decay resistance and dimensional stability of five modified woods. Forest Products J.10: 22–26.
—— mit Tarkow, H.: 1960. Diffusion through air-filled capillaries of softwoods. Part I. Carbon dioxide. Forest Products J.10: 247–250
—— mit Tarkow, H.. 1960. Diffusion through air-filled capillaries of softwoods. Part II. Water vapor. Forest Products J.10: 323–325.
—— 1960. Bound-water diffusion into wood in across-the-fiber directions. Forest Products J.10: 524–527.
—— 1960. Combined bound-water and water-vapor diffusion into Sitka spruce. Forest Products J.10: 644–647.
—— mit Wagner, E. 1961. Determining the distribution of interstructural openings in wood. Forest Products J.11: (3) 141.
—— 1961. Comparison of three methods for determining the pH of wood and paper. Forest Products J.11 (7): 310.
—— mit Nelson, R. M. Jr. 1961. Comparison between measured and theoretical drying diffusion coefficients for southern pine. Forest Products J.11 (7): 310.
—— mit Beasley, J. N. 1961. Dimensional stabilization of paper by acetylation. Tappi44 (4): 271.
—— 1962. Wood and cellulose-liquid relationships. Technical Bulletin No. 150, North Carolina State Agricultural Experiment Station, Raleigh, North Carolina.
—— 1963. Permeability of woods to fluids. Forest Products J.13 (11): 503.
—— 1963. Effect of dimensional stabilization on the weathering properties of wood. Amer. Paint. J.48 (25): 72, Dec. 16.
Alfred J. Stamm mit Cowling, E. B. 1963. An approach to the measurement of solid-solution structures in wood and other cellulosic materials. J. Polymer Sci. Part C (2): 243.
—— 1964. Fundamental physical approach to wood and cellulose science. J. Chem. Education41 (4) 198.
—— 1964. Factors affecting the bulking and dimensional stabilization of wood with polyethylene glycol. Forest Products J.14 (9): 403.
—— 1965. Wood and cellulose-water relationships and their effect upon finishes. Official Digest. J. Paint Tech. and Eng.37 (485): 654, June.
—— 1965. Modification of wood for improved finishing. Official Digest, J. Paint Tech. and Eng.37 (485): 707, June.
—— mit Wilkinson, M. 1965. Effect of structure upon the drying of insulating board. Tappi48 (10): 578.
—— 1965. Diffusion paths through paper determined by electrical conductivity. Tappi48 (10): 598.
—— mit Sanders, H. T. 1966. Specific gravity of the wood substance of Loblolly pine as affected by chemical composition. Tappi49 (9): 397.
—— 1966. Maximum pore diameters of film materials. Forest Products J.16 (12): 59.
—— mit Yao, J. 1967. Validity of determining pit pore sizes in softwoods by surface tension resistance and rate of flow. Forest Products J.17 (2): 33.
—— 1967. Surface characteristics of wood and cellulose. Surfaces and coatings related to paper and wood. Syracuse Univ. Press, Syracuse, N. Y. p. 388.
—— 1967. Movement of fluids in wood: Part I. Flow of fluids. Wood Sci. and Technol.1 (12): 122–141.
—— 1967. Movement of fluids in wood: Part II. Diffusion. Wood Sci. and Technol.1 (3): 205–230.
—— 1967. History of two phases of wood physics. Wood Sci. and Technol.1 (3): 186–190.
—— 1967. Heating dry wood and drying green wood in molten polyethylene glycol. Forest Prod. J.17 (9): 91–96.
—— 1968. Penetration of the cell walls of water-saturated wood and cellophane by polyethylene glycols. Tappi51 (1): 62.
—— mit Clary, S. W., Elliott, W. J. 1968. Effective radii of lumen and pit pores in softwoods. Wood Sci.1 (2): 93–101.
—— 1969. Correlation of structural variations of lignin with specific gravities. Tappi52 (8): 1498–1502.
—— mit Smith, W. E. 1969. Laminar sorption and swelling theory for wood and cellulose. Wood Sci. and Technol.3: 301–323.
—— 1970. Maximum effective pit pore radii of the heartwood and sapwood ofsix softwoods. As affected by drying and resoaking. Wood and Fiber1 (4): 263–269.
—— mit Arganbrigth, D. G. 1970. Surface tension of the sap of several species of wood. Wood and Fiber2 (1): 65–66.
—— 1970 Variations of maximum tracheid and pit pore dimensions from pith to bark for ponderosa pine and redwood before and after drying determined by liquid displacement. Wood Sci. and Technol.4: 81–96.
