RECYCLING OF METALS AND MATERIALS:
A SELECTED BIBLIOGRAPHY
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000491
RECYCLING OF METALS MD MATERIALS:
A SELECTED BIBLIOGRAPHY
Ruth K. Seidman
U.S. Environmental Protection Agency
Region I
and
Lee Gastrow
Brunswick Corporation
Materials Research Laboratory
for
Metals/Hatesi'al's Division/
Special 'Libraries Association
63rd Annual Conference
Boston, Massachusetts
June 4-8, 1972
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CONTENTS
Introduction
Preface
Acknowledgments
Bibliography
1.0 What is Recycling?
2.0 Policy
3.0 Economics
4..0 Solid Waste
5.0 Metals — General
6.0 Metals — Ferrous
7.0 Metals — Non-ferrous
8.0 Glass
9.0 Paper and Wood
10.0 Plastics
11.0 Rubber
12.0 Other Materials
Additional Bibliographic Sources
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INTRODUCTION
Recycling is not a new concept, but the idea of recycling in business and
industry is being discovered and promoted with great vigor. Both money and
materials can be saved by recycling. It challenges one's imagination to find
ways of reusing instead of throwing away. In fact new and exciting products
have been developed by grinding, melting, shaping metals, minerals and other
materials which would have been discarded.
The theme for the Metals/Materials Division of Special Libraries Association
1972 Conference program is Recycling/Reclaiming Metals/faaterials. The idea
of a bibliography on the theme was suggested to Ruth Seidman and Lee Cast/row.
Research started on the project early in 1972. Members of the M/M Division have
also made worthwhile contributions.
This bibliography will initially be distributed to members of the Metals/
Materials Division of the Special Libraries Association at the 63rd Annual
Conference in Boston, Massachusetts.
Marian Veath
General Electric Company
Louisville, Kentucky
Chairman, Metals/materials Division
May 1972
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PREFACE
Recycling of metals and materials has as its purpose the easing of two major
environmental crises. Fist, we re-utilize scarce and non-renewable resources.
Second, solid waste disposal problems can be alleviated.
Industry has long been concerned with reclaiming its own waste products, and is
now beginning to respond to the need for dealing with municipal waste disposal
problems. Cities are faced with expensive disposal programs; dumps are ugly
and unsanitary; land for dumping is in short supply. Large-scale recycling of
industrial and municipal wastes is a hopeful 'approach both to the resource
and the solid waste disposal dilemma.
Since recycling is currently an important research and development area, a
bibliography on this subject should be useful to special librarians in the
metals and materials field. Included is a. selection of research reports,
articles, and books, as well as industry and government brochures on the topic.
ACKNOWLEDGMENTS
_j.-.._ __
UJL rioooijLJ.urg^ tinu iMti uerj.axs ocience,
Massachusetts Institute of Technology, has contributed generously to this
bibliography. Dr. Bever's cooperation and interest in behalf of this project
is appreciated and acknowledged.
Contributions have been received from Metals/materials Division members as
follows! W.R. Polifroni, St. Joe Minerals Corporation, Zinc Smelting Division,
Monaca, Pa,; Andrew A. Sherockman, National Steel Corporation, Research
Center, Weirton, W.Va.j Rosalie V. Solomon, Foote Mineral Company, Exton, Pa.;
Marie Tashima, Continental Can Company, Chicago, 111.; Neil van Allen, General
Motors Technical Center, Research Laboratories, Warren, Mich.: and Marian
Veath, General Electric Company, Louisville, Ky.
A computer search performed by the staff of the Solid Waste Information Retrieval
System, U.S. Environmental Protection Agency, has also provided material for
this bibliography.
We wish to thank all of those whose efforts contributed to this project.
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1.0 WHAT IS RECYCLING?
1.1 Aronson, Robert B., "Student designers look at recycling," MACHINE
DESIGN, February 10, 1972, pp. 20-22.
Seventh annual student design program.
1.2 Cole, LaMont C., "What to do with waste: use it over and over and
over again," NEW YORK TIMES MAGAZINE, April 2, 1972, pp. 30-31, 33-34.
Nature's way of dealing with waste is to recycle it.
1.3 DeBell, Garrett, "Recycling," in THE ENVIRONMENTAL HANDBOOK, PREPARED
FOR THE FIRST NATIONAL ENVIRONMENTAL TEACH-IN, Ballantine Books,
New York, 1970, pp. 214-218.
