Estimate required concrete volume per sq. ft. of slab. Sponsored Links. Required concrete is in general calculated in cubic yards (cy). v = l w t (1) where. v = required concrete (cy, cu. yards) l = slab length (ft) w = slab width (ft)
Cost to Install Pea Gravel. For a basic project in zip code 47474 with 500 square feet, the cost to Install Pea Gravel starts at per square foot*. Actual costs will .
Mar 29, 2019· Often, dry mix will have information on the bag indicating the "wet" weight or volume each bag produces. Concrete weighs about 4000 pounds per cubic yard (2400 kg per cubic meter). So, if you need 2 cubic yards ( cubic meters) of concrete, then you need (2 * 4000) or 8000 pounds, or ( * 2400) or 3672 kg of concrete.
Jul 16, 2012· (20'x40') = 800sqft / 80 = 10 Cu Yards of concrete! If you are pouring a 6" thick slab: Multiply width by length and divide the resulting number by the constant (50).
Gravel Calculator Complete your next project with ease. Adding gravel to a home landscaping or construction project is a great way to create texture and dimension. For an inexperienced gravel and stone user, predicting the proper amount for your project can be intimidating. Use our gravel calculator to simplify the process.
Concrete slab cost. This calculator makes working the cost of a concrete slab easy once you know how much concrete you need (in bags) and how many slabs you'll produce out of it, simply provide the price of the bag and you'll receive the concrete slab cost, a cost to pave your desired area, cost per unit of volume and the total cost of the material you need.
Washed Gravel tons (2,700 lb.) per cubic yard. Washed Limestone tons (2,400 lb.) per cubic yard. Limestone Base tons (2,700 lb.) per cubic yard. Please enter the measurements below and press "Calculate" to receive the approximate tons of flagstone needed for the specified area.
Manually calculate concrete amounts in cubic yards for square or rectangular areas by multiplying the length by the width by the depth and dividing by 27. Convert all measurements to the units of feet before calculating. Multiply the total cubic yards by to allow 5 percent for errors. To convert inches to feet, divide the number of inches by 12.
Yards to Tons Conversion . Sands. Plaster Sand. Masonry Sand. Concrete Sand. Gas Sand. NV Power Sand. Reject Sand. Silt. Landscape Sand . Gravel. Type II. Pit Run. 3 ...
materials calculator Rock Mulch More is happy to help you determine the amount of landscaping or aggregate supplies you will need for your project. If you're wondering whether a yard of topsoil or mushroom compost will be enough, or how many tons of 57 limestone gravel you'll need to cover your driveway, we have the answer.
Get the rock, sand, and gravel products you need for your landscaping or contracting project. We carry many types of landscape materials including sand, gravel, crushed rock, washed rock, quarry rock, and fill materials. We also offer a wide variety of recycled materials such as recycled concrete and asphalt.
One Cubic Yard = aprox 2300 lbs ( soils ) One Cubic Yard = aprox 3500 lbs ( sand / gravel ) Area calculation = L x W x D divided by 27 = Cubic yards x = tons. SEE our sand gravel calculator for easy quantity estimation "Prices subject to change Current market pricing may override Internet price list"
These concrete calculators are the best way to get an idea of the amount of concrete that a project might need. You can get information in feet, inches, or yards. This is one of the most robust concrete calculators on the market. We have a concrete volume calculator, block wall .
Concrete Bags. Regular concrete mix sold at lumber yards and home centers comes in different sized bags ranging from 40 to 80 pounds. An 80pound bag yields approximately cubic feet of concrete. 60pound bags yield cubic feet and 40pound bags just cubic feet.
Type in inches and feet of your project and calculate the estimated amount of Gravel in cubic yards, cubic feet and Tons, that your need for your project. The Density of 2B Gravel: 2,410 lb/yd³ or .
Lawn s are becoming more and more popular. Finding ways to decrease the amount of grass in the yard .
Use this calculator to estimate the quantity of Construction Aggregates needed for your particular job, based on width, length, thickness, and product density.
The concrete density varies depending on the amount and density of the aggregate, how much air is entrapped or purposely entrained, the cement concentration, and the maximum size of aggregate used. Lightweight concrete has a density of 115 lbs. per square foot.
There are several different types of material you can make your gravel driveway with, so the cost per square foot can range from to 2. The choices are typically priced by the cubic yard or per ton. Plain pea gravel and crushed clamshells are each priced at about 40 per cubic yard and 50 per ton.
Concrete Calculator. The Concrete Calculator estimates the volume and weight of concrete necessary to cover a given area. It also estimates the number of bags of concrete necessary based on standard 60 and 80– pound bags of concrete. Purchasing slightly more concrete than the estimated result can reduce the probability of having insufficient concrete.
One cubic yard of concrete will cover an area of 8 feet X 10 feet with a thickness of 4 inches. When you increase thickness to 6 inches, one cubic yard of concrete covers an area of 52 square feet and 65 square feet with a thickness of 5 inches.
200*20*8 = 32000 cubic feet. Convert to cubic yards: 32000/27 = 1185 cubic yards. Assume you are using dry gravel with a swell percentage of 15% and a shrink percentage of 7%. Plug those values in to the calculator and it will tell you that the compaction factor = Multiply the 1185 cubic yards by 1185 * = 1508.
Then click the calculate button to calculate the number of cubic yards you will need. For bark or mulch, a nice thick depth would be 3 to 4 inches. If you want to cover an area with gravel, 1 to 2 inches should be sufficient depending on the size of the gravel.
The Role of Aggregate in Concrete. Aggregates comprise as much as 60% to 80% of a typical concrete mix, so they must be properly selected to be durable, blended for optimum efficiency, and properly controlled to produce consistent concrete strength, workability, finishability, and durability (Photo 1).