This interview with the award-winning boat designer Simon Rogers took place in November 2011, during research for the Boat Project book. Lymington- based Simon is the designer of the exquisite wooden vessel at the heart of Lone Twin's The Boat Project, an ACE 'Artists Taking The Lead' commission as part of the London 2012 Cultural Olympiad. The boat and the book will be launched on 7 May at Thornham Marina, Emsworth, before a maiden voyage along the south coast from mid-May until August - with curated events and celebrations in Brighton, Portsmouth, Hastings, Margate, Milton Keynes and Weymouth.
For full details of The Boat Project, the book, and to reserve tickets for the launch, see here.
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DW: As the designer of the boat at the
centre of The Boat Project, could you describe its particular attributes and
qualities?
SR: It’s a boat of our time; and that was the first part of the original brief. It reflects modern design of the year 2012. In terms of its form, for example, the chines of the hull (the angles of its bottom) are very in vogue right now in high-performance yachting circuits. It’s not as light as one could make it – obviously we have the donations, and the materials, the fact that it’s made out of wood. But the idea was not to make something from the 1940s or 1950s. We are not trying to make a retro, clinker-built boat. We’re trying to build something that looks modern, and a proper reflection of what’s currently going on in the industry – and at the same time something that would be fun to sail.
It
will plane; it has a planing hull so it will go quickly without pushing a lot
of water around. It’s a very efficient, low-drag shape, with a fairly large
sail area. Nonetheless it will be very easily driven, very light on the helm;
and it will be a pleasure to sail – everything will be lightly loaded. Less
experienced sailors, even those who have never sailed before, will be able to
sail the boat with instruction. There’s
nothing there that’s going to bite you or be horrible; the winches are very
small, the loads are all very small, and it will sail in a nicely balanced
fashion.
Part
of the original brief was to make something accessible to those who are less
experienced. It’s a simple boat to sail, it’s not at all complicated. And it’s
an easy boat to transport. Transportation by road was one of the driving
features for the overall length of the boat. It could have been any length, but
it had to be able to fit on a trailer; the maximum beam is 2m 55, and we’re at
2m 53. Obviously we wanted to stay within the weights of what was allowed on
the road. It needs a 3.5-tonne towing vehicle, which Discoveries, Landrovers
and so on can manage. And at the same time we wanted to be able to move it
easily and quickly.
If
an informed person looked at this boat, they would say that it had an
association with a sports boat, which is a generic group of fast modern sailing
boats. You’d look at this boat and think yes, this is of the same genre as a Melges
34, a Melges 32 or a Mumm 30, or indeed any high performance boat. It is a much
heavier version of that style of boat, but we felt it was a decent reflection
of 2012, which is really what it was all about.
In terms of the boat design, is there
anything that’s particularly unique?
There
are some functions within it that are specific to the particular project. For
example, lots of boats have lifting keel systems, but the specific items that
we’ve tackled are going to allow the boat to be transported easily as well.
There are functions that other boats have had to tackle as well, but we’ve done
it in maybe a slightly different way – if not markedly different. The lifting
keel enables you to go into extremely shallow water, and to get the boat out of
the water in extremely shallow water. If you put a trailer in, and lift the
keel up, you can then take the boat in to about 500mm of water, not much more
than knee deep. You’ve then got the trailer as well, so you’d be waist deep in
water with the trailer. So you could get it out of a lake; if you wanted to go
up to Rutland, or Grafham, or any of the major inland waterways, you’d be able
to get the boat in and out of the water fairly easily. That was a big part of
the design project. When we started the project, we didn’t have a clue where
the boat would be operating. So we’ve tried to make it as adaptable and able to
access as many bits of water as possible, without having to use a crane.
What kinds of knowledge do you glean
from your own experiences as a sailor, lived understandings that enable you to
approach the design of a boat?
Well,
you have a trained, embodied experience that you draw on when you design a
boat. I’ve been designing boats for 21 years within this business, and an
entire childhood with boats. It would be hard to say which bit of experience I
use for what; it’s all become a bit of a blur, and it’s all part of the design
mix. But yes, in my opinion if you are going to design boats, you need to know
how to sail. And the other most important thing, particularly with a project
like this – and it is where we are probably a little bit unique - is that I’m
also an apprentice served shipwright as well. So I do know how to build a
wooden boat, and I do know how to construct pretty much anything that we
design. In fact I won’t design anything that I don’t know how to build.
The
really nice thing about working specifically with Mark Covell is that I don’t
think I could have tackled this the way I have without having somebody like him
being the project leader. I’ve known Mark for a long time, and he’s a
tremendous boat builder and a great sailor, an Olympic silver medalist; he
understands about boats. So between us, from a technical point of view, we’ve
really had all the bases covered. And Gary and Gregg have been brilliant from
that point of view, in just allowing us to get on with it.
