WorldCat Identities

Forest Products Laboratory (U.S.)

Overview
Works: 12,739 works in 18,387 publications in 2 languages and 255,647 library holdings
Genres: Periodicals  Handbooks and manuals  Bibliographies  Field guides  Observations  Instructional and educational works  Technical reports 
Roles: Other, isb, Editor, Organizer of meeting, Publisher
Classifications: TA419, 620.12
Publication Timeline
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Most widely held works about Forest Products Laboratory (U.S.)
 
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Most widely held works by Forest Products Laboratory (U.S.)
Wood handbook : basic information on wood as a material of construction with data for its use in design and specification( Book )

2 editions published in 1955 in English and held by 709 WorldCat member libraries worldwide

Dividends from wood research( )

in English and held by 601 WorldCat member libraries worldwide

Wood handbook : wood as an engineering material by Forest Products Laboratory (U.S.)( Book )

5 editions published in 1974 in English and held by 582 WorldCat member libraries worldwide

"Summarizes information on wood as an engineering material. Properties of wood and wood-base products of particular concern to the architect and engineer are presented, along with discussions of designing with wood and some pertinent uses of wood."--Page ii
Wood handbook : wood as an engineering material by Forest Products Laboratory (U.S.)( )

46 editions published between 1974 and 2011 in English and Undetermined and held by 533 WorldCat member libraries worldwide

"Summarizes information on wood as an engineering material. Presents properties of wood and wood-based products of particular concern to the architect and engineer. Includes discussion of designing with wood and wood-based products along with some pertinent uses."
Wood : colors and kinds by Forest Products Laboratory (U.S.)( Book )

6 editions published between 1955 and 1981 in English and Undetermined and held by 523 WorldCat member libraries worldwide

Wood-frame house construction by L. O Anderson( )

2 editions published in 1955 in English and held by 523 WorldCat member libraries worldwide

Dry kiln : operator's manual by Edmund Frederick Rasmussen( )

2 editions published in 1961 in English and held by 499 WorldCat member libraries worldwide

Wood engineering handbook by Forest Products Laboratory (U.S.)( Book )

12 editions published between 1974 and 2000 in English and held by 479 WorldCat member libraries worldwide

This handbook provides engineers, architects, and others with a source of information on the physical and mechanical properties of wood and how these properties are affected by variations in the wood itself. Practical knowledge, continuing research, and evaluation techniques promise wider and more efficient utilization of wood as an industrial, structural, and decorative material. This handbook was prepared by the Forest Products Laboratory, a unit of the research organization of the Forest Service, U.S. Department of Agriculture. The Laboratory was the first institution to conduct research on wood and its utilization, and has accumulated a vast amount of information on wood, wood products and the preservation of same, along with engineering, construction practices and problems. This revision reflects the substantial research accomplishments and technological changes that have occurred since 1974
Wood floors for dwellings( )

3 editions published in 1961 in English and held by 467 WorldCat member libraries worldwide

Wood handbook : wood as an engineering material( Book )

6 editions published in 1987 in English and held by 445 WorldCat member libraries worldwide

Air drying of lumber( )

4 editions published in 1999 in English and held by 393 WorldCat member libraries worldwide

This report describes how lumber can be air-dried most effectively under outdoor conditions and illustrates the principles and procedures of air-drying lumber that were developed through field investigations and observations of industrial practices. Particular emphasis is placed on the yarding of lumber in unit packages. Included are topics such as why lumber is dried, advantages and limitations of the drying process, properties of wood in relation to drying, layout of the drying yard, piling methods, causes and remedies of air-drying defects, and protection of air-dried lumber
Comparison of wood preservatives in stake tests( )

in English and held by 391 WorldCat member libraries worldwide

U.S. forest products annual market review and prospects( )

in English and held by 387 WorldCat member libraries worldwide

Timber rivets in structural composite lumber by Ronald W Wolfe( )

4 editions published in 2004 in English and held by 384 WorldCat member libraries worldwide

Timber bridge economics( )

4 editions published in 2001 in English and held by 375 WorldCat member libraries worldwide

