Long-winded story here. Ask anybody. The best oars for a drift boat are made by Sawyer, out of Gold Hill, Oregon. They have many models, from HEAVY solid ash oars to nice, light composite (half ash, half carbon fiber), all of which sell for $350 per oar in the 9' length I need. That's $700 ($850 if you count quality oarlocks and accessories) for non motorized propulsion. That's more than boat materials. I recognize that it's not likely that I can beat the quality of their oars, but I have time and have been spending that rather than money wherever possible to reduce the cost of this project. So I guess I'll try my hand at carving some oars. I can always go back and spend the money on good oars later when these don't work out.
The three quick decisions I made were 1) pine 2) 8' and 3) shoal-ended. All three are counter to currently accepted ideas on drift boat oars.
I have made pine kayak paddles much thinner than these oars and they have yielded a long service life. And pine is much easier to carve that ash. And lighter. The right finish can harden the outer shell of wood so that it will wear quite well. Besides, I'm just trying to see if I can get the shape right.
I chose 8' because. Gary (Max) said 9 1/2' I calculated 8 1/2'. We decided to compromise at 9'.
Here is the drawing I used to calculate the 8 1/2' length. It's drawn to a scale of one large square = 2'. That means that the oarsman must put the handles up and down 8 to 10" on each stroke. That seams little enough. There should also be an optimum ratio of inner to outer loom (inner loom is between the handle and the oarlock). I'll check the book on oars I read (yes, I'm so anal about stuff that I read a treatise on oars and rowing prior to selecting the oars for this boat).
This is my entire boating library (except for the jazz fake books on the left). It includes books on designs, construction methods, navigation, and even places to go.
And here is my collection of Woodenboat magazines -- every issue since 1992. And my airplane library is much worse.
The oar book (Oars for Pleasure Rowing, Andrew B. Steever, 1993) did say that you need different oars for different conditions (and different rowers, but more on that later). Windy days require short oars with small blades, and easy days can allow longer/larger. I figured I'd make the windy day oars first, which worked nicely with the pine because they should shoulder less load that longer ones and so be made from weaker material.
Shoal-ended. That was just a whim. On Saturday I went down the Palouse River in a canoe (
http://bzadvents.blogspot.com/2016/01/canoeing-palouse-river.html?m=1)
and thought "wouldn't this be fun in a drift boat?" Well, the Palouse River, even at near flood stage as it is now due to rain and much melting snow, is barely 20 yards wide and lots skinnier than that in places. So going to 16' span oars would be better than 18'. And it's shallow and rocky in many places. Hence the shoal-end oars which are really supposed to do two things, the most important of which is balancing the blade in the water on either side of the loom centerline no matter how deep it is in the water. This prevents the oar spinning in the lock. Here's how I tried to achieve this. I'd done it well before on kayak paddles, but I didn't much like my result in this case. Notice the diagonal lines on the pattern. Those are an estimate of water lines at various oar depths based on the angle of the oar in the water (shorter oars have higher angles). Just make sure that each diagonal line extends the same length on both sides of center. I don't like this pattern because I made it a bit too club footed in an attempt to get more blade in the water at shoal draft. In hindsight I think this is a bad idea. Plus if you're really worried about imbalance, twisting oars, you can get a collar that has a tab on the top that will ensure the oar always stays right side up in the oarlock. So this whole balance/shoal thine is probably a waste.
Given all those quick decisions described at length above, here is the oar blank all glued up and clamped. The loom (the middle part of the oar) has to be round-ish and about 2 1/4" at the oar lock (known as "the button" in the old literature). And that includes the chafe sleeve that extends at least 6" either side of the button. This can be made of leather or wound rope. To get the loom to sufficient diameter, I glued up three pieces of pine, the center of which has the actual blade. You can cut all this from one 1" X 10" piece of pine, which is the only size board that was reasonably clear of knots at the building supply. And that's the other reason I went with pine. $20 in pine for both oars. Ash would have cost $80 plus for each, mostly because there were no boards of suitable size.
I'm amazed you've read this whole entry. A lot of thinking goes into oars. Look at it this way. When you buy a bike, you get one sized for you and then you have it adjusted to fit you. Think how inefficient it would be for a grown man to ride a 15" frame, not to mention how foolish he would look. The same is true not only for various-sized boats, but also for each different human in that boat.