1.4 Hickman, H. Laniar, Jr., "Materials and solid waste management," in
OPPORTUNITIES IN MATERIALS, Proceedings of the Fourth Buhl Interna-
tional Conference on Materials, Pittsburgh, Pa., November 16-18,
1971. Edited by M.C. Shaw, Carnegie Press, Carnegie-Mellon Univ.,
Pittsburgh, 1971, pp. 336-404.
Discussion of relationship between materials utilization and
recycling.
1.5 Lipsett, Charles H., INDUSTRIAL WASTES AND SALVAGE—CONSERVATION
AND UTILIZATION, Atlas Publishing Co., New York, 2nd ed., 1963, 406 pp.
1.6 New York Board of Trade, National Business Council on Environment,
RECYCLING DAY IN NEW YORK. CONFERENCE. PROCEEDINGS. National Associ-
ation of Secondary Materials Industries, Inc., New York, 1971, 118 pp.
Covers the following aspects of recycling: economics, govern-
ment role, waste paper, nonferrous metals, iron and steel,
textiles. Full text of sessions and general addresses.
1.7 "One hundred national leaders focus on recycling," NEW YORK TIMES,
March 19, 1972.
Conference held in New York City, March 13-19, sponsored by
National Association of Secondary Materials Industries, Inc.
1.8 "Solid wastes—an ES&T special report," ENVIRONMENTAL SCIENCE &
TECHNOLOGY, v. 4:5, May 1970, pp. 384-391.
Includes "Utilization, the unrealized dream of resource reuse."
1.9 Tonge, Peter, "Series on Recycling," THE CHRISTIAN SCIENCE MONITOR,
May 15-20, 1972.
1. "How man can harvest world's wastes." 2. "The booming
business of scrap." 3. "Hay by the ton." Organic wastes.
4. "Coaxing valuable metals and oil from burned trash." 5.
"Compost." 6. "You, too, can help turn that garbage into
gold." Role of the individual citizen.
1.10 "Turning junk and trash into a resource," BUSINESS WEEK, October 10,
1970, pp. 66-75.
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1.11 Vaughan, R.D., "Recycling and reuse of waste materials," WASTE AGE,
September 1%9, pp. 6-7.
1.12 Wilson, David Gordon and Ora E. Smith,"How to reclaim goods from
wastes," TECHNOLOGY REVIEW, v. 74:6, Kay 1972, pp. 31-39.
2.0 POLICY
2.1 ENVIRONMENTAL QUALITY, The First Annual Report of the Council on
Environmental Quality, August, 1970. GPO, $1.75.
"Solid wastes, recycling and reuse," pp. 114-121.
2.2 Kolb, John, "How to organize a solid waste recycling conference in
your home town," RODALE'S ENVIRONMENT ACTION BULLETIN, January
22, 1972, pp. 2-5.
2.3 National Conference, Composting-Waste Recycling. First. Proceedings,
HOW TO PUT WASTE CYCLING INTO PRACTICE, Denver, Colorado, May
20-21, 1971. Sponsored by Keep Colorado Beautiful, Inc. and
Rodale Press. Reported in POLLUTION ABSTRACTS, v. 3:1, January 1972.
2.4 NATIONAL PRIORITIES FOR RECYCLING: PROPOSALS FOR A LEGISLATIVE
ACTION PROGRAM. National Association of Secondary Material
Industries, New York, 15 pp.
2.5 PROBLEMS AND ISSUES OF A NATIONAL MATERIALS POLICY. Papers delivered
at an Engineering .foundation Research Conference on National Materials
Policy, July 1970. Prepared for the Committee on Public Works, by
the Science Policy Research Division, Legislative Reference Service,
Library of Congress. 91st Congress, 2nd session, Committee Print.
GPO, 1970, 272 pp. $1.25.
2.6 RESOURCE RECOVERY. Part I. "Aims and objectives of the new Federal
program." Part II. "How the program works." APWA REPORTER, v. 38:
12, December 1971, pp. 10-15.
2.7 RESOURCE RECOVERY ACT OF 1970. U.S. 91st Congress, H.R. 11833,
October 26, 1970. Public Law 91-512, 9 pp.
2.8 U.S. Congress. Defense Production Joint Committee. Washington, D.C.,
20510. PROGRESS REPORT 50, ON POTENTIAL SHORTAGES OF ORES, METALS
AND MINERALS...RECYCLING OF METALS...AND RELATED MATTERS. August
2, 1971, 280 pp. Distribution made by issuing committee.
