Tag Archives: CCA treated lumber

The Mark on Pressure Preservative Treated Lumber

Interpreting the Mark on Pressure Preservative Treated Lumber

Pressure preservative treated lumber is a mystery to most consumers, builders and even building officials. Certainly all of the above parties understand the need for pressure preservative treated lumber when it is embedded in or in contact with the ground or concrete, or in locations where there is a high probability of untreated lumber decaying.

Where the mystery comes into play is not knowing if the pressure preservative treated we are buying is actually adequate for the intended use.

Every piece of pressure preservative treated lumber is required to be either stamped or tagged with the information shown in the box above, although the format may vary slightly. Here is the secret to understanding this quality mark:

  • Is the identifying symbol, logo or name of the agency which accredits the producer – (the producer being the pressure preservative treating plant).
  • Is the applicable American Wood Protection Association (AWPA) standard and Use Category. THIS IS THE IMPORTANT ONE. For lumber to be embedded in the ground and used structurally it must be treated to a UC-4B standard. For more on this subject, what I believe may be one of my best articles ever is here: https://www.hansenpolebuildings.com/2014/05/building-code-3/.
  • The year of treatment if required by AWPA Standard/Use Category.
  • The preservation used, which may be abbreviated.
  • The preservative retention. In the “olden days”, the standard for treating was “.60” which everyone knew was CCA treated for structural in ground use. More reading on the post-CCA world here: https://www.hansenpolebuildings.com/2016/01/pressure-treatment-beyond-cca/
  • The exposure category (e.g. Above Ground, Ground Contact, etc.). This really confuses too many people as both UC-4A and UC-4B say Ground Contact.
  • The company name and location of home office; or company name and number; or company number.
  • If applicable, moisture content after treatment. This is crucial to the glue laminated column manufacturers as the glue laminating process relies upon very low moisture content lumber.
  • If applicable, length, and/or class.

Just because lumber is pressure preservative treated, does not make it all the same. Learn to watch for the level of treatment on every piece of lumber. You will be glad you did.

ACQ Treated Lumber

Pressure-treated lumber has been available for about 60 years. Most original formulas centered on arsenic as the main preservative, to help lumber withstand the extremes of outdoor use. While over time small amounts of chemicals from treatments such as CCA may have leached out of the treated timbers, a 2004 report in Wood and Fibre Science stated soil contamination due to the presence of CCA treated wood after 45 years is minimal.

As one might expect, the use of a potentially-poisonous substance like arsenic was cause for considerable concern, particularly when children are exposed to such installations. However, a Florida Department of Health panel of physicians found no published clinical evidence in the medical literature of arsenic poisoning in children resulting from CCA treated playground equipment exposure.

To address the pressure treated wood safety concerns, in 2002, the United States’ Environmental Protection Agency convinced lumber manufacturers to find a non-arsenic based formula for treated. The result was ACQ (Alkaline Copper Quartenary) treated lumber.

The new ACQ treated lumber contains a very high level of copper to replace the arsenic. While this reduces the desired risk of poisoning, it does present a different, but very dangerous problem: increased levels of corrosion.

Simply put, ACQ treated lumber is extremely corrosive to metal fasteners such as nails, screws, framing hangers as well as metal siding and flashings. The problem is you end up with two metal compounds in direct contact with each other in an exterior application so water contact is going to happen.  When two metals in direct contact with each other are surrounded by an electrolyte (water) rapid corrosion of the metal on the lower end of the electromotive series will occur.

Significant issues were seen early on in the outdoor deck industry. Here, standard joist hangers decayed rapidly due to the chemical interactions.

In post frame construction, the biggest concern was with contact of the pressure treated skirt boards (splash planks) with steel base trims or steel siding. Most quality providers went to isolating the skirt boards from the steel by uses of waterproof barriers and fastening the steel at the base of the walls with stainless steel screws. Nails with higher levels of zinc coating became prevalent as well, for fastening ACQ treated lumber.

The end solution was the short popularity of ACQ treated lumber. Copper Azole (CA) and Micronized Copper Quaternary (MCQ) have now become the pressure treatments of choice, as they have significantly lower tendencies towards the electrolysis issues seen with ACQ. While MCQ is less corrosive to metals, one of the “big box stores” continues to recommend the use of galvanized fasteners with it.