FAQ
What is the difference between cement and concrete?
What does it mean to "cure" concrete?
What is air-entrained concrete?
What is the difference between gravel and crushed stone?
What is the best material for my project?
What is the difference
between cement and concrete?
According to the Portland Cement Association, although the terms
cement and concrete often are used
interchangeably, cement is actually an ingredient of concrete.
Concrete is basically a mixture of aggregates and paste. The
aggregates are sand and gravel or crushed stone; the paste is water
and portland cement. Concrete gets stronger as it gets older.
Portland cement is not a brand name, but the generic term for the
type of cement used in virtually all concrete, just as stainless is
a type of steel and sterling a type of silver. Cement comprises
from 10 to 15 percent of the concrete mix, by volume. Through a
process called hydration, the cement and water harden and bind the
aggregates into a rocklike mass. This hardening process continues
for years, meaning that concrete gets stronger as it gets
older.
What does it mean to "cure"
concrete?
Curing is one of the most important steps in concrete construction,
because proper curing greatly increases concrete strength and
durability. Concrete hardens as a result of hydration, the chemical
reaction between cement and water. However, hydration occurs only
if water is available and if the concrete's temperature stays
within a suitable range. During the curing period-from five to
seven days after placement for conventional concrete-the concrete
surface needs to be kept moist to permit the hydration process. New
concrete can be wet with soaking hoses, sprinklers, or covered with
wet burlap, or it can be coated with commercially available curing
compounds, which seal in moisture.
Why does concrete
crack?
Concrete, like all other materials, will change in volume slightly
when it dries. In typical concrete this change amounts to about 500
millionths. Translated into dimensions, this is about 1/16 of an
inch in 10 feet (0.4 cm in 3 meters). The reason that contractors
put joints in concrete pavements and floors is to allow the
concrete to crack in a neat, straight line at the joint when the
volume of the concrete changes due to shrinkage.
(Source: Portland Cement Association)
What is air-entrained
concrete?
Air-Entraining Admixture (AEA) generates an air-void system for
increased protection for exterior concrete against damage from
freezing, thawing, or severe weather.
What are
admixtures?
Chemical admixtures are the ingredients in concrete other than
portland cement, water, and aggregate that are added to the mix
immediately before or during mixing. Dolese offers the mixes with
the following additives:
Type A Water Reducing Admixtures (WRA)
Type A water reducing admixtures are added to concrete to reduce the water-cement ratio or to improve the workability of concrete without changing the water-cement ratio. Water reducers typically decrease water content by 5 to 10 percent.
Mid-Range Water Reducing Admixtures (MRWRA)
Mid-range water reducing admixtures can be used in a variety of concrete mixtures because of dosage flexibility. Particularly suited for flatwork applications, mid-range water reducers contain ingredients that improve finishability without significantly affecting the time of setting. With up to 20 percent water reduction possible, this multi-purpose product can be a real benefit to your project.High-Range Water Reducing Admixtures (HRWRA)
Also known as superplasticizer, high-range water reducers provide flowing concrete with slumps of 8 inches and higher. Concrete with very low water-cementitious ratios can be made while maintaining workability, minimizing bleed water, and controlling segregation. Most engineering qualities of concrete are enhanced by reducing water up to 40 percent. Normal doses of high-range water reducer can help save time and money through improved production and reduced labor. Use high-range water reducer anywhere increased plasticity is desired.Corrosion Inhibitors
Two different products are available to help protect reinforcing steel by reducing the rate at which chloride and moisture enter the concrete-: Product A and Product B. These additives can extend the service life of reinforced concrete structures. Parking garages, bridge decks, or other applications requiring corrosion protection can benefit from the use of corrosion inhibitors.Shrinkage Reducing Admixture (SRA)
Shrinkage reducing admixtures are specifically developed to reduce drying shrinkage and the potential for subsequent cracking. When concrete mixtures with SRA are drying, shrinkage-cracking and micro-cracking are reduced and water tightness and durability are improved, as well as aesthetics.Mineral Admixtures
Mineral Admixtures in finely divided forms are added to supplement or as a partial replacement of the cement in concrete. These products combine with by-products of portland cement's hydration process and form additional cementitious compounds. Extensive studies of both long- and short- term properties performed on these materials show that they can improve the desirable qualities of concrete.Fly Ash CFA/FFA
Due to the spherical nature of fly ash, it acts like tiny ball bearings, lubricating the concrete, and thus allowing lower water contents for a given slump. All the benefits of less water content such as increased strength, durability, etc., are realized when using fly ash. Segregation, bleeding, and heat from hydration are reduced. Pumping, finishability, and sometimes alkali-aggregate reactivity and sulphate resistance are improved through the use of fly ash. Normal cement replacement is 15 percent to 25 percent.Fibers
Synthetic Fibers
Synthetic fiber reinforcement inhibits the formation of plastic shrinkage cracks by providing an internal support system when concrete is most vulnerable to cracking. Literally millions of small polypropylene fibers are integrally mixed, providing reinforcement throughout the entire concrete section. Synthetic fiber provides an alternative to small gauge wire mesh and provides impressive improvements in permeability, impact resistance, and abrasion resistance.Steel Fibers
Steel fibers can be used to replace rebar in certain applications and because they come premixed in concrete, valuable time can be saved. Steel fiber enhances concrete's flexural and shear strength, impact resistance and ductility. Steel fibers inhibit cracks in concrete, and are often requested for jobs requiring more durability.Blends
A blend of steel and synthetic fibers may be used to gain the benefits of both.Color
Pigments may be added to concrete to produce architectural effects. The pigment is added as a percentage of the cement to produce many different colors. For cleaner, brighter colors, pigment can be used with white cement instead of the normal gray variety. Many factors such as temperature, finishing operations, added water, and curing, to name a few, affect the final color so no guarantee of final product can be made; however, with proper care a beautiful effect can be obtained.