We’ve
worked really hard on ensuring that as much of the timber that we have received
becomes structural members within the boat. Of course we had no idea what was
going to be donated before we started, or how much – so from that point of view
it was quite a difficult task. And I think Gary and Gregg did a really good job
of managing the donations, really focusing on the artistic aspects of the
project, and letting Mark and I focus on the technical aspects. We’ve supplied
the canvas and Gary and Gregg have worked on the artistic aspects and brought those
other parts together – indeed the major parts, as that’s what it’s all about.
Normally
we would know exactly what everything is going to be built of, and we’ve had to
accept that certain things will be different. We get a particular piece of
wood, and think that it would be great at doing a particular job, although it
might be a little bit heavier than is ideal. When we first designed the boat,
we assumed certain specific gravities for certain materials that we needed in
order to make the boat float and do its job – and then made an allowance within
the structure for the exhibits. We decided that where a donation is on the boat
is irrelevant. It was unpredictable in terms of density - some of it might be
very light, or very heavy, but we knew it was going to be wood. So we knew it
was very unlikely to have a specific gravity greater than 1, in other words
that it was going to sink. There aren’t many woods that sink, there are a few
but not many. And we’re not going to get 40 square metres of lignum vitae! That would be an extremely
unlikely scenario. And if we did, we wouldn’t be putting it on a boat like that
because it’s extremely valuable! So we were able to make certain assumptions.
We were looking at nearly 400 kilos of donations in some way, shape or form –
and I suspect we’ll be somewhere close to that in the end. Obviously when we
designed the boat we had to know what it was going to weigh at the end in order
to get the displacements right and actually get the boat to float correctly.
Is the epoxy process something that
you’ve used before?
Yes,
we use it all the time. Basically what we have is a cored hull – a wooden core
and glass laminates holding the surfaces together, or the donations, or
whatever happens to be in the middle, and that does two things. First, the
glass skins take the load. On a beam, the top and bottom surfaces do the hard
work; and the bit in the middle, as long as it doesn’t crumple or sheer, holds
the two laminates apart – just like an I-beam, a steel RSJ. So that does the
tensile work, and the bit in the middle is what we call the core material, and
that deals with the sheering loads. Wood is a good material in this context; as
long as it keeps the skins at the correct separation and doesn’t sheer, then it
works. And secondly, the glass skins and the epoxy keep the water out. So it’s
two-fold. And then we can choose what we put in the middle, as long it does its
bare essentials, and we’re away. A lot of production boats have balsa wood
cores; that’s quite a normal production technique because it’s light, and also it’s
very good in sheer.
As a material, are there things that
wood allows or enables? In other words, what’s good about wood?
What’s
really good about wood is that it is unidirectional, in that it’s very stiff
down its grain. At the same time it’s not particularly weak across it. It’s not
as good in that respect as some other materials, but it’s stronger one way and
you get a longitudinal stiffness.
The
process is this. First, you put up a bunch of transverse frames – very
precisely cut building moulds – and then you bend the batons around them and
glue them along the edges as you go: what we call edge-glued strip planking.
That then takes on a natural curvature, and the long pieces of wood, the
batons, take up the fair between frames right the way through; so you end up
with a nice smooth, fair baton. You then cover that in glass fibre, flip it over,
remove the inside frames – and now it’s pretty stiff and stable, if a little
bit wobbly. Then you have to fair the surfaces, and then fibreglass the inside.
So you now have two skins either side of a core material in the middle. We then
fill and fair the outside of it, and away we go. It’s a very simple
construction method which we could only really do in wood: because of its
flexibility and strength, and the fact that it’s stiff in the fore and aft
plane. If you were making a fibreglass boat, you’d have to make a full mould
with a perfect surface on it. So the really lovely thing about wood is that you
can form a shape very quickly and inexpensively.
Does the layer of donations on the
hull have a structural function, or is it largely decorative?
Well,
it’s a mixture of both really. We would normally have to reinforce the topsides
for putting fenders along the side. We’ve got 10 mms of donations on the
outside of the core. The core itself is thinner in that area because we have
this material going on the outside. So we have engineered it so that you end up
with something slightly tougher in the topside area, where the donations are
integrated. It is heavier than you would normally build it, because the
donations are there; but those donations definitely provide a structural
component - although as I say it’s not the lightest way of doing it. We
wouldn’t normally choose to build it this way, but because of the nature of the
project it’s a very nice way of doing it.
