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Using epoxy for bonding and gluing in wood construction

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What is the issue?
One of the main changes that has occurred in wood construction in the last 50 years has been the adoption of resin technology, both to glue structures together and also to make wood more available in a stabilized laminated sheet form such as plywood.

Why address this?
Modern epoxy glues are very strong and highly waterproof, as well as being resistant to chemicals and changes in temperature. Although traditional styles of construction were not designed with these types of glue in mind, it is now possible to combine the modern and the traditional to produce a strong, durable, good-looking structure that will please both the traditionalists and those who want modern quality.

How to address this?

Gluing wood with a suitable adhesive brings many benefits. One of the most important is that loads can be more evenly distributed throughout the structure when compared to the conventional use of metal fastenings. In this respect, using glue is nearly twice as good as using nails. As a consequence, in modern boatbuilding where SP products are extensively used, structures can be both thinner ‘skinned’ and more rigid instead of thick skinned and relatively flexible, which is how boats have traditionally been designed. Modern wooden boats, like modern motor cars, can now be lighter and stiffer. The use of glues makes it possible to include only the minimum of internal framing, and even to go as far as producing true monocoque structures. They also use less wood in their construction and this has tended to reduce material costs which partially compensates for the increased cost due to the adhesives. Different forms of construction have evolved which make these benefits possible. It is important to point out when discussing modern versus traditional construction that simply gluing structures designed for traditional construction can cause problems - problems which in fact serve to highlight some of wood’s basic drawbacks.


Bonding wood is unlike bonding materials such as grp or metals. With wood, the objective is to create joints which are stronger than the wood itself. This is not the same with other, stronger materials. The joint line in a glued metal bond, even with epoxies, is rarely stronger than the metal itself. Many types of glue create perfectly adequate waterproof joints with wood. Phenol-formaldehyde types are commonly used in the manufacture of plywood. Resorcinol and urea-formaldehyde types have been used since the 1940’s to bond wooden aircraft structures with largely satisfactory results. So why is epoxy needed? There are many reasons.

Whilst glues other than epoxies can form joints of adequate strength, they usually require much stricter conditions to achieve a good bond. Requirements such as good operator skill, well prepared substrate (the surface to be bonded), good workshop conditions and a service environment which does not cause them to deteriorate with age are usually necessary for a successful glued joint. Some of the most important factors are considered here:

Wood Moisture Level
For many traditional wood glues, moisture content (m.c.) plays an important part in the glueing process and water is an essential requirement for the glue. The wood must, therefore, have the required level of moisture for the chemical reaction to take place. For phenol-formaldehyde it is 8% - 12%, for urea-formaldehyde it is 6% - 14% and for resorcinol 12% - 18%. Some of the moisture required can be gained from the glues themselves – ureaformaldehydes can generate up to 50%-60% water and phenolformaldehydes approximately 35% water by weight.

Epoxy adhesives cure by a different chemical process. They neither contain water nor is water necessary for them to form bonds with wood. Epoxies can, therefore, perform very satisfactorily below 6% m.c. as well as giving excellent bonds up to 20% - 25% m.c., well outside the limits of the other glues. Kiln dried timber often has a moisture content well below 8% and is, therefore, best glued using epoxy adhesives.

Pressure Requirements During Cure
Glues other than epoxies require the mating wood surfaces to be in close contact and under pressure. In the manufacture of plywood, both of these requirements are met since the wood veneer is compacted in giant presses using heat. Both the resorcinol and urea-formaldehyde types, which are the most common alternative glues to epoxy, require high clamping pressure in the order of 7-14 kg/m2 for an effective bond. In part this is to overcome natural surface roughness of the wood but the main reason that pressure is necessary is to counteract the shrinkage in the glue itself which occurs when the glue loses moisture as part of its curing process.

The most important reasons why epoxy adhesives are so universally popular are that:

  • they do not require pressure to effect a cure.

  • they do not need the parts to be in intimate contact since only minimal shrinkage occurs during cure

These features make epoxy particularly effective for bonding less well-prepared surfaces.

The criteria for judging how good a structural adhesive is for wood must be based both on strength performance in ideal conditions and on other factors such as:

  • • how easy is it to work with

  • • workshop conditions (minimum cure temperature required)

  • • resistance to degradation in extremes of environment

  • • moisture resistance and toughness to resist cyclical stressing.

Table 1, below, provides a summary of properties of adhesives found in wood construction, comparing the two most common conventional wood adhesives with epoxy and illustrates how epoxy is the most tolerant to different levels of operator skill and environmental influences.


The criteria for a good bond are:
  • (i) That on testing, the wood itself should fail and not the adhesive at the bond-line.

  • (ii) This performance should be maintained as a permanent feature during service.