3.0 ECONOMICS
3.1 Clark, Thomas D., ECONOMIC REALITIES OF RECLAIMING NATURAL RESOURCES
IN SOLID WASTE. U.S. Environmental Protection Agency, Solid Waste
Management Series SW-93ts.j. 1971, 12 pp.
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3.2 Collins, C., "Regional systems approach, and market development seen
as key to waste recycling," WASTE AGE, April 1970, pp. 20-22.
3.3 Drobny, N.L., et al. , RECOVERY AND UTILIZATION OF MUNICIPAL SOLID
WASTE; A SUMMARY OF AVAILABLE COST AND PERFORMANCE CHARACTERISTICS
OF UNIT PROCESSES AND SYSTEMS. Public Health Service Publication
No. 1908. Washington, GPO, 1971. 118pp.
3.4 THE ECONOMICS OF RECYCLING WASTE MATERIALS, hearings before the
Subcommittee on Fiscal Policy of the Joint Economic Committee,
92nd Congress, 1st session, November 8 and 9, 1971. Washington,
GPO, 1972. 193 pp.,
3.5 Graham, Ellen, "More companies burn waste products, save on fuel,
garbage bills," THE WALL STREET JOURNAL, September 20, 1971.
3.6 INTERNATIONAL RECYCLING REPORT, published as a special section of
AMERICAN METAL MARKET, DAILY NEWSPAPER OF THE METAL INDUSTRIE'S,
276 Fifth Avenue, New York, New York, 10036. Monday, June 14-,
1971, 43 PP.
3.7 Meller, F.H., CONVERSION OF ORGANIC SOLID WASTES INTO YEASTS: AN
ECONOMIC EVALUATION. Public Health Service Publication No. 1909.
Washington, GPO, 173 pp.
3.8 Schilling, Spencer A., et aJL. , "Reclamation and recycling: an
economic overview," BATTELLE RESEARCH OUTLOOK, v. 3:3, 1971, pp. 21-24.
ENVIRONMENTAL SCIENCE & TECHNOLOGY, v. 4:12, December 1970,
pp. 1103-1114.
"Optimum recovery and reuse ratios in a free market do not
always maximize social benefits."
3.10 Sullivan, P.M. and M.H. Stanczyk, ECONOMICS OF RECYCLING METALS AND
MATERIALS FROM URBAN REFUSE. U.S. Bureau of Mines, Technical Prog-
ress Report-33, 1971.
3.11 Wright, Robert A., "Waste recycling effort found to lag," THE NEW
YORK TIMES, May 7, 1972, pp. 1,65.
Analysis of recent trends. Discussion of progress in finding
adequate markets for scrap. Results of several recent studies.
4.0 SOLID WASTE
4.1 American Society for Testing and Materials. CONFERENCE ON STANDARDI-
ZATION NEEDS FOR RECYCLING SOLID WASTES, August 26, 1971. Summary:
MATERIALS RESEARCH AND STANDARDS, v. 11:12, December 1971, pp. 40-41.
4.2 Boettcher, R.A., "Air classification. for reclamation of solid wastes,"
COMPOST SCIENCE, v. 11:6, November-December 1970, pp. 22-29.
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4.3 "Converting solid wastes to electricity," ENVIRONMENTAL SCIENCE &
TECHNOLOGY, v. 4:8, August 1970, pp. 631-633.
4.4 Herbert, W. and Flower, W.A., "Waste processing complex emphasizes
recycling," PUBLIC WORKS, v. 102: June 1971, pp. 78-81.
4.5 Institute for Solid Wastes of the American Public Works Association,
"Salvage and reclamation," in MUNICIPAL REFUSE DISPOSAL, Public
Administration Service, Chicago, 1970. 3rd ed., pp. 331-345.
4.6 Kenahan, Charles B., BUREAU OF MINES RESEARCH PROGRAMS ON RECYCLING
AND DISPOSAL OF MINERAL-, METAL-, AND ENERGY-BASED SOLID WASTES.
U.S. Bureau of Mines, Information Circular 8529, 53 pp.
4.7 Kenahan, Charles B., "Solid waste: resources out of place,"
ENVIRONMENTAL SCIENCE & TECHNOLOGY, v. 5:7, July 1971, pp. 594-600.
Bureau of Mines research programs are described.
