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I forget which one said, “regardless of the type of fastener, no fastener should be within 2” of the end of the board. So a 12” wide board would have 8” of available space for fasteners. This because the board needs space on both sides of each fastener to prevent the board from blowing out.
To me, the tests made more sense for the RTA industry than the kitchen cabinet industry. Most cabinets are fastened to the wall and the wall becomes part of the structure greatly improving resistance to racking. Ready to Assemble Furniture is generally free-standing and racking strength would be essential.
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There are two base approaches to a structure design:
A) Component + Joints /a gravity-aligned compound assembly basically/
- generally the joint is the purposely weak point, this means there are major stresses at the joint location, necessitating compensation by leveraging the elasticity of the component /like the 2" mentioned/
B) Single-structure /a single structural element, even if originally made from components, gravity-independent mostly/
- here the joints are stronger or comparable to the strength of the material they attach to, this means there are no major stresses concentrated at the joints, the material stressing is spread around the structure and is defined by geometry, not joint locations.
When you glue stuff with /many/ dowels, you create a single-structure piece. At that point it is irrelevant if the dowels /dominoes/ are 1/4" from the edge or 1". To the contrary, having them 2" out is
undesirable as those two inches of shelf are then "unsupported" which you definitely want to avoid in a single-structure piece as it becomes the weak point.
Long story short, one cannot really transfer RTA techniques which are universally of the compound assembly type to single-structure designs and vice versa. Some
techniques technologies are applicable to both, but e.g. a free-floating dowel used in RTA is not to be confused with a glued dowel. Two completely different joints.
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ADD:
One thing to add. Those "tests" published by the various "associations" are PURPOSELY made to mislead the audience. Their purpose is NOT to test anything but to convince /uninformed/ public on "how good they are making the furniture". E.g. that dry dado "joint" was included in the "test"
only to create FUD and make the public think a custom-furniture using dadoes is inferior to "proper" industrial made one. Its inclusion is a dead giveaway it is no test but a false advert made up by marketing specialists. No I am not joking. That is the /false/ message a non-engineer takes from such "tests".
These test get commissioned after some study finds why people mistrust your product. Based on that there is a contract given out to make an "education material" to "educate" the customers in the direction you want. Such a "test" needs to be reasonably trustworthy, so often proper scientific methods are used so even the more-technical but non-involved customers cannot "attack" the test itself. The lie is not in the method to test, it is in
what is being tested. Imagine if a non-tech wife is presented with such a "test" along a woodworking husband. The husband will be unable to convince her the test is bull on merit, even if he immediately notices that(!). She may defer to him, but would
still think "the scientists" are right.
Basically, a PsyOp. Given even some folks here fell for it, discussing it seriously, a pretty effective one at that.
