What are the Types of Aggregate materials used in construction?
Posted by: | CommentsQ- What are the types of Aggregate materials used in the building and construction Industry?
A-Construction aggregate, or simply “aggregate”, is a broad category of coarse particulate material used in construction, including sand, gravel, crushed stone , slag, and recycled concrete . Aggregates are a component of composite materials such as concrete and asphalt concrete; the aggregate serves as reinforcement to add strength to the overall composite material. Aggregates are also used as base material under foundations, roads, and railroads.The American Society for Testing and Materials publishes an exhaustive listing of specifications for various construction aggregate products, which, by their individual design, are suitable for specific construction purposes. These products include specific types of coarse and fine aggregate designed for such uses as additives to asphalt and concrete mixes, as well as other construction uses. State transportation departments further refine aggregate material specifications in order to tailor aggregate use to the needs and available supply in their particular locations. Sources for these basic materials can be grouped into three main areas:
Mining of mineral aggregate deposits, including sand, gravel and stone;
Use of waste slag from the manufacture of iron and steel;
Recycling of concrete , which is itself chiefly manufactured from mineral aggregates.
In addition, there are some (minor) materials that are used as specialty lightweight aggregates: clay, pumice, perlite, and vermiculite.
Defined by Wikipedia.com
What are the types of Sand used in construction?
Posted by: | CommentsQ-What are the different types of Sand?
A-Sand is a granular material made up of fine mineral particles. It is a naturally occurring, finely divided rock. Sand comprises particles, or granules, ranging in diameter from 0.0625 (or 1⁄16 mm) to 2 millimeters. An individual particle in this range size is termed a sand grain. The next smaller size class in geology is silt: particles smaller than 0.0625 mm down to 0.004 mm in diameter. The next larger size class above sand is gravel, with particles ranging from 2 mm up to 64 mm (see particle size for standards in use). Sand feels gritty when rubbed between the fingers (silt, by comparison, feels like flour).
Sand is commonly divided into five sub-categories based on size;
- very fine sand (1/16 – 1/8 mm diameter)
- fine sand (1/8 mm – 1/4 mm)
- medium sand (1/4 mm – 1/2 mm)
- coarse sand (1/2 mm – 1 mm)
- very coarse sand (1 mm – 2 mm)
These sizes are based on the Φ sediment size scale, where size in Φ = -log base 2 of size in mm. On this scale, for sand the value of Φ varies from -1 to +4, with the divisions between sub-categories at whole numbers.
Uses of sand:
- Concrete Sand is often a principal component of concrete.
- Molding Sand, also known as foundry sand, is moistened or oiled and then shaped into molds for sand casting. This type of sand must be able to withstand high temperatures and pressure, allow gases to escape, have a uniform, small grain size and be non-reactive with metals.
- Sand It is the principal component in glass manufacturing.
- Graded sand is used as an abrasive in sandblasting and is also used in media filters for filtering water.
- Brick manufacturing sand plants use sand as an additive with a mixture of clay and other materials for manufacturing bricks.
- Sand is sometimes mixed with paint to create a textured finish for walls and ceilings or a non-slip floor surface.
- Sandy soils are ideal for certain crops such as watermelons, peaches, and peanuts and are often preferred for intensive dairy farming because of their excellent drainage characteristics.
- Sand is used in landscaping; it is added to make small hills and slopes (for example, golf course sand).
- Beach nourishment – transportation to popular beaches where seasonal tides or artificial changes to the shoreline cause the original sand to flow out to sea.
- Sandbags are used for protection against floods and gun fire. They can be easily transported when empty, then filled with local sand.
- Railroads use sand to improve the traction of wheels on the rails.