Alfred J. Stamm 1970. wood deterioration and its prevention. International Institute for Conservation of Historic and Artistic Works. New York Conference, June (1970), 11 p.
—— 1971. Review of nine methods for determining the fiber saturation points of wood and wood products. Wood Science4 (2): 114.
—— 1971. Maximum effective pore sizes of nuclepore membrane filters. Tappi54 (11): 1909.
—— mit Ellwood, E. L., Gilmore, R. C. 1972. Dimensional stabilization of wood with vinyl monomers. Wood Science4 (3): 137.
Alfred J. Stamm 1972. Maximum effective vessel diameters of hardwood. Wood Sci. Technol. bd6 (4): in press.
Veröffentlichungen
Fred E. Dickinson How dry is dry? Just what is seasoned lumber? South. Lumb. J. March 1949: 30 u. 34.
Fred E. Dickinson Drying defects and their effect on lumber quality. South. Lumb. J. April 1949: 38, 40 u. 92.
Fred E. Dickinson The dry kiln, what it is now and how it operates. South. Lumb. J. May 1949: 28 u. 30.
—— Tropical woods, properties and uses of tropical woods I.; mit R. W. Hess u. F. F. Wangaard. Yale Univ. Sch. of For.95: 145, 1949.
—— The calibration of two types of moisture meters for several tropical woods I.; mit W. W. Rice. Yale Univ. Sch. of For.2: 8, 1949.
Fred E. Dickinson Air seasoning. Some practices and problems. South. Lumb. J. Dec. 1949: 19 u. 20.
Fred E. Dickinson Drying costs, air seasoning versus kiln drying. South. Lumb. J. Jan. 1950: 28 u. 30.
Fred E. Dickinson Problem woods. Why they are difficult to season. South. Lumb. J. Feb. 1950: 26, 84 u. 85.
Fred E. Dickinson Comparative strength of panels made of green and dry lumber. Lumberland, April 1959: 34–35.
—— The calibration of two types of moisture meters for several tropical woods II.; mit E. M. Smith. Yale Univ. Sch. of For.3: 7, 1950.
Fred E. Dickinson Lumber sizes. Lumberland, 1950: 22–23.
—— The seasoning properties of determa (Ocotea rubra mez). Yale Univ. Sch. of For.5: 132, 1950.
—— Tropical woods, properties and uses of tropical woods II.; mit R. W. Hess u. F. F. Wangaard. Yale Univ. Sch. of For.94: 132, 1950.
Fred E. Dickinson Setting up quality control standards for moisture in lumber. Proc. NE Section FPRS, 3, 1950.
Fred E. Dickinson Decay of wood in housing. Lumberland Nov. 1950: 22–23, Lumberland Dec. 1950: 18.
Fred E. Dickinson Commercial forest resources of the United States. Lumberland Jan. 1951: 22–23, Feb. 1951: 18–19, March 1951: 22–23.
Fred E. Dickinson Time required to air dry and kiln dry lumber. Lumberland April 1951: 24–25.
Fred E. Dickinson Manufacture of lumber in southern Arkansas. Lumberland; June 1951: 24–45.
Fred E. Dickinson Manufacture of hardwood flooring in Denmark. Lumberland 1951: 25–26.
Fred E. Dickinson Waste wood utilization. Lumberland, September 1951: 30–32.
Fred E. Dickinson Development of southern and western freight rates on lumber. South. Lumb. J. Dec. 1952: 229–245.
Fred E. Dickinson The utilization of hardwoods in the Lake States. J. of For., July 1953: 500–503.
—— The effect of time, temperature and relative humidity on the relief of case hardening stresses; mit J. W. Churchill. Univ. of Mich. wood Tech.2: 2, 1954.
—— Wood technology education and research at the University of Michigan. Forest Prod. J.5 (2): 46–60, 1955.
—— A small controlled temperature humidity cabinet; mit G. P. Bruneau. Univ. of Mich. Wood Tech.6: 4, 1955.
—— Deterioration of materials, causes and preventive techniques [summary]. Science12 (3160): 162, July, 1955.
—— The University of California Forest Products Laboratory and the furniture industry. West. Uphols. Furn. & Bedding10 (11): 6–7, 14, 1955.
Fred E. Dickinson Research in pressed boards. Lumberman, Yearbook Issue, p. 178, March 1956.
Fred E. Dickinson Lumber drying research at the University of California Forest Products Laboratory. Western Dry Kiln Clubs. Proc., 8th Ann. Meet., Berkeley, Calif. 3 p. May 1956.
Fred E. Dickinson Research program of the University of California Forest Laboratory. Ukiah News, p. 8, May 1956.
—— What about your saw kerf. Timberman57 (9): 53, July 1956.
