My boat has a 30kg Bruce anchor which doesn't work well in many Croatian anchorages, particularly those with weedy stony seabeds. It seems to me that the Bruce is not good at cutting through weed to get a bite in the seabed. On my last boat, I had the same problem and I changed the standard fit Bruce anchor for a Delta which worked excellently in the Balearics where I was then. I want to upgrade the 30kg Bruce on my current boat to a Delta too, in the hope that it works as well in Croatia as it did in the Balearics.
I have tried to get a 32kg Delta in Croatia but it seems that the delivery time would be weeks but I have been offered a 40kg Delta from stock. The problem is that the shank of the 40kg Delta is appreciably deeper than the existing shank of the 30kg Bruce, by about 50mm, and I'm concerned about it getting wedged in the existing closed bow roller
Changing or modifying the bow roller is not an option in Croatia because its an original Ferretti part and I dont think they have stainless steel fabrication facilities locally. One option is to remove the top roller of the closed bow roller assembly. What does the panel think about doing this? I guess the top roller is there to ensure the anchor doesn't jump out when it is stored and to feed the chain through when using the anchor.
One thing is for sure. I've lost confidence in the Bruce and since I plan to do a fair bit of overnight anchoring this season so I want an anchor which works!
I don't think that's a fully correct description of the science, and I for one haven't had bolts screws snapping off as i tighten them. The statement "tighten it too much and it will be very weak" just isn't correct. The nut holding your props on is tighterned onto a stainless steel shaft, just for starters, and Mirabella V's mast is held up by tensioned s/s rod rigging
The issues with s/s are (a) oxygen starved crevice corrosion but I don't think that's under discussion here, and (b) the fact is it is more susceptible to fatigue cracking than mild steel.
Susceptibility to fatigue cracking is an entirely different thing from strength. A failure due to fatigue cracking requires inter alia a combination of a large number of stress cycles and a high enough stess amplitude. I agree that during many nights at anchor you could have many thousands of stress cycles, but the stess amplitude is just tiny and so this is not a case where you'd expect a fatigue crack during the life/duty cycle of the set up. Furthermore, the pre loading of the compnents (by "over tightening") actually reduces the stress amplitude, AOTBE, so reduces fatigue failure. That's why you torque up the cylinder head bolts on a reciprocating engine way way more than is needed to seal the gasket.
Incidentally, you can never really tighten a shackle like that because of the flex in the "U" part
I have s/s anchor, shackle, chain, winch, bolts holding winch to deck, the whole nine yards, and i sleep ok. The chink chink is just the gin glasses in the dishwasher Daka
It''s always interesting to read your engineering evaluations J.