Impact Strength Test and Numerical Fitting of Plybamboo Form

Yun Shui Yu; Ben Gui Li; Wei Hong Zhou

doi:10.4028/www.scientific.net/AMR.194-196.1130

Paper Titles

Experimental Research on Performance of Anchorage of Planting Rebars with Inorganic Material in Concrete
p.1114

Research Status and Prospects of the Smart Concrete
p.1118

Preparation and Properties of New Polycarboxylate-Type Superplasticizer
p.1122

Researches and Application of Railway Wind-Break Wall
p.1126

Impact Strength Test and Numerical Fitting of Plybamboo Form
p.1130

The Status and Development of New-Type Wall Material
p.1134

The Study on the Properties of Super Absorbent Polymer in Expansive Concrete
p.1138

Effect of Particle Size on Expansive Behaviour of MgO-Based Expansive Agent in Cement Paste
p.1143

Experimental Study on the Bending Resistance Performance of GFRP Tube Filled with Steel-Reinforced High-Strength Concrete Flexural Component
p.1147

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Impact Strength Test and Numerical Fitting of Plybamboo Form

Abstract:

longitudinal and transverse impact strength tests of plybamboo form with different moisture content were performed. Regression Equations of longitudinal and transverse impact strength of plybamboo form were constructed through numerical fitting. The results show that both longitudinal impact strength and transverse impact strength increase with the increasing of the moisture content of the plybamboo form. The average value of longitudinal impact strength increases or decreases 0.20kJ/m² when the value of moisture content increases or decreases 1%. The average value of transverse impact strength increases or decreases 0.12kJ/m² when the value of moisture content increases or decreases 1%. The results of variance analysis and significance test of the two linear regression equations show that both the regression equations achieve very significant level.