Fred E. Dickinson Research: The tree... through the mill... to the customer... even to the waste. Woodwork Inst. of Calif. Proc. Ann. Meet., Jan. 1957: 23–29.
Fred E. Dickinson Architectural wood work in your future: Materials availability and utilization. Woodwork Inst. of Calif. Proc. Ann. Meet1957: 6–7.
—— The Forest Products Laboratory University of California. Calif. Forester17 (1): 16–21, Aug., 1957.
Fred E. Dickinson The Forest Products Laboratory. Calif. For. & For. Prod. (2): 1–4, Nov. 1957, Rev. Dec. 1964 u. Nov. 1967.
—— Factors contributing to the increased use of west coast hardwoods. Soc. Amer. Foresters Prod. Syracuse, N. Y. 1957; 122–124.
—— Survey of veneer and plywood research facilities in the United States; mit W. T. Near. For. Prod. Jour.8 (2): 51–55, Feb. 1958.
—— Forest Products Laboratory. Calif. Forester17 (2): 8, Sept. 1958.
—— Forest products research at the University of California. Timber5 (3): 11–12, June 1959.
—— The Forest Products Laboratory. Calif. Forester17 (3): 7–8, Sept. 1959.
Fred E. Dickinson Wood at its apogee? Soc. Amer. Foresters, Proc. San Francisco 1959: 41–44.
Fred E. Dickinson Timber and wood products. Calif. Univ. Wildland Res. Center. Proc. 1959, Wildland... Conf., “65 Million Acres of Wildland in Calif. Future”, Berkeley, 1960: 32–38.
Fred E. Dickinson Degrade due to borers. Western For. Insect Work Conf. 12 Proc. Berkeley, Calif. 1961.
—— Dimensional changes in wood, plywood, reconstituted wood, and metals with changing temperature and moisture contents. Pres. at symposium on the weatherability of wood, 7 p. March–April, 1963. The Print J.48 (1964) 54–62.
Fred E. Dickinson Money in the bank. Pres. at NW 18th Annual Wood Products Clinic, 99–102, April 16–17, 1963.
—— Tanoak log grades and lumber yield; mit R. Prestemon. Calif. For. & For. Prod. (41): 1–4 February 1965 (Forest Products Industries).
—— Chinkapin log grades and lumber yield; mit R. Prestemon u. W. A. Dost. Calif. For. & For. Prod. (42): 1–5 July 1965. (Forest Products Industries).
—— Pacific madrone log grades and lumber yield; mit R. Prestemon u. William A. Dost. Calif. For. & For. Prod. (43): 1–5 July 1965.
Fred E. Dickinson Research opportunities in western schools. Symp. on density... A key to wood quality. May 4–6, 1965. Madison, Wisc. iss. by For. Prod. Lab. For. Serv., USDA.
—— California white oak log grades and lumber yield; mit A. Dost u. R. Prestemon. Calif. For. & For. Prod. (45): 1–6, December 1966.
—— The Forest Products Laboratory of the University of California. Wood Sci. Technol.1: 71–80 1967.
—— Neuere Entwicklungen bei der Erzeugung von Schnittholz und Furnieren in den USA (Recent developments in the United States in the manufacturing processes for lumber and veneer). Holz Roh-Werkstoff25(2): 68–75, 1967.
Fred E. Dickinson Discussion group summary on product analysis and marketing; mit Harold F. Bowman, Kimberly-Clark. Proc. Conf. on Young-Growth Forest Management in California, March 1967.
Fred E. Dickinson The broad scene for coming small log utilization in California. FPRS Proc. 24–25 March 1966, 6 pp.
Fred E. Dickinson Products and opportunities for living through new products. Proc. of 59th Western Forestry Conference, Dec, 4–6, 1968 San Francisco pp. 28–31.
—— Rotary veneer cutting characteristics of young-growth redwood; mit J. D. Cumming, u. C. Fischer. Forest Prod. J.19 (11): 26–30, 1969.
Fred E. Dickinson Curriculum problems in wood science and forest products—university level. World Consultation on Forestry Education and Training. Stockholm, Sweden, 28.9–7.10. 1971. FAO: WCFET/71/17 March 1971.
Fred E. Dickinson Research and technological developments in woodworking in North America. Proceedings of Technology of Forestry Today and Tomorrow Congress, June 8–10, 1970, Munich, Germany, in conjunction with the International Exposition of Technology of Forestry and Forest Industries.
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Kollmann, F., Liese, W. Persönliches. Holz als Roh-und Werkstoff 30, 489–493 (1972). https://doi.org/10.1007/BF02621492
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DOI: https://doi.org/10.1007/BF02621492