Salty John
Well-Known Member
All this trig depends on the wire being of the same diameter and breaking strength throughout. It probably isn't.
Tensioning a fixed backstay on a crusier
- Thread starter Skylark
- Start date
All this trig depends on the wire being of the same diameter and breaking strength throughout. It probably isn't.
ffiill
Well-Known Member
Questions about tensioning wires always intrigue me.
My Dad as part of his RAF training WW2 was taught how to rig biplanes and he was told that the struts take the load wheras the wires keep the system in balance.
In other words the rigging should be tight but not pre stressed such that when the mast tries to move in any particular direction the wires then become under tension and opposing wires become slack.
I have never quite understood the point of pretensioning the back stay as when the mast is loaded an undue amount of energy is being transmitted down the mast which has then to be dealt with by the keel.
If the keel is weak then the mast at best breaks it and at worst goes through the bottom of the boat.
My Dad as part of his RAF training WW2 was taught how to rig biplanes and he was told that the struts take the load wheras the wires keep the system in balance.
In other words the rigging should be tight but not pre stressed such that when the mast tries to move in any particular direction the wires then become under tension and opposing wires become slack.
I have never quite understood the point of pretensioning the back stay as when the mast is loaded an undue amount of energy is being transmitted down the mast which has then to be dealt with by the keel.
If the keel is weak then the mast at best breaks it and at worst goes through the bottom of the boat.
GHA
Well-Known Member
Nope, caught up, /L converts from a length to a factor which you can use to convert the load down L into the vertical component, I should know better
VicS
Well-Known Member
The diameter of the wire, or its breaking strain, does not come into the trigonometry.
The trig , (or Pythagoras used by GHA and bignick) relates the tension in the two lower sections to the tension in the single upper section.
If the OP knows what tension he requires in the upper section either of the two methods will allow him to calculate the tension needed in the lower sections to give that required tension.
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bignick
Well-Known Member
Exactly. Just be warned though, don't start tensioning your backstay to a fixed percentage of its breaking strain though as it could be way too much. Selden used to have a good starter guide to doing a "dock tune"? I'll see if I can find it for you.
// edit
http://www.riggingandsails.com/pdf/selden-tuning.pdf
Even with a permanent fixed wire backstay it's possible to add adjustment. It's easier to visualise than describe:-
http://www.harken.co.uk/content.aspx?id=3896
See the 8:1 split backstay system halfway down.
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VicS
Well-Known Member
Should be in their "Hints and Advice" pdf http://www.seldenmast.com/_download.cfm?id=6740&download=2956550&filename=595-540-E.pdf
alan_d
Well-Known Member
I'm glad mine wasn't too high to reach, although I hadn't realised that the alternative to standing on the pushpit was trigonometry (which might have been safer).
Salty John
Well-Known Member
All the trig and Pythagoras in the world will not answer the OP's question:
"Given the Y form, if I tension the two lower sections to a nominal 10%, what will that give to the single section? The single section is too high to reach so I will not be able to measure it".
Unless the wire diameter/breaking strain is the same in all parts of the backstay. If the split legs are of smaller diameter than the main part of the stay, which is often the case, then the OP will need to know the breaking strain of the two wire sizes in order calculate the appropriate setting.
Personally, I'd get a ladder or other altitude enabling device and set the tension in the main part of the backstay to about 15% of its breaking strain.
"Given the Y form, if I tension the two lower sections to a nominal 10%, what will that give to the single section? The single section is too high to reach so I will not be able to measure it".
Unless the wire diameter/breaking strain is the same in all parts of the backstay. If the split legs are of smaller diameter than the main part of the stay, which is often the case, then the OP will need to know the breaking strain of the two wire sizes in order calculate the appropriate setting.
Personally, I'd get a ladder or other altitude enabling device and set the tension in the main part of the backstay to about 15% of its breaking strain.
VicS
Well-Known Member
Of course it will, and much more safely than climbing a precariously balanced ladder on the back of a boat! Some people wont/cant climb ladders at all.
Suppose the angle between the lower wires is 40° and he tensions them to 5kN
The tension in the upper section will be = 2 x 5 x cos20 = 9.4 kN
All he has to do is look up the breaking strain for the wire diameters he has and use the actual figures for the angle and the tension applied to the lower sections.
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cliff
Well-Known Member
I just tension mine until the bog door jams then slacken off until the bog door opens again - job done 
bignick
Well-Known Member
The amount of backstay tension required will be dependent upon the spreaders' sweep angle. If its substantial (like my boat) then the shroud tension will generate most of the forestay tension. If its mild then the backstay is used to generate forestay tension.
I still much prefer an adjustable backstay - it allows you to control forestay sag as the wind increases without leaving the rig permanently wound up to the max.