Interest in timber bridges has grown rapidly in recent years as a result of new technologies in design and construction as well as advances in material manufacturing and preservative treatments. Despite these advances, little is known about the initial and life-cycle costs of timber bridges relative to those of other construction materials. The objectives of this study were to evaluate the cost characteristics of timber bridges and to compare the initial cost of timber bridge superstructures with that of bridges constructed of steel, concrete, and prestressed concrete. For timber bridges, results show a relationship between cost per square foot and bridge length, load rating, and geographic location. In general, timber bridge superstructures tended to compete with steel and concrete bridge superstructures on an initial cost basis. However, the range in cost per square foot values for all bridges varied widely. This outcome was probably due to both the high variability in these data and the relatively small sample size of the data sets for steel and concrete
Fire performance of wood treated with combined fire-retardant and preservative systems by Mitchell S Sweet( )

5 editions published in 1996 in English and held by 365 WorldCat member libraries worldwide

The availability of western redcedar has decreased in recent years, and other species of wood are being considered as substitute materials for wood shakes and shingles. However, the wood of these alternative species is more susceptible to decay than is western redcedar. The objective of this study was to evaluate the fire performance of combined fire retardant and preservative treatments using different fire test methods. Several amino resin fire retardants were used in combination with several wood preservative compounds that imparted both fire retardancy and decay resistance to wood. Treated specimens underwent fire tube tests and based on the results of these tests, two fire retardants and two quaternary ammonium preservatives were selected for additional fire testing. These treated materials were subjected to a modified Schlyter test and a burning brand test. The heat release rate was also measured. Both weathered and unweathered specimens were evaluated. The unweathered and weathered treated material exhibited good fire performance
Roof temperature histories in matched attics in Mississippi and Wisconsin by Jerrold E Winandy( )

3 editions published in 2000 in English and held by 362 WorldCat member libraries worldwide

To address the problem of defining actual field temperatures of various wood components in wood-framed roof systems, roof temperatures were monitored in test structures situated in the northern and southern United States (Madison, Wisconsin, and Starkville, Mississippi, respectively). The field exposure structures were intended to simulate the attics of multifamily wood-framed structures for which Model Building Codes sometimes allow the use of fire-retardant-treated roof sheathing. The structures were instrumented to monitor interior attic air, exterior air, inner and outer plywood roof sheathing, and internal rafter temperatures in dry whiteshingled structures and both dry and heavily humidified black-shingled structures. Temperatures were recorded from January 1992 through December 1999 in Wisconsin and from January 1996 through December 1999 in Mississippi. The Mississippi exposure generally induced 5ÃC to 10ÃC higher temperatures than did the Madison exposure, though the difference in annual maximum gbs1-h averagegcs temperature of both exposures was usually no more than 3ÃC to 4ÃC. Overall, black-shingled roof systems tended to be 5ÃC to 10ÃC warmer during the midafternoon of a sunny day than were comparable white-shingled roof systems. Few differences in plywood roof sheathing temperatures were noted between dry and heavily humidified structures. Attic airspace and rafter temperatures were generally 5ÃC to 10ÃC cooler in humidified attics than in dry attics. The major difference in the temperature of wood components in the Wisconsin and Mississippi structures occurred during the winter, when temperatures were as much as 20ÃC lower in Wisconsin
Effect of drying temperature on warp and downgrade of 2 by 4's from small-diameter ponderosa pine by William Turner Simpson( )

3 editions published in 2004 in English and held by 360 WorldCat member libraries worldwide

Assessment of the environmental effects associated with wooden bridges preserved with creosote, pentachlorophenol, or chromated copper arsenate by Kenneth M Brooks( )

3 editions published in 2000 in English and held by 360 WorldCat member libraries worldwide

