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The effect of carbon nanotube orientation and content on the mechanical properties of polypropylene based composites
Graphical abstract Display Omitted
Highlights SWCNT orientation has significant effect on mechanical properties for angle less than 30°. SWCNT content has significant effect on mechanical properties for volume fraction higher than 1%. With increasing strain rate, nano-composites can undertake more stresses. The shear stresses at the interface are higher in SWCNT than in polypropylene. In general, with increasing SWCNT content, the shear stress at particle midpoint decreases.
Abstract Finite element method (FEM) is used to predict the tensile and compressive stress–strain curves of single wall carbon nanotube (SWCNT) reinforced polypropylene (PP) composites. The numerical simulations, using shell and tetrahedron elements, are first carried out to investigate the effect of SWCNT orientation on the mechanical properties of the nano-composites. Second, the Grunfest–Young constitutive equation is selected to determine the effect of strain rate and solve the finite element program to analyze the mechanical behavior of the nano-composites. Third, the effect of SWCNT volume fraction is studied. In all cases, the shear and normal stresses distribution along the nanotube axis are investigated and compared with the macroscopic tensile or compressive stresses on the composites. At the same time, the stresses of the interface between SWCNT and the matrix along the loading direction are analyzed. Finally, the effects of SWCNT orientation, content and strain rate on the strength of the nano-composites are studied. From the results obtained, it was shown that strain rate can substantially affect the tensile and shear stresses of the composites, but do not significantly influence the initial tensile or compressive elastic moduli. This is especially the case for SWCNT orientation angles less than 30° and volume fractions higher than 0.74%.
The effect of carbon nanotube orientation and content on the mechanical properties of polypropylene based composites
Graphical abstract Display Omitted
Highlights SWCNT orientation has significant effect on mechanical properties for angle less than 30°. SWCNT content has significant effect on mechanical properties for volume fraction higher than 1%. With increasing strain rate, nano-composites can undertake more stresses. The shear stresses at the interface are higher in SWCNT than in polypropylene. In general, with increasing SWCNT content, the shear stress at particle midpoint decreases.
Abstract Finite element method (FEM) is used to predict the tensile and compressive stress–strain curves of single wall carbon nanotube (SWCNT) reinforced polypropylene (PP) composites. The numerical simulations, using shell and tetrahedron elements, are first carried out to investigate the effect of SWCNT orientation on the mechanical properties of the nano-composites. Second, the Grunfest–Young constitutive equation is selected to determine the effect of strain rate and solve the finite element program to analyze the mechanical behavior of the nano-composites. Third, the effect of SWCNT volume fraction is studied. In all cases, the shear and normal stresses distribution along the nanotube axis are investigated and compared with the macroscopic tensile or compressive stresses on the composites. At the same time, the stresses of the interface between SWCNT and the matrix along the loading direction are analyzed. Finally, the effects of SWCNT orientation, content and strain rate on the strength of the nano-composites are studied. From the results obtained, it was shown that strain rate can substantially affect the tensile and shear stresses of the composites, but do not significantly influence the initial tensile or compressive elastic moduli. This is especially the case for SWCNT orientation angles less than 30° and volume fractions higher than 0.74%.
The effect of carbon nanotube orientation and content on the mechanical properties of polypropylene based composites
Huang, Jun (Autor:in) / Rodrigue, Denis (Autor:in)
14.10.2013
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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