Others
- High density concrete
- Shotcrete
- Pervious concrete
- Polymer modified concrete
- Lightweight concrete
- Exposed Aggregate
- Backfill Material CLSM
- High early strength
- Mass concrete
What is
aggregate?
As it relates to our industry, the word aggregate refers
to any combination of sand, gravel, or crushed stone in its natural
or processed state.
What is the
difference between gravel and crushed stone?
Technically, gravel is the material mined from a creek or river bed
and consists of rounded rocks that have become smooth over many
years of rolling together in the stream of water.
However, "gravel" has become a slang term for the material on any
rock road, parking lot, or driveway. It is extremely common for a
customer to ask us for some "gravel for my driveway," when most
likely they probably need a crushed stone product such as Crusher
Run.
What is the
best material for my project?
Every project is different and consideration should be given to the
general condition of the construction site, drainage, and use. Some
basic "rules of thumb" apply.
While we produce many different sizes of crushed stone, these
products can be categorized in two groups. One group is materials
that are clean and have little or no "fines" or smaller rock in
them. The other group consists of materials that do have smaller
particles in them down to and including dust.
Clean rock is what is used to make concrete, chip seal a road, or
put in a lateral line.
Materials that include fines are commonly referred to as base
materials and are the best for a road, parking lot, or driveway
project.
The reason is the fines in the product act as a binder that holds
the rock together and makes a compacted sturdy base. A clean
material lacks that binder and will not compact.
Some specific materials and their most common applications are
listed below:
Clean Rock
| Product Name | Common Application |
| 3/8" #2 Cover Chips, 5/8" #3 Cover Chips | Chip seal county roads |
| 1" #67, 1 1/2" #57 | Ready-mixed concrete |
| 1 1/2" Coarse Stone | Lateral lines, septic tanks |
| 3", 4", 6" Surge | Construction entrances, fill boggy areas |
| Riprap | Large stone used for erosion control |
Base Materials
| Product Name | Common Application |
Screenings |
Non-specification material for walking paths, light traffic |
Crusher Run |
Non-specification material for roads and parking lots |
| 1 1/2" ODOT Base Type A | State specification base material |
Sand
| Product Name | Characteristic | Common Application |
Concrete Sand |
Clean, washed coarse sand that meets ASTM C33 specifications | Mixing in concrete |
Masonry Sand |
Clean, washed, fine sand (our finest sand) |
Mixing into grout to lay bricks |
| Screened Fill Sand | Clean washed, fine sand | Standard bedding material, volleyball courts, play sand |
| Unscreened Fill Sand | Unwashed fine sand | Filling holes |
| Dolese Special Sand | A finer version of concrete sand | Mixing in concrete |
How much aggregate
material do I need?
The formula for determining the quantity required for your project
is as follows:
Length x Width x Depth (in feet) ÷ 27 = Cubic Yards
We then multiply the number of cubic yards by the conversion
factor
for tons per cubic yard.
An example would go something like this:
"My driveway is 100 feet long and 10 feet wide, and I would
like to have 4" of rock on it after it is compacted."
100 feet long x 10 feet wide = 1,000 square feet
1,000 square feet x 4" thick (4" = 0.33 of 1 foot)
1000 x 0.33 = 330 cubic feet
330 cubic feet ÷ 27 cubic feet per cubic yard = 12.2 cubic yards
12.2 cubic yards x 1.8 tons per cubic yard = 22 tons
Following are some "rules of thumb" for figuring quantities:
Thickness
|
Depth
|
Percentage of Feet
|
|
1"
|
0.08
|
|
2"
|
0.17
|
|
3"
|
0.25
|
|
4"
|
0.33
|
|
5"
|
0.42
|
|
6"
|
0.50
|
|
7"
|
0.58
|
|
8"
|
0.67
|
|
9"
|
0.75
|
|
10"
|
0.83
|
|
11"
|
0.92
|
|
12"
|
1.0
|
Commonly Used Conversion Factors (tons per cubic
yard)
- Screenings, 1 1/2" Crusher Run
1.35 loose weight
1.80 compacted
- Chips, 1 1/2" #57, Coarse Materials, Sand
1.25 loose weight
*Note: This material will not compact significantly
- Fill Sand
1.25 loose weight
- Concrete Sand
1.25 loose weight
Does Dolese
deliver?
Yes we do. We have three methods of delivering materials to our
customers.
For shipments between 1 ton and 15 tons, our end dump "bobtail"
trucks will deliver the material. Bobtail trucks have the ability
to maneuver easily in almost every construction site and they can
also spread the material out a little bit, traveling as they
dump.
For shipments of 25 tons or more, we ship by end-dump semi-trailer
trucks. These large 18 wheel trucks haul 25 tons per load. End dump
semi-truck delivery requires that the jobsite has adequate access,
a level place to dump, and adequate clearance from trees or high
line wires in close proximity. End-dump semi-trailer trucks cannot
spread material; they dump the load in one pile.
Even though you need more than 25 tons, your jobsite may require
bobtail truck deliveries because of site or access restrictions. We
can check that out for you.
For the larger construction projects, we can ship our aggregate
materials to you in railroad cars from our facilities. Each
railroad car has a capacity of 100 tons.