Each object's rating could be (number of victories)/(number of contests entered) * 10. So the rating of the winner goes up a bit and the rating of the loser goes down a bit, according to how many contests they've previously entered.

For something more complicated and less sensitive to the luck of the draw with smaller numbers of trials, I'd suggest http://en.wikipedia.org/wiki/Elo_rating_system, but it's not out of 10. You could rescale everyone's scores so that the top score becomes 10, but then a match could affect *everyone's* rating, not just the rating of the two involved.

It all sort of depends what "reliable" means. Different friends' judgements will not be consistent with respect to each other, and possibly not even consistent over time for the same person, so there's no "real" sorted order for you to sanity-check the rankings against.

On a more abstruse point, Arrow's Impossibility Theorem states some nice properties that you'd like to have in a system that takes individual preferences and combines them to form an aggregated group preference. It then proceeds to prove that they're mutually inconsistent - you can't have them all. Any intuitive idea of a "good" overall rating runs a real risk of being unachievable.