4.8 Lefke, Louis W., RESOURCE RECOVERY IN SOLID WASTE MANAGEMENT. U.S.
Environmental Protection Agency, Report SW-67r, 1971, 14 pp.
4.9 Litsky, Warren; Haim B. Gunner; and Ruth Kreplick, PROCEEDINGS:
INSTITUTE ON NEW DIRECTIONS IN SOLID WASTES PROCESSING 1970,
Framingham, Massachusetts, May 12-13, 1970. University of
Massachusetts, Technical Guidance Center for Industrial Environ-
mental Control, Amherst, Mass., 197 pp.
Includes: the utilization of waste paper and recovery of
metals from industrial wastes.
4.10 McGauhey, P.H., "Processing, converting and utilizing solid wastes,"
COMPOST SCIENCE, v. 5:2, Summer 1%4, pp. 8-U.
4.11 Neal, A.W., INDUSTRIAL WASTE: ITS HANDLING, DISPOSAL, AND RE-USE.
Chaners Books, Boston, 1972.
4.12 PROCEEDINGS OF THE SECOND MINERAL WASTE UTILIZATION SYMPOSIUM, Chica-
go, Illinois, March 18-19, 1970. Sponsored by IIT Research Insti-
tute and U.S. Bureau of Mines. Available from IITRI, P.O. Box
4963, Chicago, 111., 60680.
Four sessions: utilization of: 1. industrial wastes,
2. ferrous and non-ferrous scrap metals, 3. mining and
milling wastes, 4. municipal refuse.
4.13 REUSE AND RECYCLE OF WASTES. Proceedings of the Third Annual
Northeastern Regional Antipollution Conference, College of Engineer-
ing, University of Rhode Island, July 21-23, 1970. January, 1971,
243 pp. Available from: Technomic Publishing Co., Stamford,
Connecticut, 06901.
4.14 Sanner, W.S., et al., CONVERSION OF MUNICIPAL AND INDUSTRIAL REFUSE
INTO USEFUL MATERIALS BY PYROLYSIS. U.S. Bureau of Mines, Report
of Investigations 7428, 1970, 14 pp.
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4. 15 Schroering, John B., "A method of reclamation and processing of solid
wastes," in OPPORTUNITIES IN MATERIALS, 1971 (see entry 1.4),
pp. 419-443.
Description of an experimental industrial waste processing and
recycling plant now in operation.
4.16 Sherborn Conservation Commission, REPORT OF COMMITTEE TO STUDY POSSIBLE
METHODS OF RECYCLING. October 30, 1971. John D. Stewart, Chairman,
Board of Health, Sherborn, Massachusetts.
Recycling program funded and established for 1972.
4.17 "A solid waste recovery system for all municipalities," ENVIRONMENTAL
SCIENCE & TECHNOLOGY, v.5:2, February 1971, pp. 109-111.
Demonstration plant to be built to test a wide variety of
refuse recycling equipment.
4.18 Testin, R.F. and N.L. Drobny, "Processing and recovery of municipal
solid waste," PROCEEDINGS OF THE AMERICAN SOCIETY OF CIVIL ENGINEERS,
v.96:SA3, no. 7345, June 1970, pp. 699-714.
5.0 METALS-GENERAL
5.1 American Society for Metals. POLLUTION CONTROL IN METALS INDUSTRIES.
1971.
Computer-generated bibliography covering January 1967-May
1971; includes reclamation practices.
5.2 Boston Environment, Inc. FACTS ON METAL RECYCLING. 1 p., mimeo,
14 Beacon Street, Boston, Massachusetts, 02108.
5.3 Dean, K.C. et al., PRELIMINARY SEPARATION OF METALS AND NONMETALS FROM
URBAN REFUSE. U.S. Bureau of Mines, Technical Progress Report-34,
June 1971. 10 pp.
5.4 EFFECTIVE TECHNOLOGY FOR RECYCLING METAL. National Association of
Secondary Materials Industries, Inc., New York, 1971.
5.5 Engdahl, Richard B., SOLID WASTE PROCESSING A STATE-OF-THE-ART
REPORT ON UNIT OPERATIONS AND PROCESSES. U.S. Bureau of Solid
Waste Management, Public Health Service Publication No. 1856.
Washington, 1%9.
"Recovery and utilization: the scrap metals industry,"
pp. 24-27.
5.6 Ostrowski, E.J., "Recycling of tin free steel cans, tin cans and
scrap from municipal incinerator residue," prepared for presen-
tation at 79th General Meeting, American Iron and Steel Institute,
New York, May 26, 1971. 33 pp.
