Fiber Reinforced Concrete Massena NY

Over the last few decades, material scientists in Massena have improved concrete mix designs using technology that has increased strength, durability, placing, and improved environmental aspects. Perhaps the brittle nature of concrete is the last technological barrier to attack.

Local Companies

Lowe's of Potsdam
315-268-6960
61 Country Lane Potsdam, NY, 13676
Potsdam, NY
Triple A Building Center
315-764-0596
3 Malby Lane
Massena, NY
W.l. Smith Hardware Corporation
(315) 769-2408
50 E Orvis St
Massena, NY
The Home Depot
(315)764-9930
41 Stephenville Road
Massena, NY
St Lawrence Ctr
(315) 764-3500
6129 Saint Lawrence Ctr
Massena, NY
Fastenal- Massena
315-769-3278
166 Harte Haven Plaza Massena, NY, 13662
Massena, NY
Evans & White Ace
(315) 265-4350
1 Maple St, opposite Trinity Episcopal Church on Fall Island
Potsdam, NY
Triple A Building Center
315-265-2350
6588 State Hwy 56
Potsdam, NY
Bicknell Building Sply
(315) 265-3900
Potsdam Canton Rd
Potsdam, NY
Lowe's
(315) 268-6960
61 Country Lane
Potsdam, NY

Source: CONCRETE PRODUCER MAGAZINE
Publication date: November 1, 2006

By Victor C. Li

Over the last few decades, material scientists have improved concrete mix designs using technology that has increased strength, durability, placing, and improved environmental aspects. Perhaps the brittle nature of concrete is the last technological barrier to attack.

Ever since concrete was made by the Romans 2000 years ago, it has been known for this brittleness. Concrete's brittleness has at times been responsible for catastrophic failures of structures, but more often results in a gradual deterioration that requires repeated and costly repairs. Many attempts have been made to modify concrete so it can take tensile load. Today, the most effective modification has been the introduction of fibers, typically made of steel, glass, or polymer, resulting in fiber-reinforced concrete.

It has been a dream of concrete engineers to produce a concrete that retains the beneficial properties of conventional concrete, such as high compressive strength and non-rusting. Yet at the same time, the final product should possess the tensile ductility of steel so yielding, instead of fracturing, occurs when the concrete is overloaded.

It's true that this design feature can be achieved with fiber reinforcement. However, the past strategy has been to use a lot of fibers (more than 5% in volume), often in aligned or fabric form.

Click here to read full article from The Concrete Producer

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