The most-recycled material in the US presently is a battery electrolyte: lead.
Reuse rate is only 68%.
That's a 32% reduction in stock per generation.
High rates of recycling are possible in theory, yes, but have not been demonstrated in practice. The loss rate over n generations for a recovery rate r (percent/100) is r^n. At a 90% recovery rate, you've lost 50% of initial stock in 7 generations.
Unrecycled material isn't "lost"[1]. Those batteries are still in landfills and can be recovered at least as easily as ore can be mined. Economics will fix this for us. Increase the price of lead and at some point it becomes worthwhile to scavenge those landfills for old batteries (or to use alternative battery chemistries, etc...).
[1] Though in a handful of cases it gets dispersed in a way that's very difficult to recover. I mentioned phosphorus in another post: P is being unsustainably pulled out of rocks and put into biomass, where it gets flushed into the oceans. Figuring out a way to get it back out is a far bigger mess than mere cobalt recycling is going to be. But even there economics will save us as fertilizer costs make recovery new techniques worthwhile.
[1] Though in a handful of cases it gets dispersed in a way that's very difficult to recover. I mentioned phosphorus in another post: P is being unsustainably pulled out of rocks and put into biomass, where it gets flushed into the oceans. Figuring out a way to get it back out is a far bigger mess than mere cobalt recycling is going to be. But even there economics will save us as fertilizer costs make recovery new techniques worthwhile.