Available from the author at National Steel Corporation,
Research "Center, Weirton, West Virginia, 26062.
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5.7 "What's up the road for the junker?", CALIFORNIA HIGHWAY PATROLMAN,
v.33:12i, February 1970, pp. 16-17, 58, 60-61.
Discusses new methods of scrap handling and recycling
scrap metal.
6.0 METALS-FERROUS
6.1 American Public Works Association, RESOURCE RECOVERY FROM INCINERATOR
RESIDUE. ANALYSIS OF FACTORS THAT AFFECT ECONOMIC RECYCLING OF
FERROUS METALS AND OTHER INORGANIC MATERIAL CONTAINED IN MUNICIPAL
INCINERATOR RESIDUE. AWWA Special Report No. 33, January 1970.
6.2 AUTOMOBILE SCRAPPING PROCESSES AND NEEDS FOR MARYLAND. U.S. Bureau
of Solid Waste Management, Final Report. Public Health Service
Publication No. 2027, 1970, 64 pp.
Systems analysis approach. Discusses basic components of
the disposal reclaiming cycle.
6.3 Bernard, P.G., et al., RECYCLING'OF STEELMAKING DUSTS. U.S. Bureau
of Mines, Technical Progress Report-52. February 1972, 10 pp.
6.4. Bennett, H.J., IRON AND STEEL SCRAP IN THE INTERMOUNTAIN AND
NORTHWESTERN PLAINS STATES, U.S. Bureau of Mines, Information
Circular 8344. Washington, 1%7, 71 pp.
6.5 Cannon, Howard S., "Can we recycle cans?," TECHNOLOGY REVIEW,
tr "7/ »A Motr 1 CT7O rv^ /n_//
. . , -, . ~, —v . , , ~, rr* «*" »*•*•
6.6 "Concrete reinforced with scrap car steel," WASTE TRADE WORLD (London),
v.110:23, June 10, 1%7, p. 13.
6.7 "GM process uses machining chips to produce powder for auto parts,"
METALWORKING NEWS, February 23, 1972, p. 19.
6.8 Gravenor, C.P., erfc al.., "A hydrometallurgical process to produce iron
powder from scrap iron," CANADIAN MINING AND METALLURGICAL BULLETIN,
v.63:693, January 1970, pp. 59-64.
6.9 Minnick, L. John, "Use of steel "mill slag and pulverized coal ash in
road base construction," in OPPORTUNITIES IN MATERIALS, 1971 (see
entry 1.4), pp. 477-479.
7.0 METALS—NON-FERROUS
7.1 ALUMINUM CAN RECYCLING CENTERS. The Aluminum Association, 750 Third
Avenue, New York, New York, 10017. Fourth ed., October 1, 1971.
Listed by states.
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7.2 "Aluminum foil scrap recovered with induction melting system,"
INDUSTRIAL HEATING, v.33:4, April 1%6, p. 636.
7.3 ALUMINUM STATISTICAL REVIEW, 1970. 63 pp. Available from: The
Aluminum Association (see entry 7.1 for address).
Includes statistics on recovery of aluminum from scrap.
7.4 Abubacker, K., et al., "Recovery of pure germanium dioxide from
germanium waste," RESEARCH AND INDUSTRY (New Dehli), v.9:6, June
1964, pp. 166-163.
7.5 Bergman, Arthur, "How Meggen purifies mine water and recovers
marketable Zn precipitate," WORLD MINING, V.7:10, September
1971, pp. 48-51.
7.6 Brooks, P.T., et al., CHEMICAL RECLAIMING OF SUPERALLOY SCRAP.
U.S. Bureau of Mines, Report of Investigations 7316, November*
1969, 23 pp.
Describes process for recovering nickel, cobalt, molybdenum,
and chromium contained in complex waste superalloy grindings.
7.7 Caldwell, H.S., Jr., et al., REMOVING VOLATILE METALS FROM LEAD
AND TIN BY VACUUM DISTILLATION. U.S. Bureau of Mines'Report of
Investigations 5703, 1%1, 12 pp.
7.8 Church, Fred L., "Mission impossible? Can recycling debate heats
up." MODERN METALS, April 1972, pp. 29-39.
Tin vs. aluminum.