Defined by wikipedia
Try our Sand Calculator to estimate how many cubic yards of sand you need for your coverage area
Crushed Stone Uses
Posted by: | CommentsCrushed Stone
Crushed stone and or rocks supplied in the Northeast generally include 3/8″ Crushed Stone, 5/8″ Crushed Stone, 3/4″ Crushed Stone, 1 1/2″ Crushed Stone, 2 1/2″ Crushed Stone, Stone Screenings, and “DGA” Dense Graded Aggregate. All crushed stone materials have different uses and applications. Below is a brief overview of the different types of uses crushed stone has in the construction, building and landscaping industries.
• Stone Dust or Stone Screenings – Stone Dust is used as a base for paving blocks & base for concrete paved roads and areas such as horse arenas
• 3/8″ Crushed Stone - 3/8 inch crushed stone is usually bluish to grayish in color. It is a clean stone that is used for driveways, drainage, and is often mixed with asphalt.
• 5/8″ Crushed Stone – 5/8 inch crushed stone generally has the same look and applications as 3/8 inch crushed stone, only it is slightly larger
• 3/4″ Crushed Stone - 3/4 inch Crushed Stone is also blue to gray in color, but its larger size has some additional uses. 3/4 inch Crushed Stone is used in driveways, but it is also used for around trees, landscaping, French drains, and as a sub-base for concrete sidewalks, concrete driveways, and patios,
• 1 1/2″ Crushed Stone - 1 1/2 inch Crushed Stone like most crushed stone, is blue or gray. It is primarily used for drainage, septic systems, and as a road base
• 2 1/2″ Crushed Stone - 2 1/2 inch Crushed Stone is blue or gray. These largest of the crushed stone products are used primarily for septic systems, & tracking pads on job sites.
• 3/4″ DGA – DGA or Dense Graded Aggregate is a combination of crushed stone and gravel created in a quarry process. Dense Graded Aggregate is used as a base material for driveways or walkways, road base, or a base for interlocking walls.
If you have any questions on what type of crushed stone to buy for your project call Tom at 917-912-2900
Crushed Stone-Statistical Compendium by U.S. Geological Survey
Posted by: | CommentsBelow is a statistacl report about crushed stone.
CRUSHED STONE
Statistical Compendium by U.S. Geological Survey, Minerals Information
Commodity Specialist: Valentin V. Tepordei (vteporde@usgs.gov) Last modification: 11/04/97
Stone, in its multitude of forms, represents a very significant part of the Earth’s crust and one of the most accessible natural resources. Stone has been used since the earliest days of our civilization, first as a tool or weapon, then as construction material, and later, in its crushed form, as one of the basic raw materials for a wide variety of uses ranging from agriculture and chemicals to complex industrial processes. At the beginning of the 20th century, the U.S. production of crushed stone was relatively small, and its uses limited. Today, crushed stone is being produced in 48 of the 50 States, and its annual production tonnage ranks first in the nonfuel minerals industry. The United States is, in general, self-sufficient in crushed stone, producing enough to meet most of the domestic needs. Small quantities of crushed stone, used mainly as construction aggregates, are being imported mostly by water from the Bahamas, Canada, and Mexico to compensate for local shortages that exist in some areas of the country.
The demand for crushed stone is determined mostly by the level of construction activity, and, therefore, the demand for construction materials. U.S. production of crushed stone recorded a significant growth in the past 40 years, from 229 million metric tons in 1950 to 1.1 billion metric tons in 1990. The highest level of production was reached in 1988–1.13 billion metric tons. Between 1950 and 1973, because of the construction of the Interstate Highway System, the growth from year to year in the production of crushed stone was almost continuous, paralleling the increased demand for construction aggregates. Following the reduction in the volume of work in the Interstate Highway Program in the late 1960’s, the crushed stone industry, while still growing, became more sensitive to the ups and downs of the economy. The 1974-75 and 1982 recessions are well reflected by low levels of production of crushed stone in those years. Future demand for crushed stone will continue to be dependent mostly on the growth of construction activity.
