Kenneth_2003 said:
PabloSerna said:
Its a math problem. Most decks are engineered to 3x designed load. So, will it hold up? Hard to know without running some calculations. Here is a snip from something I found online...
The load capacity of a 3-foot #2 grade 44 is 17,426 pounds, and a similar 66 is 20,834 pounds or 16% better. However, an 8-foot 44 supports 6468-pounds and 2339-pounds at 14-feet, while a 66 is 18032 and 10550-pounds respectively or 64% and 78% more load capacity. So, for posts 3-feet and shorter, it's a matter of preference, above 3-feet use 66.
That is for an "empty" deck. Add equipment and if you plan to put a hot tub.. well, you get the idea.
Ok, so a hot tub which would be the heaviest thing you'd probably put up there. Lets say it holds 500 gallons. That's still less than 6000 lbs with the weight of the tub. Good size hottub will still be at least 8ft x 8ft. With his posts on 4 ft centers that load will be across 9 posts. Even if that deck were at your posted 14 ft height he'd be within 3x safety limits.
That's a live load though. Since it's dynamic, you need to multiply by a safety factor. You also need to add in the weight of the deck (more than typical because you need larger/more joists and beams for the tub) and allow for people standing or moving around the hot tub during parties or gatherings because they can be in the outer columns' tributary areas because you design for max load possible, not typical. You're probably in the 225-250 PSF range, which is 5x more than typical decks are designed to handle.
4x4's that close probably have the compressive strength to hold that, but then you also need to consider column to beam connections and how you will make attachments that can support that weight and can support the dynamic lateral loads of 5000 pounds of sloshing water and people in the tub over time. This is a lot of why you want the connection I posted above. With beams on columns the load of the beam is transferred to the top of column and you can bolt to the column so the beam can't slip or walk off. If you just bolt to the side, wood shrink and swell will guarantee that connection loosens over time. Then you get uneven loading, bowed columns, and a problematic deck.
Personally, I'd go 6x4 or 6x6 wherever there is going to be a hot tub, and 6x4 anywhere else with column spacing driven by joist and beam span ratings. 4' OC is kind of overkill and drives up cost and time. If OP's deck is 50'x33', that's 117 columns. With 16" OC 2x6 joists, he could span them at 9' or just 8' to be safe (with no hot tub). At an 8' joist span, he could do an 8' beam span with a double 2x10. That wild reduce his column count to 35ish, depending on final deck size and design. Then the cost comparison is how much extra you spend on larger beans versus how much you save on posts, concrete, and time. Longer beam and joist span means you spend $350-$400 more for beams (250ft of 2-2x10 compared to 450ft of single 2x6 at 4' spacing), but you save roughly $600 on 4x4 posts (assumes you buy an 8' post and use 1/2 per post) and $328 on concrete (80# bag per hole). Plus the time it would have taken to dig another 80 holes. So the beefed up beams and spacing save maybe $600 and a few days of work.