7.9 Green, Thomas E., DETERMINATION OF METALLIC ALUMINUM IN RECYCLED
GLASS. U.S. Bureau of Mines, Report of Investigations 7592.
Washington, 1971, 7 pp.
7.10 "Kaiser's CAN-DO recycling program," SECONDARY RAW MATERIALS, v.8:
6, June 1970, pp. 130,132.
All-aluminum can recycling program, San Francisco Bay area.
7.11 "Lead recovery from accumulator scrap and other residues has growing
possiblities," METALLURGIA, v.81:485, March 1970, pp. 100-101.
7.12 Lund, R.E., et al., "St. Joe reclaims zinc with HeavyVMedia
Separation," MINING ENGINEERING, v.20:12, December1%8, pp. 81-84.
7.13 McGarr, H.J., "Liquid ion-exchange recovers copper from wastes and
low-grade ores," ENGINEERING AND MINING JOURNAL, v.171: October
1970, pp. 79-81.
7.H Parthasarathi, M.N., "Sources of secondary zinc and their utilization,"
RESEARCH AND INDUSTRY (New Dehli), v. 10:11, November 1%5, pp. 329-
331.
7.15 Rasher, Howard William and Michael Suisman, NONFERROUS SCRAP METAL
GUIDEBOOK. National Association of Secondary Materials Ind., N.Y.
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7.16 "Recycled tungsten carbide produces comparable quality cutting tool
inserts," INDUSTRIAL HEATING, October 1971, p. 1%4.
7.17 Siebert, Donald L., IMPACT OF TECHNOLOGY ON THE COMMERCIAL SECONDARY
ALUMINUM INDUSTRY. U.S. Bureau of Mines, Information Circular 3445,
1970, 76 pp. GPO,
7.18 Singleton, Eben L* et al. , RECOVERY OF ALUMINUM FROM ALUMINUM-
SILICON ALLOYS. U.S. Bureau of Mines, Report of Investigations
7603. Washington, 1972, 12 pp.
7.19 Spendlove, M.J., METHODS FOR PRODUCING SECONDARY COPPER. U.S. Bureau
of Mines, Information Circular 3002. Washington, 1961. 4.1 pp.
7.20 STUDY OF THE SECONDARY LEAD MARKET IN THE UNITED STATES. Prepared by
NASMI in conjunction with The Lead Industries Association, June 1969.
Available from: National Association of Secondary Materials
Industries, 330 Madison Avenue, New York, New York, 10017.
7.21 Sullivan, P.M., ELECTRLYTIC RECOVERY OF ZINC FROM GALVANIZERS' SAL
SKIMMINGS. U.S. Bureau of Mines, Report of Investigations 5205,
1956, 21 pp.
7.22 Sullivan, T.A., et al. , RECOVERY OF ALUMINUM, BASE AND PRECIOUS METALS
FROM ELECTRONIC SCRAP. U.S. Bureau of Mines, Report of Investigations
7617, 1972.
7.23 Sullivan, _P.M._and D.H. Chambers^ RECOVERY OF ZINC FROM DROSS AND TIN
FROM HARDHEAD BY AMALGAM ELECTROLYSIS. U.S. Bureau of Mines,
Report of Investigations 5827, 1%1, 18 pp.
7.24. Willard, F.W. , "Nonferrous secondary metals — an outline of thier
metallurgy," METALS AND ALLOYS, v. 17:1943, pp. 752-759.
8.0 GLASS
8.1 Boston Environment, Inc. FACTS ON GLASS RECYCLING. 2 pp., mimeo,
Available from Boston Environment, 14 Beacon Street, Boston,
Massachusetts, 02108. /
8.2 Malisch, Ward R., et al., "Utilization of waste glass in asphaltic
pavements," in OPPORTUNITIES IN MATERIALS, 1971(see entry 1.4),
pp. 444-453.
8.3 Palumbo, F.J., et al., ELECTRONIC COLOR SORTING OF GLASS FROM URBAN
WASTE. U. S. Bureau of Mines, Technical Progress Report-45,
October 1971.
8.4 "Recycling waste," THE GLASS INDUSTRY, December 1971, pp. 436-439.
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8.5 Svec, J.J., "Industry involvement speeds glass recycling," CERAMIC
INDUSTRY, v.96:February 1971, pp. 22-24.
8.6 Tyrrell, Miles E., s£ si., FABRICATION AND COST EVALUATION OF
EXPERIMENTAL BUILDING BRICK FROM WASTE GLASS. U.S. Bureau of
Mines, Report of Investigations 7605. Washington, 1972, 33 pp.
