Quantification Methods for Construction Waste Generation at Construction Sites: A Review
p.4564
p.4564
The Seismic Analysis of Kiewitt Shell Based on the SMA Three-Dimensional Isolator
p.4570
p.4570
The Research on Preparation of a New Building Material with EMR and their Properties
p.4575
p.4575
The Analysis on how the Polypropylene Fiber Reinforced Concrete Works
p.4580
p.4580
Experiment Study on Resistance of Ultra-High Performance Cementitious Composites Subjected to the Deep Penetration Scaled Earth Penetrator
p.4585
p.4585
The Simulation and Role of Discontinuous Yield Behaviors of Material
p.4590
p.4590
Compressive Strength of Hardening Fluid Concrete by Explosion
p.4595
p.4595
An Analytical Model of Stress-Transfer in the Nano-Composites with Debonding Interface
p.4599
p.4599
Development and Application of High-Performance Self-Compacting Fair-Faced Finish Concrete under Complex Conditions
p.4604
p.4604
Experiment Study on Resistance of Ultra-High Performance Cementitious Composites Subjected to the Deep Penetration Scaled Earth Penetrator
Abstract:
The ballistic shotgun was employed to launch the deep penetration scaled earth penetrator in velocity of 510m/s 820m/s for investigating the ultra-high performance cementitious composite (UHPCC). The influence of the compressive strengths and volume fraction of steel fibres of UHPCC for the penetration resistance and front face damage were systematically investigated.
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Periodical:
Advanced Materials Research (Volumes 163-167)
Pages:
4585-4589
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Online since:
December 2010
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© 2011 Trans Tech Publications Ltd. All Rights Reserved
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