Thursday, March 15, 2018

How Concrete Forming Systems Work and the Best Reasons to Use Them


Every well-built structure made of concrete started out as bare skeletons of reinforcing bars and scaffolds. The hard concrete that conceals them now originates from a fluid, moist mix of cement, gravel, and sand. How they turned into perfectly shaped solid is actually the formwork’s doing. A formwork is a temporary mold where concrete is poured and allowed to harden until it’s ready for curing.

Concrete forming systems have come a long way from consisting mainly of wood planks supported with studs to plastic, fiberglass, or aluminum sheathing. Aluminum concrete forms are among the most widely used formworks these days, and it will definitely make a huge difference in your building project. Here are some more facts that you need to know about concrete forming systems.

Factors Affect the Formwork?

There are two factors that affect how well a forming system works: the rate of concrete pour and lateral pressure. The rate by which the concrete is poured affects how fast the concrete walls are formed. Basically, the faster the concrete is poured, the wider area is covered per pouring period, and therefore the faster the entire structure will cure. Read more from this article: http://bit.ly/2I6vCi5

Friday, March 2, 2018

4 Interesting Reasons Why Contractors Should Start Using Aluminum Concrete Forming Systems


Building contactors carry a great deal of responsibilities when handling construction projects. Perhaps their most critical task is to look for innovative solutions that could help increase the efficiency of the building process. One solution that particularly interests today’s contractors is the use of aluminum concrete forming systems.
 
There are many types of material that can be used for making formworks. Timber and plastic are the most widely used, but due to their limited tensile strength they are only suitable for light loads. Metal has become the formwork material of choice for modern-day builders, and for obvious reasons—they have enough strength and toughness to hold heavy loads without suffering significant deformation.

Read more from this article: http://bit.ly/2FL001c