Epoxy Repair For Deterioration And Decay In Wooden Members

Technical Procedures Disclaimer

Prior to inclusion in GSA’s library of procedures, documents are reviewed by one or more qualified preservation specialists for general consistency with the Secretary of Interior Standards for rehabilitating historic buildings as understood at the time the procedure is added to the library. All specifications require project-specific editing and professional judgement regarding the applicability of a procedure to a particular building, project or location. References to products and suppliers are to serve as a general guideline and do not constitute a federal endorsement or determination that a product or method is the best or most current alternative, remains available, or is compliant with current environmental regulations and safety standards. The library of procedures is intended to serve as a resource, not a substitute, for specification development by a qualified preservation professional.

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We’ve reviewed these procedures for general consistency with federal standards for rehabilitating historic buildings and provide them only as a reference. Specifications should only be applied under the guidance of a qualified preservation professional who can assess the applicability of a procedure to a particular building, project or location. References to products and suppliers serve as general guidelines and do not constitute a federal endorsement nor a determination that a product or method is the best alternative or compliant with current environmental regulations and safety standards.

PART 1---GENERAL

1.01 SUMMARY

  1. This procedure includes guidance on stabilizing decayed wood members with epoxy consolidant and filler.
    1. For reference you may see:
      1. the American Wood Protection Association
      2. John Leeke's Historic Home Works
  2. Deterioration and decay in wood results from moisture infiltration, accompanying fungal growth and insect infestation. Failure of paint, caulk and sealant leaves the wood surface underneath it susceptible to these perils.
  3. Some sources of moisture may include the original moisture in green wood, rainwater, condensation, ground water, piped water, and water released by water-conducting fungus through the process of decay itself.
  4. Epoxy repair may be appropriate if:
    1. the piece to be repaired is historically significant. Epoxy repair makes it possible to retain most of an original component by selectively repairing only the damaged area.
    2. if the piece is decorative and replacement would be too expensive or seemingly impossible to replicate.
  5. Epoxy repair may NOT be appropriate if:
    1. the piece is a structural member. Epoxy has adequate compression strength, but is not the best choice to repair a member in tension. In this case, replacement is usually a better option.
    2. the wood to be repaired is to remain unpainted (as the epoxy is quite different in appearance than wood). In this case, appearances will matter to a greater degree, and the wood should be selectively replaced.
    3. if the area to be repaired is large, as epoxy repair can be expensive.
  6. See 01100-07-S for general project guidelines to be reviewed along with this procedure. These guidelines cover the following sections:
    1. Safety Precautions
    2. Historic Structures Precautions
    3. Submittals
    4. Quality Assurance
    5. Delivery, Storage and Handling
    6. Project/Site Conditions
    7.  Sequencing and Scheduling
    8. General Protection (Surface and Surrounding)

These guidelines should be reviewed prior to performing this procedure and should be followed, when applicable, along with recommendations from the Regional Historic Preservation Officer (RHPO).

PART 2---PRODUCTS

2.01 MANUFACTURERS

  1. ConServ Epoxy LLC
  2. Abatron, Inc.
  3. Roux Laboratories

2.02 MATERIALS

  1. Epoxy consolidant and epoxy filler, both are multiple part compounds. Purchase by the gallon unless a large amount of epoxying needs to be done. Use one of the following, or approved equal:
    1. "Con Serv (T) Flexible Consolidant 100"
      (ConServ Epoxy LLC): Cures slowly with a 5 to 7 hour application time to allow deep penetration. Complete hardness is achieved in 3 to 6 days.
    2. "Con Serv (T) Flexible Patch 200" (ConServ Epoxy LLC): A four part putty-like filler; Not easy to mix in small amounts; Consistency and hardness are easily controlled with this material.
      NOTE: The above products of ConServ Epoxy LLC are recommended for treatment of thicker wood such as window sills. Because of its slower curing time, it allows for deeper penetration into members.
    3.  "Liquidwood-1" Consolidant (Abatron): Solidifies in a short period of time.
    4. "Woodepox-2" Adhesive Paste (Abatron): A two-part paste mix; final hardness is determined by varying the ratio of the two parts. The LiquidWood can be used as a thinner, but this reduces the flexibility of the filler.
      NOTE: The above products of Abatron, Inc., are recommended for use on smaller members such as window sashes where deep penetration of consolidant is not required. The quick drying feature is an advantage for small, but repetitive, jobs. Abatron carries many different types of wood consolidants with varying degrees of penetration.
  2. Oil clay that can be purchased from a hobby store (used to keep consolidant from leaking through cracks).
  3. Nitrile Rubber Gloves (Abatron)
  4. Disposable vinyl gloves: Available from drug store or pharmaceutical supply distributor in 50 count or larger boxes.
    Latex gloves should be avoided because many people have developed a severe allergic reaction to latex. To avoid this problem, look for products labeled as hypoallergenic.

