Deflection testing Double Sides part two:
Since posting the first thread "Double Sides" … the facts revealed, I have squeezed in a few more tests based on questions that arose in the first thread. Since it was a rather lengthy thread I thought I would begin a new thread to discuss the second round of tests.
I prepared several smaller sample coupons, to reduce the time and materials on my end. The numbers are not comparable to the first test since it was a much large piece but the results will hopefully shed new light on some of your previous questions. Three different wood species were used in this round, Maple, Cherry and Black Walnut. Since the previous test only considered the laminating effect on an open pored wood (walnut) this test proved to be interesting to see what affect the glue would have on closed pore woods. There were some Cherry and (hard) Maple cut offs in my scrap bin so these became the new test samples. All of the wood used was aged and dry so moisture should not be a factor in the results. All of the woods used were successive cuts off of the same billets.
All of the samples were cut to the exact same width and length and then thickness sanded to either .090" or .045" thickness. The first measurements were on the .090" solid pieces that were not laminated. The next measurements were on the .045" samples. Then another deflection measurement was taken by stacking two .045" pieces together (with no glue between them) and measuring how much they deflected. Each of these pieces was success cuts from the same billet with the grain oriented as it came from the billet. All of the tests were done using the same weight and laying the pieces across two lengths of inverted angle iron. The angle was used to try to eliminate as much surface resistance as possible.
The last measurement was taken after the [same] sets of .045" samples were laminated together using the binding press pictured below.
The adhesive was allowed to cure for 24 hours.
There is a lot of data to look at below but it is quite apparent that there is a significant gain in the overall stiffness of the laminated pieces of wood, compared to a solid piece of the same thickness, regardless of the species. Unfortunately the sample pieces are too small to measure any changes in cross grain stiffness but there is an increase but I guess you will have to take my word for it or perform your own tests
Sample Thickness - Deflection
Maple 1 .090" .038"
Maple 2 .090" .039"
Maple 3 .090" .041"
Maple 4. 090" .040"
Maple 5 .045" .114"
Maple 6 .045" .114"
Maple 7 .045" .111"
Maple 8 .045" .119"
Maple 5&6 .090" dry .056"
Maple 6&7 .090" dry .048"
[COLOR="Red"]Maple 5&6 .090" glued .014"
Maple 6&7 .090" glued .018"[/COLOR]
Sample Thickness - Deflection
Cherry 1 .090" .063"
Cherry 2 .090" .067"
Cherry 3 .090" .065"
Cherry 4 .090" .065"
Cherry 5 .045" .162"
Cherry 6 .045" .188"
Cherry 7 .045" .163"
Cherry 8 .045" .171"
Cherry 9 .045" .181"
Cherry 10 .045" .168"
Cherry 11 .045" .170"
Cherry 12 .045" .169"
Cherry 5/6 dry .088"
Cherry 7/8 dry .075"
Cherry 9/10 dry .076"
Cherry 11/12 dry .086"
[COLOR="red"]Cherry 5/6 glued .023"
Cherry 7/8 glued .020"
Cherry 9/10 glued .021"
Cherry 11/12 glued .022"[/COLOR]
Sample Thickness - Deflection
Walnut 1 .090" .060"
Walnut 2 .090" .058"
Walnut 3 .090" .061"
Walnut 4 .090" .059"
Walnut 5 .045" .159"
Walnut 6 .045" .161"
Walnut 7 .045" .174"
Walnut 8 .045" .171"
Walnut 9 .045" .168"
Walnut 10 .045" .164"
Walnut 11 .045" .164"
Walnut 12 .045" .169"
Walnut 5/6 dry .092"
Walnut 7/8 dry .091"
Walnut 9/10 dry .087"
Walnut 11/12 dry .081"
[COLOR="red"]Walnut 5/6 glued .019"
Walnut 7/8 glued .021"
Walnut 9/10 glued .022"
Walnut 11/12 glued .021"[/COLOR]
We have to make a quick trip to Nashville in the morning, to deliver a guitar
so I will be away from the computer for a few days. I will try to answer any questions you may have when we return on Saturday.
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