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

Design of concrete pavement with optimized slab geometry

Juan Pablo Covarrubias V.    

Resumen

A new technology has been developed to design concrete pavements, which reduces slabs' thickness and optimizes their sizes, because of trucks axles' geometry. The design is supported by a gravel base treated with concrete or asphalt. It assumes there is no adherence between the base (existing pavement) and the concrete slab. The core principle of this design method consists of designing a slab size, so that no more than one wheel set stays on a given slab, thus minimizing the critical tensile stress on the surface. Test segments have been built on a large scale and they have been tested under accelerated loads, with concrete thickness of 8, 15 and 20 cm, all of them having a gravel base and non-adhered asphaltic layers. Tests demonstrated that a reduced-size slab, of low thickness, might bear a considerable amount of equivalent axles before cracking takes place. Concrete slabs on gravel bases with 20 cm thickness did not suffer from cracking, in spite of being tested under more than 50 millions of equivalent axles. Slabs of 15 cm thickness suffered from cracking when tested under an average of 12 millions equivalent axles, while slabs of 8 cm thickness endured 75,000 equivalent axles before the first cracking took place. Besides the executed tests demonstrated that fiber concrete slabs may endure until 20 times more traffic before cracking and they are able to provide a longer life span after cracking. Based on this fact, a mechanical-empirical software design has been developed and named OptiPave, which optimizes slab geometrical design and concrete slabs thickness by considering the particular conditions on a given project, such as weather conditions, traffic volume, layer and materials. Critical tensile stresses have been calculated by employing the finite elements analysis for different conditions of mechanical and thermal loads at different positions. Slabs' cracking is determined by calculating concrete fatigue damage and models employed by the design guide AASHTO, 2007, and by means of calibration test sections on large scale. The new methodology designs concrete slabs for high traffic volume ways, which in average are 7 cm thinner than traditional pavement design developed by AASHTO (1993). This design method is also able to effectively design concrete pavements for lower traffic volume roads, which are not considered by the existing pavement design methods, thus providing an alternative to asphalt solutions.Rev. ing. constr. [online]. 2012, vol.27, n.3, pp. 181-197. ISSN 0718-5073.  http://dx.doi.org/10.4067/S0718-50732012000300005

Palabras claves

 Artículos similares

       
 
Xuan Zhao, Guoqiang Gao, Minshun Wan and Juchuan Dai    
An accurate formula for calculating the pressure loss in concrete pumping plays a significant guiding role in the design and service process of pump trucks. Based on the flow characteristics of concrete pumping, a straight pipe one-dimensional model for ... ver más
Revista: Applied Sciences

 
Fahriye Akar, Ercan Isik, Fatih Avcil, Aydin Büyüksaraç, Enes Arkan and Rabia Izol    
On 6 February 2023, two independent earthquake pairs on the East Anatolian Fault Zone, with epicenters in Pazarcik (Mw = 7.7) and Elbistan (Mw = 7.6) districts of Kahramanmaras province, caused great destruction. Adiyaman and Gölbasi districts of this ci... ver más
Revista: Applied Sciences

 
Panagiota S. Katsimpini    
The aim of this study is to investigate the seismic behavior of concrete/steel mixed structures. In engineering praxis, many buildings consist of two parts: one made of reinforced concrete and the other made of steel. There are several difficulties in th... ver más
Revista: Buildings

 
Tingwei Meng, Xiaofang Shan, Zhigang Ren and Qinli Deng    
Environmental problems including the depletion of natural resources and energy have drawn a lot of attention from all sectors of society in the context of high-quality global development, and solid waste generated by the construction industry accounts fo... ver más
Revista: Buildings

 
Roberta Prado Mendes, Leonardo Carvalho Mesquita, Maurício Pina Ferreira, Leandro Mouta Trautwein, Markssuel Teixeira Marvila and Marília Gonçalves Marques    
In reinforced concrete flat slab buildings, the transference of unbalanced moments in the slab?column connections usually results from the asymmetry of spans, vertical loads, and horizontal forces from the wind. The punching strength of the slab?column c... ver más
Revista: Buildings