Anonymous wrote:
What about a stayed mast?
Howard,
from time to time, I have also been pondering this subject. One thing is how to support a freestanding mast. That may in many cases be solved, somehow. The other challenge is to find some sort of rule-of thumb as for the strength of the mast.
A third question is how to make an automatic sheet-release or sheet-brake device to avoid capsizing or overstressing the mast.
One can quite easily find the max righting moment of a cat by multiplying its displacement with half the beam. However, the resulting righting moment is so far beyond that of a monohull, that it would require an overheavy mast (aluminium), or an over-expensive one (carbon).
Then there is the question of simply staying the mast. There are two arguments against that on a monohull:
· Since the shrouds has to be from the mast top, the shroud angles will be very fine and the unsupported pole (mast) under compression will be very long. In other words, the shrouds will add stress to, rather than relieve it from the mast.
· Shrouds are in the way when we want to square out the sail for downwind sailing.
However, on a wide beam catamaran the shroud base will be so wide that the compression stress may be reduced enough to make it work. A bit serious engineering has to be done, but a cat is a result of serious engineering, anyway. A pair of shrouds, set well forward, and a pair of aft shrouds, set as far aft as is practical, is all that is needed. One may even support the mast at the partners and step to reduce the problem with compression loads (reducing the ‘compression length’).
As for sailing downwind, a cat may just as well be broad-reached instead of running straight before (faster). It may therefore not be such a big disadvantage with those aft shrouds (Btw. forget about running backstays)
As for the matter of making a sheet-release devise. I think the simplest and most reliable would be to make a sort of sheet brake or elastic devise, set up to ease the sheet as the load exceeds a preset limit. This should be easy enough to make and adjust.
From the safe position of my armchair -
cheers,
Arne
Arne, your grasp of nuanced stay and running shroud use tallies with My experience on a beamy and stiff monohull, where reducing mast height and weight aloft was of primary importance to the stability system, because draught was minimal and CG so close to CB that self righting ability depended very much on the rig being able to float and also to rotate very quickly when lifting to vertical.
Reaching a multihull compromise where the rig need not be designed to survive making contact with the water in knock-down, should be helpful in keeping weight down, without being getting overly costly.
Reducing headstay and shroud tension at the same time as allowing some mast flex by using most of Junk rig design elements ( all besides squaring on all points) makes this a possibility.
The ability to rapidly shorten sail and set just enough sail to meet conditions fits, with sailing to avoid heeling( like carrying sail to meet the gusts ) rather than rely on the rig to cope on it's own when over canvassed..... taken to the extreme we then get to the point of it floating when in knockdown and a multi that is light enough to be flipped about and over by the same wind, as well as be too damned expensive - the vicious circle of consequence.
Escape from this circle has been tried using bilateral asymmetry, but still gets caught in the spiral unless water ballast is used, which still bumps up the cost compared to a floating platform that stays down on the surface and hardly heels. or is likely to be blown away.
Such a craft could be rigged with enough flex and give in the rig, to take advantage of Junk design.
Probably starting with transom hung rudders.