Like
everything, when you’re engineering something you have to understand the mode;
things have different modes of failure – how possible failure occurs. So, for
example, boats have to be stiff longitudinally because you’ve got a force in
the back stave trying to snap it in half, or athwart-ships (from one side to
the other, at right angles to the keel). Or it has to be made stiff
longitudinally and athwart-ships where the main mast bulkhead is, to take the
rigging loads. On the topside of the hull, do we need the donations for panel stiffness,
to stop the water getting in? Probably not. Do we need it from a longitudinal
stiffness point of view, in that mode? No, we probably don’t. Do we need it from the point of view of
fender impact and toughness in the topside? Yes, we do. So it’s not a
straightforward answer to your question, which is perhaps a little complex than
it seems; but in engineering terms, in certain modes, yes, it is definitely
useful.
Are there any particular problems with
the epoxy system?
In
the old days there used to be certain health problems. There were certain
epoxies that were rather toxic, and as time has gone by they have become
increasingly friendly. An epoxy is a fairly nasty matrix; it’s not something
you’d want to inhale too much. A lot of the stuff is vacuum bagged, which means
that when the resin is laid in, it doesn’t actually produce any fumes per se at any significant levels until
you start to heat it. Obviously it depends on the epoxy. You put a plastic bag
over it, vacuum it all down, and then all the nasty fumes go outside the
factory. So it’s like a closed mould, and it works pretty well. But if it does
get on your skin, it can be fairly nasty; and certain early epoxies were known
to be mildly carcinogenic.
What’s the life expectancy of an epoxy
hull in contact with water?
We
don’t really know. We’ve been going forty or fifty years with epoxies, and we
still don’t know. But to all intents and purposes an epoxy hull should last a
lifetime, certainly.
Is the wood effectively completely
stable within the epoxy?
Yes,
it is. If you use a polyester resin, it does absorb water, at very microscopic
levels, through osmosis; tiny amounts of water are drawn in and wick up the
fibres, and then causes problems. But an epoxy is a pretty perfect barrier that
waterproofs the wood; pretty much 100% it’s sealed, and a wooden core is
protected – unless of course you puncture the skin at any point. An epoxy is a
like a skin, a polythene membrane; but if you puncture that membrane, the water
will pass through and then travel down the fibres of the wood. So you only need
one little pinprick and it can create quite a few problems. Over a period of
time you’ll fill the core up with water. And if you think about a hull being
pushed down into the water, you have a head of pressure, and the water is
trying to push in quite aggressively. However if the laminates are thick enough
it’s not really a problem.
In your role as a designer, you create
a sort of Platonic model, a detailed schematic outline of an ideal, something virtual,
in a set of drawings. And then there’s a handing over of this plan, which is a
kind of map or score, for others to realize as a three-dimensional form. After
this handover, what is the nature of your relationship to what then goes in the
build shed, and to how the journey proposed by that map actually takes shape
materially?
I
pop in and out. Of course there’s a high level of trust; which is why when Mark
approached me I was keen – with lots of others, I probably wouldn’t have taken
it on. Mark’s an absolute perfectionist, he loves doing things really well.
He’s obsessive in the nicest possible way. Passionate might be the best word to
describe him. And I knew the result was going to be good before we started. In
a project like this, when you’re not milling surfaces like you do with a lot of
production moulds, when you’re strip planking there is an element of interpretation;
and the builder does have significant input into how you tackle certain
problems. Mark will give me a quick call and say, can I do it like this? And
I’ll say yes. There are five hundred ways of achieving the same result, and one
that I’ve chosen is based on the fact of our normal approach. But if Mark says,
well actually I’ve got a piece of balustrade here from a Victorian house; and
I’d like to do it this way so that I can use this piece of timber; then there’s
a quick hand calculation to make sure it’s okay, and yes, fantastic, go for it.
So that dialogue is ongoing. I get phone calls from Mark all the time.
So
for example we modified the hog down the centre of the boat - that’s the centre
line structure – with bits of timber from HMS
Victory and from Warrior. We modified the design to be able to incorporate those
specific bits of timber when we got them. Because why would you not use those
timbers under the mast step? Wonderfully dense, strong, stiff pieces of oak
that are several hundred years old, with all of their associated history. It’s
what the projects all about. It’s a little bit heavier than we planned, but
it’s low down in the structure. An extra 10 kilos of weight in the bottom of
the boat, but the incorporation of such materials is the point of the project;
and that’s the fun part – working with these historically and personally laden
materials. With a project like this you need to be flexible, and Mark’s been
superb to work with from that point of view.
We
started with certain constraints, and what we’ve tried to do is build something
that’s going to be fun, fast and exciting at all levels. If you are a complete
beginner, you can still go sailing and enjoy it. If you are an expert, you can
sail it and understand its pedigree. You can look at aspects of the boat and
the project as a whole and say, yes, that’s a good-looking boat, and a fair
reflection of what’s going on. Although it’s not the lightest, there are
features whose genre and styling are those of a modern boat. That’s something
that most people, whether experienced or not experienced, will relate to, and
it’s a really important feature of the design. People have a picture of a boat
having to be that old classic thing with big overhangs, built using overlapped
clinker boards, steam-bent frames and so on. That was the 1940s. This boat will
be launched in 2012, and we wanted to have something that reflected the current
moment. That was something that Mark got hold of very early on, and he helped
steer Gregg and Gary away from that older idea. When Mark came to me as a
designer, he knew the direction we would be coming from – we’re all about
high-performance sailing boats, that’s what we do for a living. Of course the
materials are a little bit different. I’ve done lots of cedar strip boats in the
past, so I’ve got a lot of experience there, but it is about producing a boat
that is going to be appreciated by the general public for what it is.
