Redirigiendo al acceso original de articulo en 23 segundos...
ARTÍCULO
TITULO

Modeling a bending resistance modulus for a cementitious material compound based on properties in fresh state

Fernando Toro    
Marisol Gordillo    
Silvio Delvasto    
Jr. Holmer Savastano    

Resumen

In this research we studied the relationship between fresh state and hardened state of a fiber reinforced laminate compound (MCLRF), respectively, based on a matrix of Portland cement. The variables that have been worked in the fresh state were undulation ability, flow ability and drain ability and hardened in the form of resistance to bending, (bending resistance modulus). The samples were prepared with different raw materials (fique fiber, bentonite, pulp, silica fume, and Acronal). The ingredients were grinded by a mixer working at a constant speed, after that, the mixture was poured into a drainage chamber, and the water was extracted, forming a sheet with dimensions 130x50x6 mm, finally, it was immersed in a curing chamber for 28 days, for bending evaluation. The linear regression model proposed to predict the bending resistance modulus, considering the properties of in fresh state, was performed through the analysis of interactions between variables in formulation of the mixture used. From the regression model it was found that there is a clear correlation between bending resistance modulus and the predictive variables: undulation ability, flow ability and drain ability. Furthermore, the variables have a negative effect on the bending resistance modulusRev. ing. constr. [online]. 2014, vol.29, n.1, pp. 115-127. ISSN 0718-5073.  http://dx.doi.org/10.4067/S0718-50732014000100008

 Artículos similares

       
 
Daniela Szpaczynska, Marian Janusz Lopatka and Piotr Krogul    
The elastic-damping properties of the rubber track structure can have a significant impact on the running gear performance of lightweight mobile robots. Taking these properties into account is particularly important for modeling obstacle negotiation and ... ver más
Revista: Applied Sciences

 
Balázs Eller, Majid Movahedi Rad, Imre Fekete, Szabolcs Szalai, Dániel Harrach, Gusztáv Baranyai, Dmytro Kurhan, Mykola Sysyn and Szabolcs Fischer    
The current paper concerns the investigation of CC (Concrete Canvas), a unique building material from the GCCM (geosynthetic cementitious composite mat) product group. The material is suitable for trench lining, trench paving, or even military constructi... ver más
Revista: Infrastructures

 
Natsuki Tsushima, Ryo Higuchi and Koji Yamamoto    
By deliberately designing microscopic internal mechanisms, architected materials can achieve a variety of material properties without changing constituent materials. Integration of the architected materials into a structure as substructures has a good po... ver más
Revista: Aerospace

 
Jianqing Bu, Wenlong Cao, Xueyan Wang and Lianpeng Zhang    
To verify the effectiveness of uplift-restricted and slip-permitted (URSP) connectors in alleviating crack formation in the negative-moment region of steel-concrete composite beams (SCCBs) and improve the engineering adaptability of URSP connectors, this... ver más
Revista: Buildings

 
Shuang Wu, Zhijun Zhao, Dongping Liang, Qunzhi Li and Shougen Zhao    
Multiple linear and nonlinear dynamic parameters of the joints at the root of solar panels and between solar panels on spacecraft, both of which have complex nonlinear dynamic properties, were identified by using the force state mapping method for modeli... ver más
Revista: Aerospace