Group Title: Affordable housing issues
Title: Affordable housing issues ; vol. 14 no. 4
Full Citation
Permanent Link:
 Material Information
Title: Affordable housing issues ; vol. 14 no. 4
Series Title: Affordable housing issues
Physical Description: Serial
Language: English
Creator: Shimberg Center for Affordable Housing
Publisher: Shimberg Center for Affordable Housing
Place of Publication: Gainesville, Fla.
Publication Date: June 2004
 Record Information
Bibliographic ID: UF00087009
Volume ID: VID00027
Source Institution: University of Florida
Rights Management: All rights reserved by the source institution and holding location.


This item has the following downloads:

Newslet-Jun04 ( PDF )

Full Text

Volume XIV, Number 4

Pressure-Treated Lumber

Most wood will decompose when it is exposed to the 1 eltlher, subjected to excessive moisture, or
in( I mIt I i i th the ground. The decomposition is caused by decay or insect attack. The solution
for years has been to use wood that had been pressure-treated i/th a preservative like
chromated copper arsenate (CCA). The result was that familiar "greenish" colored used for
backyard decks, fences, and swing sets. However, as of December 31, 2003, CCA was
11 ith, i in for most residential consumer-use treated-lumber applications. Lumber treated i iith
alternative preservatives has been introduced while CCA-treated lumber continues to be allowed
for certain industrial, agricultural, foundation, and marine applications.

Users of lumber treated iith the alternative preservatives must become aware of the changes in
material selection that must be made because of the potential for corrosion of fasteners and
connectors that either penetrate or contact the treated lumber.

Presented below is a discussion of pressure treatment alternatives available to consumers and
the changes in practice that must be considered when choosing the proper materials.

Pressure Treatment

Pressure treating wood requires that a preservative chemical penetrate and be retained by the
wood. Most wood species require that the surface of the lumber be pierced with a series of small
slits to facilitate penetration of the wood by the chemical. Southern pine is one of the few
species that does not require this surface-preparation step and, as a result, about 85% of all
pressure-treated wood is southern pine.

There are three broad classes of wood preservatives used in the pressure-treating process:
Waterborne preservatives, Creosote and creosote/coal-tar mixtures, and Pentachlorophenol
(called "Penta"). The creosote and creosote/coal-tar mixtures are used for railroad ties, pilings,
and utility poles and Penta is used for industrial applications and utility poles. It is the
waterborne preservatives that are used for residential, commercial, marine, agricultural,
recreational, and industrial applications.

Waterborne Wood Preservatives

There currently are five waterborne preservative chemicals being used for pressure treating wood
available commercially:
Sodium Borate (SBX) is also called disodium octaborate tetrahydrate (DOT)
Alkaline Copper Quaternary (ACQ-C, ACQ-D, ACQ-D Carbonate)
Copper azole (CA-B, CBA-A)
Sodium silicate borate (SBX with NaSiO2)
Ammoniacal copper zinc arsenate (ACZA)

June 2004

These preservatives appear in the market as pressure-treated wood that has various trade names.
Presented in the following table is a list of these preservatives and some of the trade names used
for the treated wood.

Preservative Treated wood trade name
Sodium borate Advance Guard, SillBor, Tim-Bor, Pac-Bor, TimberSaver PT, Smart
Guard, Hi-Bor, Cal-Bor, DuraBor, DuraSill, Composibor
Alkaline Copper Preserve, Nature Wood, Preserve Plus
Copper Azole Natural Select
Sodium Silicate Borate Envirosafe Plus
Ammoniacal Copper Chemonite
Zinc Arsenate
Source:, March 2004.

New Preservatives Corrode Fasteners & Connectors

The introduction of new preservatives has been accompanied by a new problem corrosion of
the fasteners and connectors that come in contact with the chemical. The solution recommended
by the wood preserving industry is to use either stainless steel or hot-dipped galvanized fasteners
and connectors. The International Residential Code, Section R319.3 states, "Fasteners for
pressure-preservative treated wood shall be of hot-dipped galvanized steel, stainless steel, silicon
bronze or copper." Although this statement sounds straight forward, there are different types of
stainless steel and different thickness coatings applied by hot-dipping.

In the case of stainless steel, tests conducted by Simpson Strongtie Company, Inc., (see, TECHNICAL BULLETIN: Pressure Treated Wood, January 2004)
concluded that Type 304 or greater stainless steel products corrode substantially less than other
alternatives. It should be noted, however, that stainless steel products cost significantly more
that standard coated products.

The corrosion performance of a galvanized product is directly related to the amount of zinc
deposited on the surface. There are several methods of applying the zinc coating including
electrogalvanized, hot-dipped, and hot-tumbling. Galvanized products that are produced by an
electroplating process are not recommended for use with wood that has been treated with the
alternative preservatives because the zinc coating is not adequate. Rather, hot-dipped galvanized
products are recommended with the guideline that the more zinc on the surface of the product the
better. The third process involves tumbling heated fasteners through zinc powder leaving a thin
zinc coating. Both the electroplating and the heat tumbling provide protection for the fasteners;
but that protection is not considered to be adequate for use with the new preservatives used in
pressure-treated wood.

The amount of galvanized coating is specified as a class or grade such as G60 meaning 0.60
ounces of zinc per square foot of product has been applied or as G90 which results in 0.90
ounces of zinc per square foot of product. The Southern Pine Council issued an Advisory in

June 2004 titled Advisory On Fasteners and Connectorsfor Treated Wood. The Advisory
recommends G185 for fasteners used with the new wood preservatives. (see
www. southernpine. com).

Another point to consider is that the fasteners and the connectors should be made of the same
material. That is, stainless steel fasteners should be used with stainless steel connectors.
Similarly, galvanized fasteners should be used with galvanized connectors.

According to the NAHB Research Center, Inc., (see lumber treated with the non-
borate preservatives (e.g., ACQ and copper azole) is more corrosive than CCA-treated lumber.
Lumber treated with borate preservatives is actually considered to be less corrosive.
Unfortunately, lumber treated with borates is not recommended for any use where it will be
either in direct contact with the soil or in prolonged or repeated contact with water. The reason
for this situation is that the preservative chemical will leach out of the wood. Although there is
no environmental or health risk associated with the leaching, loss of the preservative will
negatively affect the preservation of the wood.

Additional Information

Additional information on the types and uses of available alternative wood preservatives, the
introduction of new alternative preservative chemicals or changes in the formulation of the
current preservatives, and the results of performance testing of fasteners and connectors exposed
to the alternative preservatives are available from a variety of Internet web sites. Inquisitive
readers are encouraged to visit the following web sites:

NAHB Research Center, Inc.
American Galvanizers Association
American Wood-preservers' Association
US Forest Products Laboratory
Southern Pine Council
Western Wood Preservers Institute
Simpson Strongtie Company, Inc.

University of Florida Home Page
© 2004 - 2010 University of Florida George A. Smathers Libraries.
All rights reserved.

Acceptable Use, Copyright, and Disclaimer Statement
Last updated October 10, 2010 - - mvs