It
was interesting at the outset that Gregg and Gary weren’t boat specialists, and
I think they have appreciated what it is we do. To the layman, what is modern?
There aren’t so many preconceived ideas, and what we’ve done is focused
everybody’s minds by presenting what is; and it will become abundantly clear
when you see it that it’s not a historical reproduction of something that has
been done years ago. It is fresh, fast, new; it will be fun to sail; it will be
beautifully balanced to steer; everything will be lightly loaded. It’s 2 tonnes
rather than 1.4 tonnes. The structural weight of this boat will be about 700
kilos; if we were using a fabulously light material and all the latest
technology, we could build it at 200 kilos. 400 kilos would be a very nice
middle ground, in carbon. But because we’re using wood we’re 40 or 50 percent
heavier. That’s what The Boat Project
is about, and we were able to shape it towards its current form. That form will
be recognizable, whereas the actual visible impact you get will be quite
different. At a distance you’ll see a modern boat, in the genre of a
high-performance planing hull form; and as you get closer, the donated exhibits
will become more apparent and it will look extraordinary. That will really
catch people’s eyes and make them go ‘wow!’
So a dual layering of the contemporary
and something that, on closer viewing, looks hand-made in an unusual way; a
combination out of which a layered complexity emerges …
Yes,
there’s a second impact. So it’s very much two-fold: modern and artisanal in a
unique way. Visually, it will make a very strong impact; I think it will be
exquisite. The combination of woods in the cuddy, for example, is lovely, and a
lot of skill has gone in to producing that structure. Commercially you would
never be able to justify doing it – and it makes for a completely unique work
of art. That’s what makes it so exciting for me. And there’s another notable
thing for me: in 2008, in the last Olympic Games in Beijing, my cousin won a
silver medal, and with the Games coming to London, our feeling was that somehow
we needed to get involved. We spent two years trying to find a way to do this.
We were looking at support boats for the yacht and dinghy racing as part of the
sailing events, but the funding was cut, budgets were reduced, and things got
tighter and tighter. And we found ourselves in a situation where we weren’t
going to be involved. So when Mark approached us in the summer of 2010 and
asked if we were interested, I pretty much tore his arms off! Or maybe we both
ripped each other’s arms off, because we immediately clicked – and likewise
with Gary and Gregg when we met up a few weeks later; we instantly hit it off,
and were absolutely on the same page. That was very rewarding. So not only is a
really fun boat, but actually it’s a great movement to be involved with. And to
have let the Olympic Games go past and not to be involved would have been a
tragedy for us.
There
are so many aspects to the project, and people will latch on to the aspects
that engage them. You mentioned layers, and this is a very good way of
describing the project. And that’s why it’s so interesting to so many different
groups of people. This boat isn’t just about creating something for sailors;
it’s for everybody. As long as you’re interested in a piece of wood and its
background, the broader context of its story, then there’s something to get
excited about.
Gary and Gregg were both in Totnes at
the time of the build of Pete Goss’s boat Team Phillips, as I was; and there was an enormous community engagement and spirit
around that project, people felt very involved. It feels to me that there’s a
trace of something related in this project. In terms of the kinds of hopes and
wishes that people invest, the possibilities of a new life in a new vessel for
those donated objects, which are like little talismans of continuity, and then collectively
an ongoing interest as the boat takes shape and finally emerges in its finished
form …
Yes,
there is a palpable sense of community around the project. Of course anybody
that has made a donation has had input into the boat itself and is implicated.
They will have a natural affinity for some part of them is integrated inside
this particular project - they are in it. With well over a thousand donations,
that’s a lot of people, just at that first level or layer. Then there are the
artistic aspects of the project, which bring another wide group of people; and
then the sailing aspects, which engage yet another group of people. And
ultimately it’s a bit like an onion with all of the different layers. You start
with a small idea – engineering meets art and sport in a water-based context -
and organically the whole thing grows and attracts different kinds of people. I
know about the sailing aspects and community, and I’m confident that those
people will enjoy it immensely. And I’m very proud to be involved, and honoured
to have been able to create the first bit – the framework – from which the
other elements and layers can build and grow.
Simon Rogers interviewed
by David Williams, Lymington, November 2011. For Simon Rogers' yacht design website, see here
Photo by Gary Winters at the Boat Show, London, January 2012
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