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Performance of back-primed and factory-finished hardboard lap siding in southern florida

Carll, C., Knaebe, M., Malinauskas, V., Sotos, P. and Tenwolde, A.
2000
USDA Forest Serv. Res. Pap. FPL-RP-581


Carll, C., Knaebe, M., Malinauskas, V., Sotos, P. and Tenwolde, A., (2000), "Performance of back-primed and factory-finished hardboard lap siding in southern florida", USDA Forest Serv. Res. Pap. FPL-RP-581.
Abstract:
"Because of performance problems with hardboard siding in southern Florida, the U.S. Department of Housing and Urban Development proposed a local standard requiring prefinishing of siding and priming of all siding surfaces, including the back. However, the effectiveness of these practices was questioned. To determine if back-priming or factory finishing improves durability and performance of hardboard siding, we installed factory-finished and factory-primed siding on two buildings in southern Florida. The buildings were identical except that one had gutters and no overhangs and the other had overhangs and no gutters. Half the siding was back-primed and half was not. Moisture content, temperature, and air pressure difference across the siding were continuously monitored for 2 years. Condition and thickness of siding boards were recorded every 3 months. After removal from the buildings, siding was inspected and final moisture contents were determined. The siding was in excellent condition after about 2? years of outside exposure. There was no evidence that back-priming the siding reduced its in-service moisture content. Whether the siding was from the overhang building or the guttered building did not seem to make a difference, but inspection of the windows and final moisture contents of the trim strongly suggested that overhangs provided additional protection on the gable ends (gutters were only present on the sidewalls).

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Author Information and Other Publications Notes
Carll, C.
Charles Carll, Research Forest Products Technologist, USDA Forest Service, Forest Products Laboratory, Madison, WI
  1. Accuracy of wood resistance sensors for measurement of humidity
  2. Accuracy of wood resistance sensors for measurement of humidity
  3. Air pressures in wood frame walls
  4. Decay of wood and wood-based products above ground in buildings, Mechanism of Brown-Rot Decay: Paradigm or Paradox
  5. Effect of cavity ventilation on moisture in walls and roofs
  6. Rainwater intrusion in light-frame building walls  
Knaebe, M.
     
Malinauskas, V.
  1. Air pressures in wood frame walls  
Sotos, P.
     
Tenwolde, A.
Anton TenWolde, Research Physicist Research Forest Products Technologist, USDA Forest Service, Forest Products Laboratory, Madison, WI
  1. A mathematical model for indoor humidity in homes during winter
  2. Accuracy of wood resistance sensors for measurement of humidity
  3. Air pressures in wood frame walls
  4. Effect of cavity ventilation on moisture in walls and roofs
  5. Interior moisture design loads for residences
  6. Issues related to venting of attics and cathedral ceilings
  7. Manufactured housing walls that provide satisfactory moisture performance in all climates
  8. Moisture management in buildings
  9. Moisture transfer through materials and systems in buildings
  10. Ventilation, humidity, and condensation in manufactured houses during winter
  11. Weather Data  



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