9.0 PAPER AND WOOD
9.1 Bank of America, PAPER RECYCLING, A REPORT ON ITS ECONOMIC AND
ECOLOGICAL IMPLICATIONS, 1971, 35 pp.
9.2 Bellamy, W.D., CELLULOSE AS A SOURCE OF SINGLE-CELL PROTEINS—
A PRELIMINARY EVALUATION. General Electric Research and Development
Center, Technical Information Series, Report No. 69-335.
Schenectady, New York, September 1969, 5 pp.
9.3 Boston Environment, Inc., GUIDE TO PAPER RECYCLING, April 1971,
4 pp., mimeo. 10 £. 14 Beacon Street, Boston, Massachusetts, 02103.
9.4V. BACKGROUND INFORMATION ON RECYCLING WASTE PAPER. April'14, 1971,
10 pp. Available from: American Paper Institute, 260 Madison
Avenue, New York, New York, 10016.
9.5 Crysler, F., "The demand for recycled fibers,"TAPPI, v.54:6,
June 1971, p. 904+.
9.6 "De-inked newspapers could de-work solid waste routines," APWA
REPORTER, v.37:6, June 1970, p. 8.
9.7 Flintoff, Frank, "Wastepaper salvage: work study and management,"
PUBLIC CLEANSING, v.60:6, June 1970, pp. 303-307.
9.8 Josephson, H., "Recycling of waste paper in relation to forest
products," TAPPI, v.54:6, June 1971, p. 896.
Supply and demand considerations.
9.9 Locke, Edwin A., "Recycling of secondary fibers," SECONDARY RAW
MATERIALS, v,3:3, March 1970, fcp. 80-84.
Paper and paperboard. \
9.10 Morris, Charles V., "Recycled papers: what a national question means
to your business," INLAND PRINTER/AMERICAN LITHOGRAPHER, v.163:
6, March 1972, pp. 43-48.
9.11 "Newspaper recycling does work," RODALE'S ENVIRONMENT ACTION BULLETIN,
October 9, 1971, pp. 2-7.
Describes municipally-sponsored programs in Hempstead, New
York and Irvington, New Jersey.
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9.12 Pearl, Irwin A., "Waste product use helps paper industry control
pollution," ENVIRONMENTAL SCIENCE & TECHNOLOGY, v.2:9,
September 1%3, pp. 677-681.
9.13 Porteous, Dr. A., "The recovery of industrial ethanol from paper in
waste," CHEMISTRY AND INDUSTRY, December 6, 1969, pp. 1763-1770.
9.14 Strenge, R.A., "Recycling may mean trash for sale,'! PUBLIC WORKS,
v.101:11, November 1970, pp. 81-32.
Studies at Forest Products Laboratory, Madison, Wisconsin, on
paper, lumber, and other wood-fiber materials.
9.15 Vokes, R.F., "Recovery and reuse of fiber from solid waste," in
OPPORTUNITIES IN MATERIALS, 1971 (see entry 1.4), pp. 405-413.
Description of solid waste processing and recycling plant
in Franklin, Ohio.
10.0 PLASTICS
10.1 Banks, M. E., et al., NEW CHEMICAL CONCEPTS FOR UTILIZATION OF
WASTE PLASTICS. U.S. Environmental Protection Agency, Solid Waste
Management Series, SW-16c, 1971, 129pp. GPO, $1.25.
Contains 4-page bibliography.
10.2 Holman, J.L., et al., PROCESSING THE PLASTICS FROM URBAN REFUSE.
U.S. Bureau of Mines, Technical Progress Report-50. February
1972, 20 pp.
"Experimental work on plastic waste from a community collection
has produced some guidelines for systematic methods of
processing, including air classification, cleaning, separation,
and use or disposal."
10.3 PLASTICS WORLD. "Plastics and ecology: special-report," v.29:
6, June 1971.
Feature articles on recycling. Life cycle of plastics.
10.4 "Reground materials are great, but...", PLASTICS WORLD, April
1972, pp, 46-47.
Guidelines for use of scrap and reground plastics; areas
to avoid.
10.5 Smith, Gene,"Power from waste disposal; plant will utilize rubbish
for energy," THE NEW YORK TIMES, Sunday, March 5, 1972, Section
3, P. 2.
Disposal and recycling system developed for a plastics plant.