This latter criterion is especially important as it relates to the adhesive’s resistance to environmental effects and its behaviour when stressed. These are areas of performance where epoxies show a marked superiority over other glues.

How Wood Strength Relates to Glue Performance
Wood strength in lap shear joints is measured by assessing the shear strength parallel to the grain. The following gives the shear strength parallel to grain for five different wood species:

Glue strength is assessed by measuring the lap shear strength in appropriately designed joints. For cured epoxy adhesive mixes it is generally between 1500 - 2200 psi (120 - 150 kg/cm2) depending on the epoxy system employed.

As the shear strength of the epoxy adhesive exceeds the shear strength even of the strongest wood species, it can be expected that, if the joint is correctly prepared, the wood will be the first to fail.


  • (i) Most wood bonding operations are with the grain on the two parts parallel to one another (flat grain jointing). Here there will be relatively little penetration of the glue across the grain and the strength of the joint is dependent on the grain strength of the particular timber species used. The heavier, more dense timbers will have the highest strength.

  • (ii) End grain jointing is the joining of two pieces of adjacent wood with an end grain interface. Obviously, this is a much more absorbent part of the wood but offers a much smaller area to bond and is hence much weaker. Simple butt joints can be successful with epoxy if the gluing technique ensures good penetration into the absorbent wood fibres before the thickened mix is applied.

  • (iii) A much stronger joint results from increasing the bonding area as in the ‘scarf-joint’ where the wood is cut at a predetermined angle to expose some long fibres. Bond strength is determined partly by grain strength and partly by the degree of glue penetration achieved.

  • (iv) Fillet bonding - whilst most joints will be designed in the conventional way to form a ‘lap-joint’ or ‘scarf-joint’ there are many instances where the special adhesive and working properties of epoxies can be used to provide cost saving solutions to various bonding problems using a special form of joint - the fillet joint. The fillet joint can be used to conveniently bond components which meet at an angle to one another, such as bulkhead to hull skin where the angle along its edge will vary. Conventional solutions using tailored wood battens are very labour intensive and in some instances, such as bonding a wood bulkhead to a grp hull, are hardly applicable.

    The epoxy fillet joint provides a neat solution to this problem as it requires no permanent fasteners, increases the bonding area of the joint and, if correctly carried out, eliminates the joint as the weakest part of the structure. In addition, it is relatively quick to carry out. The fillet itself is composed of a continuous bead of epoxy resin thickened with fillers and applied to the angle between the two components. Fillet bonding is best used to bond relatively thin panels, typically up to 6mm or 10mm, but it can be used for panels of 12mm.

    Fillet mixes may be high or low-density types depending on application and weight requirements. Both types can be further reinforced with woven glass strips or glass tape where additional strength is required but the glass must extend over the edges of the fillet by a distance approximately equal to the fillet radius.


General surface preparation combines an abrasive stage with a chemical cleaning stage. All timber to be glued should be clean and dry. The moisture content should be under 15% and it must be free from contamination from oil based paints, preservatives or stains, natural waxes, resins or gums.

The best bond can be obtained from wood where the bonding surfaces have been roughened. If surfaces have been planed beforehand there is a danger of the ‘case-hardening’ effect giving an insecure bond. This can happen whatever glue is used for bonding. To ensure that this does not happen roughen all planed timber by sanding 30° to the grain direction using 40 - 60 grit aluminium oxide paper.

Chemical Cleaning

  • (i) If timber is oily, eg: teak, wipe with a volatile solvent such as SP Solvent A (SP Fast Epoxy Solvent) or acetone and allow to flash off before applying adhesive.

  • (ii) If timber is resinous, eg: Douglas Fir or Oregon Pine, use a 2%caustic soda solution on the face to be glued, wash off with fresh water and allow to dry.

  • (iii) Wiping with solvent also removes sanding dust.


For an epoxy to be an adhesive, the use of fillers is essential to:

  • (i) Bulk out the adhesive and make it ‘thicker’ for joining uneven surfaces.

  • (ii) Give non-sag properties (thixotropy) for vertical glue joints.

  • (iii) Form radiused fillets to increase bonding area.

  • (iv) Hold glue in between absorbent surfaces, to prevent dry joints.

Fillers are in the form of powders which are added to the resin-hardener mixture. A brief guide to the types of filler available, the suitability of each, is given below in figure 2. A separate Filler Guide, available on inyourfootsteps.com providing full details of quantities to use, mixing methods, etc.

With thanks to:
With thanks to Martin Armstrong, Structural Polymer Systems Ltd. e-mail: info@spsystems.com or web SP Systems.

Bonding with West System Epoxy

How to laminate wood with epoxy for wooden boat building (Part 1 of 2)

How to laminate wood with epoxy for wooden boat building (Part 2)

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