Home           Contact us           FAQs           
 
   Journal Page   |   Aims & Scope   |   Author Guideline   |   Editorial Board   |   Search
    Abstract
2013 (Vol. 6, Issue: 22)
Article Information:

Study on the Dynamic Performance of Polypropylene Fiber Reinforced Concrete

Zhang Ying, Zheng Chunhang, Wu Rujun, Chen Xi and Guoping Jiang
Corresponding Author:  Zhang Ying 

Key words:  Concrete, crack, dynamic, fractal model, polypropylene fiber, ,
Vol. 6 , (22): 4200-4203
Submitted Accepted Published
February 12, 2013 March 14, 2013 December 05, 2013
Abstract:

The dynamic performance of polypropylene fiber reinforced concrete is studied with the SHPB experiment. The relationship of the strain-stress curves are all obtained in the experiment. The crack characteristics of polypropylene reinforced concrete and plain concrete are also investigated. Analyzed the relation between the character on the crack surface of concrete and material properties and the impact pressure. Also the multi-fractal characteristics are given on the crack surface of concrete. The crack distributions of plain concrete and polypropylene concrete are investigated. The crack resistance effects of polypropylene fiber are analyzed from the degree of closeness and uniformity.
Abstract PDF HTML
  Cite this Reference:
Zhang Ying, Zheng Chunhang, Wu Rujun, Chen Xi and Guoping Jiang, 2013. Study on the Dynamic Performance of Polypropylene Fiber Reinforced Concrete.  Research Journal of Applied Sciences, Engineering and Technology, 6(22): 4200-4203.
    Advertise with us
 
ISSN (Online):  2040-7467
ISSN (Print):   2040-7459
Submit Manuscript
   Current Information
   Sales & Services
   Contact Information
  Executive Managing Editor
  Email: admin@maxwellsci.com
  Publishing Editor
  Email: support@maxwellsci.com
  Account Manager
  Email: faisalm@maxwellsci.com
  Journal Editor
  Email: admin@maxwellsci.com
  Press Department
  Email: press@maxwellsci.com
Home  |  Contact us  |  About us  |  Privacy Policy
Copyright © 2009. MAXWELL Science Publication, a division of MAXWELLl Scientific Organization. All rights reserved