Everybody knows engineered wood floors are more stable than solid ones… don’t they? Junckers’ technical manager Richard Aylen’s answer will surprise you.
Many people who’ve been involved in choosing hardwood flooring products will have faced the question; ‘Should I choose a solid hardwood or engineered wood floor?’ There’s a lot of useful, qualified advice available from manufacturers and other specialists in the supply chain, but one piece of advice that is offered time and time again is that engineered wood floors are ‘more stable’ than solid ones.
I’ve worked in the wood floor industry for many years and have experience of both solid and engineered products and I have to say this claim raises more questions than answers and it’s certainly a claim that needs to be picked apart to really understand why it has come about and if it’s indeed true.
This is probably a good time to include some definitions. When I refer to a ‘solid’ floor I mean one where the full thickness of the board is made from a single piece of wood. An engineered wood floor is built up through its thickness with different layers of wood glued together. You could say it’s multi-layered or laminated perhaps. Individual layers may vary in terms of their thickness the types of timber used.
I must declare my hand straightaway: I believe the stability claim is a myth. For many years I’ve searched for proof and have found none. Despite the fact the two floor types behave slightly differently when it comes to natural moisture-movement, I’ve found no evidence to support the idea that one type is inherently more stable than the other. Nor have I found that one is more prone to problems than the other in this respect, although squash court floors are an exception, which I will talk about later.
The belief that engineered wood floors are more stable than solid ones is widely held and is found in all parts of the supply chain. I want to start by giving a few examples that have come my way. I’ve been told engineered floors will ‘keep you out of trouble’ if there is dampness onsite, but a solid floor will be less forgiving. But as far as I know no-one has produced evidence of both types being laid in the same space in identical conditions and one failing, the other not.
The bottom line is that no manufacturer will offer a guarantee on any kind of wood floor that’s laid in damp conditions and both types: engineered and solid wood will fail.
Let’s look at how manufacturers define ‘damp’ or ‘dry’ conditions. If you believe an engineered floor is more moisture-tolerant you’d expect the manufacturer’s instructions to recommend a humidity range that is wider than for a solid wood floor, wouldn’t you?
For my own company’s solid wood floors we recommend humidity levels between 35%RH and 65%RH, which is a range of 30% from low to high. 35%RH to 65%RH is in fact the normal range that you will find in a typical occupied building in the UK, and this is broadly in line with design parameters used by the Chartered Institute of Building Services Engineers (CIBSE) and mechanical services designers.
To find out what wood floor manufacturers had to say I did some quick online research on engineered floor manufacturers’ installation instructions. I found instructions from four companies; two of which also recommended a 30% humidity range, but the other two recommended only a range of 20%RH. Admittedly this was only a small sample, but it implies engineered products are less stable. A range of only 20% is in fact difficult to maintain unless you have fully climate-controlled building. I’ll be interested to know if any engineered wood floor manufacturers will recommend and guarantee a humidity range higher than 30%… which they would have to do if they could in any way be considered ‘more stable’ than solid floors.
In squash courts most floors in the UK will be solid beech or maple. About 95% of these floors will be used with a bare, unsealed surface. Engineered floors are used to some extent but I know of one manufacturer who will only guarantee their floors if they are finished with lacquer. The floorboard is a 23mm thick engineered board with a top layer of beech between 3mm and 4mm thick. If the floor is used unsealed the manufacturer will not guarantee it because of the risk of the top layer de laminating (ie becoming unglued from the backing board) and splitting.
They’re very open about the fact that their floor in an unsealed state will not be stable enough to survive the normal humidity levels found in a typical squash court (and squash courts don’t have extreme conditions). Their concerns are justified because I have seen one of their floors, used unsealed, failing exactly as described.
Compared with an unsealed solid hardwood floorboard the engineered squash court floor, used unsealed is less stable, and the manufacturer confirms this.
Solid and engineered hardwood floors certainly move differently when it comes to the normal expansion and shrinkage resulting from seasonal humidity changes. Different; yes, but is there any element of ‘right’ or ‘wrong’ here? Engineered floors expand and shrink both length and widthways, and proportionally the amount of movement in each direction is about the same.
Solid hardwood expands more across the width (across the grain) than the length. Lengthways expansion is very small and for small to average sized floors movement in this direction may not be noticed at all. As all floor manufacturers recommend expansion gaps around their floors it’s hard to see why an unbiased person would say one or other floor type is better or worse.
It also raises a few questions for the engineered floor manufacturer who claims their floors are ‘70% more stable’. This could be a result of some virtuosic number-crunching, but I think the claim warrants an explanation from the manufacturer. Given an explanation we can decide if it’s actually something that translates into a tangible benefit to the customer.
A few months ago, I was given a copy of an advice sheet from an organisation in the underfloor heating industry. It was a guide to selecting floorcoverings where they said that compared to solid wood floors engineered wood floors are ‘a more stable option than solid timber, owing to being cross laminated, its moisture content is less critical’.
This relates directly to the idea that ‘engineered wood floors will get you out of trouble’ that I mentioned earlier. It transpired that they were about to review their technical advice and the person I spoke with already understood that the statement was misleading and intended to remove it.
As a further example of how deep-rooted this myth has become, I have a copy of a consultant’s report on a failed solid wood floor that had been affected by high moisture levels onsite and the author expresses his opinion that an engineered wood floor wouldn’t have been affected in the same way. This was irrelevant to the case because he wasn’t reporting on engineered floor at all, and there was no clue as to why he mentioned it.
When I asked the consultant what evidence he had based his opinion on it transpired he had none, he was simply relying instead on the principle of ‘everyone knows’. He was probably fortunate that his expertise was never cross-examined in court.
Engineered wood floor manufacturers are generally happy to sit by and allow the myth to thrive but a small number of less scrupulous companies just take it too far. Recently two well-known engineered floor suppliers in the sports floor market published web content intended to discourage customers from using solid wood floors.
Among their claims was the idea that solid wood floors ‘cup’ every summer because of higher seasonal humidity and because of this they have to be sanded every year to make the boards flat again. They concluded that solid wood floors have a shorter life than engineered floors. This is of course wildly untrue, and a typical solid sports floor will last for 60 years’ plus with proper maintenance… several times longer than an engineered one.
When I hear people who promote engineered floorboards superior stability, I gain the impression engineered floors were developed because the world was waiting for a solution to some deep-rooted problems with solid wood floors. I don’t buy this I’m afraid. We’ve used solid hardwood floors in the UK for centuries and there are many sold floors still going strong after 100 years or more. I think the truth lies in matters of cost (who knew?). I think when the first engineered floors were designed the conversation at the product development meeting was not: ‘how can we provide customers with a more reliable floor?’, but: ‘how can we make a cheaper floor that looks the same as a traditional solid one?’
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