Considering 2 bars with identical properties then yes, but the way something to the 4th power comes out, it makes a huge difference compared to what you might think. 29/28 or instance is a diameter difference of about 3%, but when you work out 14.5mm^4/14mm^4, you get a ratio of about 1.15, a 15% difference. Point is a 1mm change in bar diameter makes a drastic difference in the flexural rigidity (D=EI=(Young's Modulus, 200GPa for generic steel)*(pi/4*r^4)). So a 27mm deadlift bar vs a 29mm power bar has a massive 33% relative difference if you calculate the ratio. That's easily enough to let plates sag on the ground while you gain an inch or so of distance before plates break the floor with a deadlift bar.
And I understand that radius and diameter don't matter, I'm just trying to get into Rip's bottom 3% lol