Most crushed stone is used for construction purposes, mainly as aggregate with or without a binder. Road base or road surfacing material, macadam, riprap, and railroad ballast are the major uses without a binder. Aggregate for cement and bituminous concrete in highway and road construction and repair and in residential and nonresidential construction are the major uses for aggregates with a binder. Other uses include cement and lime manufacture, agriculture, metallurgical flux, and fillers and extenders.
Crushed stone is a high-volume, low-value commodity. The industry is highly competitive and is characterized by thousands of operations serving local or regional markets. Production costs are determined mainly by the cost of labor, equipment, energy, and water, in addition to the costs of compliance with environmental and safety regulations. These costs vary depending on geographic location, the nature of the deposit, and the number and type of products produced. Despite having one of the lowest average-per- ton values of all mineral commodities, the constant dollar price of crushed stone has changed relatively little during the past 20 years. As a result of rising costs of labor, energy, and mining and processing equipment, the average unit price of crushed stone increased from $1.58 per metric ton, f.o.b. plant, in 1970 to $4.39 in 1990. However, the unit price in constant 1982 dollars fluctuated between $3.48 and $3.91 per metric ton for the same period. Increased productivity achieved through increased use of automation and more efficient equipment was mainly responsible for maintaining the prices at this level.
Underground operations are becoming more common, especially for limestone mining in the central and eastern parts of the United States, as the advantages of such operations are increasingly recognized by the producers. By operating underground, a variety of problems usually connected with surface mining such as environmental impacts and community acceptance are significantly reduced.
Transportation is a major factor in the delivered price of crushed stone . The cost of moving crushed stone from the plant to the market often equals or exceeds the sale price of the product at the plant. Because of the high cost of transportation and the large quantities of bulk material that have to be shipped, crushed stone is usually marketed locally. The high cost of transportation is responsible for the wide dispersion of crushed stone quarries around the country, usually located near highly populated areas. However, increasing land values combined with local environmental concerns are moving crushed stone quarries farther from the end-use locations, increasing the price of delivered material. Economies of scale, which might be realized if fewer, larger operations served larger marketing areas, would probably not offset the increased transportation costs.
Although crushed stone resources are widespread and in adequate supply nationally, local shortages exist. Land use conflicts and environmental problems associated with rapid urban expansion are major factors contributing to these shortages. The local shortages that occasionally exist are caused less by a lack of stone than by urban encroachment or zoning regulations that force closure of operating quarries or prevent the development of new ones. Demand pressures, land use regulations, and the cost of meeting environmental and reclamation requirements are factors that will cause a rising price trend.
Sand and gravel and to a lesser extent iron-blast-furnace slag are the predominant substitutes for crushed stone used as construction aggregate. Steel slag is another substitute for crushed stone in road bases and asphaltic concrete, but not in cement concretes because of chemical interaction. Blast-furnace slag is also used as a stone substitute in cement manufacturing.
Crushed Stone remains an abundant material, and, despite environmental, zoning, and regulatory restrictions, no shortages on a large scale are expected to occur in the future.
Delivery Areas
Posted by: | CommentsWe supply & deliver the following construction materials; Gravel, Sand, Stone, Rocks, Boulders, Rip Rap Rock, Gabion, Masonry Sand, Aggregate, Topsoil, Dirt, Dirt Fill, Screened Top-soil, Unscreened Top Soil, Driveway Gravel, Pea Gravel, Crushed Stone, Utility Sand, Bank Run Sand, Hot Mix Asphalt, Blended Stone, Core Stone, Clean Stone, Large Stone, DGA, Dense Graded Aggregate, Stone Dust, recycled stone, rerushed concrete, Recrushed Asphalt, Sand & Stone Mix, & Superpave.
Building & Construction materials are available for delivery to New Jersey & New York metro area including Staten Island, NYC, Brooklyn, Queens, & Bronx. Below is a list of NJ delivery areas;
New Jersey Building & Construction Materials Delivery
