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Experimental Study on the Flexural Impact Properties of Fiber Reinforced Lightweight Aggregate Concrete
Through experimental study on the flexural impact properties of different dosage of plastic-steel fiber and steel fiber reinforced lightweight aggregate concrete, the results show that energy dissipation of cracking and damaging of steel fiber reinforced lightweight aggregate concrete increase with the increase of fiber ratio. However, energy dissipation of cracking and damaging of plastic-steel fiber concrete increases in early stage and decreases later with the increase of plastic-steel fibers. Enhancement effect of energy dissipation of damaging of plastic-steel fiber is higher than steel fibers.
Experimental Study on the Flexural Impact Properties of Fiber Reinforced Lightweight Aggregate Concrete
Through experimental study on the flexural impact properties of different dosage of plastic-steel fiber and steel fiber reinforced lightweight aggregate concrete, the results show that energy dissipation of cracking and damaging of steel fiber reinforced lightweight aggregate concrete increase with the increase of fiber ratio. However, energy dissipation of cracking and damaging of plastic-steel fiber concrete increases in early stage and decreases later with the increase of plastic-steel fibers. Enhancement effect of energy dissipation of damaging of plastic-steel fiber is higher than steel fibers.
Experimental Study on the Flexural Impact Properties of Fiber Reinforced Lightweight Aggregate Concrete
Applied Mechanics and Materials ; 488-489 ; 696-699
2014-01-08
4 pages
Article (Journal)
Electronic Resource
English
| British Library Conference Proceedings | 2014