Timber bridges provide an economical alternative to concrete and steel structures, particularly in rural areas with light to moderate vehicle traffic. Wooden components of these bridges are treated with chromated copper arsenate type C (CCA), pentachlorophenol, or creosote to prolong the life of the structure from a few years to many decades. This results in reduced transportation infrastructure costs and increased public safety. However, the preservative used to treat the wooden components in timber bridges is lost to the environment in small amounts over time. This report describes the concentration of wood preservatives lost to adjacent environments and the biological response to these preservatives as environmental contaminants. Six bridges from various states were examined for risk assessment: two creosote treated bridges, two pentachlorophenol-treated bridges, and two CCA-treated bridges. In all cases, the largest bridges located in biologically active environments associated with slow-flowing water were selected to represent worst-case analyses. Sediment and water column concentrations of preservative were analyzed upstream from, under, and downstream from each bridge. The observed levels of contaminant were compared with available regulatory standards or benchmarks and with the quantitative description of the aquatic invertebrate community sampled from vegetation and sediments. Pentachlorophenol- and creosote-derived polycyclic aromatic hydrocarbons (PAHs) were not observed in the water near any of the selected bridges. However, low levels of PAHs were observed in the sediments under and immediately downstream from these bridges. Pentachlorophenol concentrations did not approach toxicological benchmarks. Sediment concentrations of naphthalene, acenaphthylene, and phenanthrene exceeded the probable effect level. Metal levels at the bridges treated with CCA were less than predicted effect levels, in spite of questionable construction practices. Adverse biological effects were not observed in the aquatic invertebrate community or laboratory bioassays conducted on water and sediments sampled at each of the bridges. Results of this study reveal the need to follow the construction information found in Best Management Practices for the Use of Treated Wood In Aquatic Environments published by Western Wood Preservers Institute. Regulatory benchmarks used in risk assessments of this type need to be indexed to local environmental conditions. The robust invertebrate communities associated with slow-moving streams over soft bottoms were not susceptible to the concentrations of PAHs that would be expected to affect more sensitive taxa, which typically are located in faster moving water over hard bottoms. Contaminants released from timber bridges into these faster systems (where more sensitive taxa are located) are significantly diluted and not found at biologically significant levels
Field performance of timber bridges by Paula D Hilbrich Lee( )

5 editions published in 1997 in English and held by 359 WorldCat member libraries worldwide

The Mohawk Canal bridge was constructed in August 1994, just outside Roll, Arizona. It is a simple span, double lane, stress laminated deck superstructure, approximately 6.4 m (21 ft) long and 10.4 m (34 ft) wide and constructed with combination 16F-V3 Douglas fir glued-laminated timber beam laminations. The performance of the bridge was monitored continuously for 2 years, beginning shortly after installation. Performance monitoring involved gathering and evaluating data relative to the moisture content of the wood deck, the force level of the steel stressing bars, the vertical creep of the deck, and the behavior of the bridge under static load conditions. Comprehensive visual inspections were also conducted to assess the overall condition of the structure. Based on field evaluations, the bridge is performing properly with no structural deficiencies
 
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Wood handbook : wood as an engineering material
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Alternative Names
Etats-Unis Forest products laboratory

Etats-Unis Forest Products Laboratory (Madison, Wis.)

Etats-Unis Forest service Forest products laboratory

Etats-Unis. Forest Service. Forest Products Laboratory (Madison, Wis.)

Forente stater Forest Service. Forest Products Laboratory

Forest Products Laboratory.

Forest Products Laboratory (FPL)

Forest Products Laboratory, Madison, Wis

Forest Service US. Forest Products Laboratory.

FPL

FPL (Forest Products Laboratory (U.S.))

Madison (Wis.) Forest Product Laboratory

Madison (Wis.). Forest Products Laboratory

U.S. Department of Agriculture. Forest Service.

U.S Department of Agriculture Forest Service Forest Products Laboratory‏

United States Department of Agriculture Forest Service Forest Products Laboratory‏

United States‏ Forest Products Laboratory

United States Forest Products Laboratory (Madison, Wis.)

United States Forest Service Forest Products Laboratory‏

US Department of Agriculture. Forest Service Forest Products Laboratory

USA Department of Agriculture Forest Service Forest Products Laboratory

USA Forest Service Forest Products Laboratory

USDA Forest Products Laboratory, Madison, Wis.

미국 농무부 산림청 임산물연구소

미국 산림청 임산물연구소

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