Wood frame agricultural buildings are relatively easily dated by the type of structure they have. Post-and-beam frames with heavy timbers and wooden pegged joinery generally date from the nineteenth century and perhaps earlier. Stud-frame construction with dimension lumber and roof trusses generally dates from the late-nineteenth and twentieth centuries. Sometimes farmers reused timbers or framed sections recycled from earlier barns in their new barns, confusing matters for the casual observer. Many barns are composed of two or more structures from different periods.
Before doing any structural repairs make sure you gain a full understanding of what caused the problem. You should then remedy the source of the problem first. Often you may need a structural engineer or experienced timber framing contractor to accurately assess conditions and develop repair options. Perhaps the most common problems are the decay of sill timbers, because soil, wet hay, or manure have built up around the base of the building, and unrepaired roof leaks that lead to decay in the roof structure or in the plate timber where rafters meet the wall. Often if the foundation is affected by frost heaving, it places unusual stress on the frame, twisting it and breaking and pulling apart the joinery. Runoff or soil drainage problems may also keep some timbers moist, leading to wood rot, insect damage, or fungus growth.
Check over the entire frame of the barn, timber by timber, each year. Look for any structural defects. Check sill timbers and their joints for decay or cracks indicating stress. Look at support posts and footings in the basement to see that they are sound and without long, deep splits. Are there any broken rafters or is the ridge-beam broken or split? Have floor joists separated from the timbers they rest on or are joined to? If you detect any of these problems that indicate stresses on and movement of the structure, it is important to determine whether the stress or movement is still occurring or if it was an isolated incident or temporary condition some time ago. Overall, evaluate where the structure has settled, where loads have concentrated, and whether the floors and roof structures are weak.
Look for insect damage and fungus growth in timbers that appear damp. Carpenter ants make pencil-sized, entry/exit holes into the interior of the timber leaving piles of coarse “sawdust” underneath. Exterminate the ants’ nests with insecticide as soon as they are detected. Wood-boring beetles make small tunnels in the wood dropping yellow powder below. They do their damage more slowly than carpenter ants but may require repeated efforts to exterminate. Fungus growth may appear as a light or dark film (powdery when dry) on timbers and may grow in cracks and joinery where it is not visible. Probing with a sharp object for soft areas will reveal whether the wood is being damaged. Wood preservatives will stop fungus growth and prevent further deterioration. If wood damaged by insects or fungus can be isolated from ground or water contact, newly developed borate-based treatments may be used both to exterminate pests and preserve the wood. (Such treatments are much less toxic than most other insecticides and preservatives.)
Stabilizing and repairing structural damage usually involves hiring a contractor, Elite Construction experienced in working on old buildings. Due to the risks, jacking and reinforcing a structure should be done by those with experience and proper tools.