10.6 Warner, Arthur J., et al., SOLID WASTE MANAGEMENT OF PLASTICS, DeBell
& Richardson, Inc., December 1970. Available from: Manufacturing
Chemists Association, 1825 Connecticut Avenue NW, Washington,DC, 20009.
Section on salvage and reclamation. Separate summary is available,
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11.0 RUBBER
11.1 Flanagan, William, "Tires could be recycled if process proves
economical," AUTOMOTIVE ENGINEERING, v.73:S, August 1970, pp. 35-38.
Describes pilot plant.
11.2 "More mileage from old tires?", CHEMICAL ENGINEERING, v.76:23,
October 20, 1969, pp. 58, 60.
11.3 Pettigrew, Robert J., and Frank H. Roninger, RUBBER REUSE AND
SOLID WASTE MANAGEMENT. Part I: SOLID WASTE MANAGEMENT IN THE
FABRICATED RUBBER PRODUCTS INDUSTRY, 1%3. U.S. Environmental
Protection Agency, SW-22c, 120pp., 1971. GPO, $1.25.
Contains 34-page bibliography.
11.4 "Textiles from used tires," WASTE TRADE WORLD (London), v.11:
23, December 2, 1967, pp. 3-4-.
Describes Hungarian Palma technique: used tires are broken
down and sorted into rubber granulate and usable textile
material.
11.5 "Used tires reused," SCIENCE NEWS, v. 94:14, December 1963, p. 593.
11.6 Wolfson, D.E., et al., DESTRUCTIVE DISTILLATION OF SCRAP TIRES.
U.S. Bureau of Mines, Report of Investigations 7302, September
1969, 19 pp.
12.0 OTHER MATERIALS
12.1 "Air pollution control may become profitable," I0rfA STATE ENGINEERING
RESEARCH, v.3:1, Winter 1%9, pp. 7-3.
Recovery of fly-ash from power generating plants. Study being
conducted to determine uses of fly ash as an engineering cement.
12.2 Appell, Herbert R., et al., CONVERSION OF URBAN REFUSE TO OIL. U.S.
Bureau of Mines, Technical Progress Report-25, May 1970, 5 pp.
12.3 Bynum, Douglas, Jr., "Wasted solids (solid wastes) and pavement
design," PUBLIC WORKS, v. 102:11, pp. 56-60.
A report on experiments conducted at Texas A&M on the
utilization of various solid wastes as components of paving
mixtures.
12.4 "Carbide and cobalt reclaimed cheaply and efficiently," MATERIALS
RECLAMATION WEEKLY, v.116:1, January 3, 1970, pp. 23-24.
Method developed by Bureau of Mines.
12.5 "Fly ash collection provides raw material for ersatz cement,"
WATER AND POLLUTION CONTROL, v.110:5, May 1972, pp. 57-53.
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12.6 Kenahan, Charles B., et ai., COMPOSITION AND CHARACTERISTICS OF
MUNICIPAL INCINERATOR RESIDUES. U.S. Bureau of Mines, Report
of Investigations 7204, 1968, 20 pp.
12.7 Krokosky, Edward M., "Waste in concrete," in OPPORTUNITIES IN
MATERIALS, 1971 (see entry 1.4), pp. 454-465.
12.8 U.S. Environmental Protection Agency. Water Pollution Control
Research Series 14050EPU08/71, UTILIZATION OF PHOSPHATE SLIMES.
August, 1971. 123pp. GPO, $1.25.
ADDITIONAL BIBLIOGRAPHIC SOURCES
ACCESSION BULLETIN, SOLID WASTE INFORMATION RETRIEVAL SYSTEM. Monthly.
U.S. Environmental Protection Agency
SOLID WASTE MANAGEMENT: A LIST OF AVAILABLE LITERATURE. U.S. Environmental
Protection Agency, Report SW-53.14. April 1972.
These two items are available from:
U.S. Environmental Protection Agency
Solid Waste Management Publications Distribution Unit
Cincinnati, Ohio 45268
Boston Environment, Inc., GENERAL SOLID WASTE BIBLIOGRAPHY, Compiled by
James Hudson, October 1970. 2 pp., mimeo.
Boston,Environment, Inc., SOLID WASTE TECHNICAL LITERATURE BIBLIOGRAPHY,
October 1970. 3 pp., mimeo.
These two items are available from:
(10£ each)
Boston Environment, Inc.
14 Beacon Street
Boston, Massachusetts 02108
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