Search Results - Fa Zheng~

Strain-Hardening Cement-Based Composites SHCC4 /

Table of Contents: “…Timothy, Tagir Iskhakov, Yijian Zhan, Günther Meschke -- Modelling and experimental characterization of the tensile response of Ultra-High Performance Fibre-Reinforced Cementitious Composites, by Amin Abrishambaf, Mário Pimentel, Sandra Nunes -- Mechanical properties of ductile cementitious composites incorporating microencapsulated phase change materials, by Erik Schlangen, Branko Savija, Stefan Chaves Figuieredo, Fernando Franca de Mendoca Filho, Mladena Lukovic -- A Comparative Study on Deflection-hardening Behavior of Ductile Alkali-activated Composite, by Shizhe Zhang, Marija Nedeljković, Bahman Ghiassi, Guang Ye -- Effectiveness of Fabricating High Performance Fiber Reinforced Cementitious Composite (HPFRCC) Using High Volume Steel Slag Powder, by Xuanchun Wie, Xinhua Cai, Peng Wu, Jun Su, Zhen He, Shengwen Tang -- Influence of Coarse Aggregate on the Mechanical Behavior of Strain Hardening Cementitious Composites, by Naoshi Ueda, Atsushi Kawamoto -- Development of a cementitious composites with tensile strain capacity up to 10%, by K.L. …”
Full-text access

Minimum Design Loads and Associated Criteria for Buildings and Other Structures. by (ASCE), American Society of Civil Engineers

Table of Contents: “…Runup Evaluation for Areas Where No Map Values Are Given -- 6.5.2 Tsunami Risk Category IV Buildings and Other Structures -- 6.5.3 Sea Level Change -- 6.6 Inundation Depths and Flow Velocities Based on Runup -- 6.6.1 Maximum Inundation Depth and Flow Velocities Based on Runup -- 6.6.2 Energy Grade Line Analysis of Maximum Inundation Depths and Flow Velocities -- 6.6.3 Terrain Roughness -- 6.6.4 Tsunami Bores -- 6.6.5 Amplified Flow Velocities -- 6.7 Inundation Depths and Flow Velocities Based on Site-Specific Probabilistic Tsunami Hazard Analysis -- 6.7.1 Tsunami Waveform -- 6.7.2 Tsunamigenic Sources -- 6.7.3 Earthquake Rupture Unit Source Tsunami Functions for Offshore Tsunami Amplitude -- 6.7.4 Treatment of Modeling and Natural Uncertainties -- 6.7.5 Offshore Tsunami Amplitude -- 6.7.5.1 Offshore Tsunami Amplitude for Distant Seismic Sources -- 6.7.5.2 Direct Computation of Probabilistic Inundation and Runup -- 6.7.5.3 Use of Higher-Order Tsunami Model Features -- 6.7.6 Procedures for Determining Tsunami Inundation and Runup -- 6.7.6.1 Representative Design Inundation Parameters -- 6.7.6.2 Seismic Subsidence before Tsunami Arrival -- 6.7.6.3 Model Macroroughness Parameter -- 6.7.6.4 Nonlinear Modeling of Inundation -- 6.7.6.5 Model Spatial Resolution -- 6.7.6.6 Built Environment -- 6.7.6.7 Inundation Model Validation -- 6.7.6.7.1 Historical or Paleotsunami Inundation Data.…”
Full-text access