And the lift manufacturer wants to maximize their market and so they wouldn’t want to require a slab thickness more than absolutely needed.
There's no pay-off to having a slab thicker than one needs. It's just a waste of money.
There are other considerations to a thicker slab that cause problems... For every additional unit of thickness, the reinforcing (mesh, rebar, whatever) is less effective. So, getting a "better" slab isn't as simple as just adding more concrete.
Thickening the slab, locally, can also induce cracking around a lift. (see below)
Just to be clear, I’m not questioning the safety of the lift design with the supplied anchors. Just asking if there is additional safety margin with longer anchors or perhaps I’m missing something that would make it worse (due to bolt spacing). $50 to me for longer anchors if it’s better may be worth the piece of mind.
In general, deeper anchors are not "stronger" but they will allow the slab to resist a greater pull-out force because the stress cones will be larger. Here is a thread with a discussion on those cones:
https://www.garagejournal.com/forum/showthread.php?t=417532&highlight=stress+cone
but...
If the bolt pattern is relatively tight, there is not much advantage using deeper wedge anchors. The pullout strength has to do with the size of the piece of concrete that comes out of the floor if the bolts pull out. And with a tight bolt pattern the pullout cones of individual bolts are already overlapping, so there is only a minor increase in the overall size of the pullout cone.
This is a great point. If one goes deeper for a lift, the stress cones will overlap, which would cancel the benefit from the deeper anchors. It would just be wasted money.
BTW - If a load is so unbalanced that the pull-out forces are larger than designed, than the operator has probably really screwed up.
And epoxy anchor systems are a no win for lift manufacturers . For any permitted installation, even if you plan to do it right you must spend several hundred dollars to hire a special inspector who will watch and make sure you blew the dust out of the holes and used the correct amount of epoxy. And where no permit is required, no manufacturer wants the liability if some knucklehead saves money by using one bolt worth of epoxy for a dozen bolts.
+1 The thread above shows a picture towards the end of how an improperly installed epoxy anchor develops much less strength than a normal anchor.
Where the posts are I had the slab poured thicker...~8" thick. And my concrete is 4000 psi with wire mesh.
This can cause problems for the concrete. At this thickened section, there are greater shrinkage stresses per unit of reinforcing than in the thinner section. Where the two meet, differential stresses build up and cracks can form. (This is why there are no references to this type of pour in the lift instructions.)
Before the lift is installed, I would make sure there is a proper 30 day cure on the concrete, and then wet the floor to see if there are any hairline cracks around this thickened area. (I would also check this again after drilling the anchor holes for the lift.) If there are any cracks in these areas, then the lift may not be safe to use.