2.03 EQUIPMENT

  1.  Plastic bottles, like those used for hair dye, to apply the consolidant; having many on hand is recommended. Cleaning of the bottles for reuse is possible.
  2. Applicator bottles: Available from drug store and sold for hair dye application usually in 8 fl. oz. size; Also available in bulk from Roux Laboratories (see paragraph 2.01 (a.) above. Roux hair-color applicators lend themselves easily to cleaning and reuse.
  3.  Rags of different sizes to wipe up spills before epoxy has a chance to harden, small rags are recommended for quick one time uses such as wiping off spouts and caps.
  4. Thin wooden sticks, approximately 8" long for scooping out paste and mixing consolidant.
  5. Goggles and a respirator for protection from fumes.
  6. Putty knives for application of filler
  7. Channel lock pliers for opening stuck caps
  8. Allen wrench to clean out cap holes
  9. Needle nose pliers to pull out hardened epoxy
  10.  1/8"x8"x12" Masonite boards for mixing paste filler
  11. Carbon dioxide fire extinguisher: Curing epoxy creates heat that may cause fire
  12. Rotary saw
  13. Air compressor
  14.  Drill
  15. Stiff bristle brushes

PART 3---EXECUTION

3.01 EXAMINATION

  1. Detect rot using the "Pick Test":
    1.  Insert an ice pick into the wood at a slight angle.
    2.  Lift the pick out. If the wood splinters in long pieces, the wood is ok. If the wood snaps where the pick is being lifted, the wood is decayed.
  2. When rot is discovered:
    1. Determine the source of moisture infiltration and eliminate it.
      1. If rot is only present on the surface, drying is all that is necessary to stop the spread of decay and kill off any growth.
    2.  If source of moisture is unknown, treat the wood with a preservative.
      1. Preservatives are caustic chemicals and should be handled with care.
      2. A particularly dangerous wood preserving chemical used frequently in the past was called pentachlorophenol (a.k.a. penta). It is now a controlled industrial preservative, considered extremely toxic and any use except by specially trained conservators should be avoided at all costs. If you have old stock of this chemical in storage, proper means of disposal should be sought out. CAUTION: THIS CHEMICAL IS CARCINOGENIC AND ITS USE IS BANNED IN MANY STATES. 
    3. Preservatives will eliminate fungal growth, but will not restore strength to deteriorated wood material.

3.02 PREPARATION

  1. Surface Preparation Always follow the recommendations for use provided by the manufacturer of the filler or consolidant chosen.
    1.  Dry affected wood member completely to arrest further decay. Dry in place if possible or remove the member and keep in a cool dry place until dry.
      CAUTION: IF THIS PRECAUTION IS NOT TAKEN, THE EPOXY CAN ACTUALLY TRAP MOISTURE UNDERNEATH IT IN THE WOOD FIBERS AND ACCELERATE THE DECAY PROCESS.
    2. Have all materials at hand before the mixing process begins.
    3.  Label all caps and lids so that a cap or lid is not placed on the wrong container or it may remain there permanently.

3.03 ERECTION, INSTALLATION, APPLICATION

CAUTION: AS EPOXIES CURE, HEAT IS PRODUCED. FOR THIS REASON, EPOXIES SHOULD BE USED IN SMALL QUANTITIES TO DETER EXTENSIVE HEAT BUILD-UP. CARE SHOULD BE TAKEN WHEN USING EPOXY ON A HOT DAY. Use caution when disposing of epoxy-covered components such as mixing and application bottles, resin-coated clean-up towels, papers and wood scraps.

  1. Repair decayed wood using epoxy wood consolidant. Always follow the recommendations for use provided by the manufacturer of the filler or consolidant chosen.
    1. Drill 1/4" or 3/16" holes in affected wood to receive epoxy consolidant:
      1. Drill holes at an angle and spaced approximately 2" on center in staggered rows. The top of one hole should line up with the bottom of the next hole.
        ​CAUTION: BE SURE NOT TO DRILL THROUGH THE ENTIRE SURFACE FOR CONSOLIDANT WILL LEAK OUT FROM BEHIND.
      2. Dam any surface cracks with oil clay (this is old-fashioned modeling clay) so that epoxy will not leak.
    2. Remove sawdust and dirt from drilled holes by blowing (by mouth or with the aid of a common drinking straw), vacuuming, or use of stiff bristle brushes.
    3. Following manufacturer's instructions, thoroughly mix the consolidant components.
    4. Using a large plastic syringe or squeeze bottle and tube spout, carefully squirt the consolidant into the pre-drilled holes. Completely saturate the wood, moving from hole to hole refilling until the wood can hold no more. More than one application may be needed to force air out of voids..
    5.  Wipe off any excess consolidant or spills and cover the treated area to protect until cured as directed by epoxy manufacturer.
    6.  If severed pieces need to be re-attached, glue them in place with a mixture of consolidant and filler, according to the manufacturer's instructions..
  2. When the consolidant has cured, fill the voids in the surface with epoxy filler (wood-epoxy putty):
    1. Mix the two part epoxy filler according to manufacturers instructions until consistency of a glazing compound is uniform and compound can be worked with a putty knife.
    2. Apply the filler to the surface:
      1. For large voids, apply filler in 1" thick layers to reduce heat build-up that may undermine repairs.
      2. Build up filler layers slightly above the wood surface to allow for planning and sanding smooth after it has cured.
    3. When the filler has cured, sand or plane the surface smooth.
    4. Apply a wood preservative to the surrounding wood surfaces, prime and paint the entire surface.