Uso de aditivos adherentes en el diseño de mezclas asfálticas en caliente: una revisión

Autores/as

DOI:

https://doi.org/10.13140/RG.2.2.18901.55520

Palabras clave:

mezcla de asfalto, daño por humedad, aditivos adherentes, agrietamiento

Resumen

Considerando la necesidad de garantizar una vida útil y duradera de las superficies viales, se ha generado el desarrollo de nuevos materiales que aseguren la adherencia entre el betún y los agregados, pudiendo combatir la falla causada por la humedad. En la presente revisión literaria se analizó diferentes artículos científicos con el objetivo de determinar el desempeño de los diferentes adherentes utilizados en las mesclas asfálticas en caliente, los porcentajes óptimos, y los diferentes métodos utilizados, para hallar la resistencia a la humedad. Se encontró que los diferentes aditivos adherentes, tanto naturales como químicos, muestran un rendimiento excepcional ante la resistencia a la humedad, brindando una vida útil duradera del pavimento, en diferentes porcentajes óptimos que varían de acuerdo al agregado utilizado en la mezcla. Los métodos más utilizados para determinar la resistencia a la humedad fueron la prueba de arranque, adherencia Vialit, prueba de Lottman modificada y prueba de agua hirviendo

Descargas

La descarga de datos todavía no está disponible.

Biografía del autor/a

Reinerio Elden Vasquez Llamo, Universidad Señor de Sipán. Perú

Reinerio Elden, Vasquez Llamo. Estudiante de Ingeniería Civil. Universidad Señor de Sipán. Perú. Correo: vllamoreine@crece.uss.edu.pe 

Wily Rogelio Vasquez Ramírez, Universidad Señor de Sipán. Perú

Wily Rogelio, Vasquez Ramírez. Estudiante de Ingeniería Civil. Universidad Señor de Sipán. Perú. Correo: rogeriovrw@crece.uss.edu.pe 

Sócrates Pedro Muñoz Pérez, Universidad Señor de Sipán. Perú

Sócrates Pedro, Muñoz Pérez. Docente en la Universidad Señor de Sipán. Perú. MSc. en Ciencias de la Tierra con Mención en Geotecnia Correo: msocrates@crece.uss.edu.pe

Citas

A. Modarres y M. Rahmanzadeh, «Application of coal waste powder as filler in hot mix asphalt,» Construction and Building Materials, vol. 66, p. 476–483, 2014

B. Sengoz y J. Oylumluoglu, «Utilization of recycled asphalt concrete with different warm mix asphalt additives prepared with different penetration grades bitumen» Construction and Building Materials, vol. 45, p. 173–183, 2013

T. Yee y M. Hamzah, «Asphalt mixture workability and effects of long-term conditioning methods on moisture damage susceptibility and performance of warm mix asphalt» Construction and Building Materials, vol. 207, p. 316–328, 2019

L. Zhou , W. Huang, F. Xiao y Q. Lv, «Shear adhesion evaluation of various modified asphalt binders by an innovative testing method» Construction and Building Materials, vol. 183, p. 253–263, 2018

F. Moghadas, M. Arabani, G. Hamedi y A. Azarhoosh, «Influence of using polymeric aggregate treatment on moisture damage in hot mix asphalt» Construction and Building Materials, vol. 47, p. 1523–1527, 2013

L. Zhou, W. Huang, Y. Zhang, Q. Lv, C. Yan y Y. Jiao, «Evaluation of the adhesion and healing properties of modified asphalt binders» Construction and Building Materials, vol. 251, pp. 1-12, 2020

T. Valentová, J. Altman y J. Valentin, «Impact of asphalt ageing on the activity of adhesion promoters and the moisture susceptibility» Transportation Research Procedia, vol. 14, p. 768 – 777, 2016

J. Aguiar, A. Baldi, J. Salazar, J. Pacheco, L. Loria, F. Reyes y N. Cely, «Adhesive properties of asphalts and aggregates in tropical climates» International Journal of Pavement Engineering, vol. 19, pp. 1-11, 2016

K. H. Al Helo, Z. I. Qasim y D. A. Khalaf, «Evaluation of moisture-induced damage of stone matrix asphalt mixture with polymer modified binder» Materials Science and Engineering, vol. 737, nº 8, pp. 738-747, 2020

A. Azarhoosh, F. Moghaddas y A. Khodaii, «Evaluation of the effect of nano-TiO2 on the adhesion between aggregate and asphalt binder in hot mix asphalt» European Journal of Environmental and Civil Engineering, vol. 22, nº 8, pp. 946-961, 2016

H. Gibreil y C. Feng, «Effects of high-density polyethylene and crumb rubber powder as modifiers on properties of hot mix asphalt» Construction and Building Materials, vol. 142, pp. 101-108, 2014

G. Hamedia y S. Tahami, «The Effect of Using Anti-Stripping Additives on Moisture Damage of Hot Mix Asphalt» International Journal of Adhesion and Adhesives, vol. 81, pp. 90-97, 2017

L. Wang, A. Shen y J. Yao, «Effect of different coarse aggregate surface morphologies on cement emulsified asphalt adhesion» Construction and Building Materials, vol. 262, pp. 1-15, 2020

J. Zhu, K. Zhang, K. Liu y X. Shi, «Adhesion characteristics of graphene oxide modified asphalt unveiled by surface free energy and AFM-scanned micro-morphology» Construction and Building Materials, vol. 244, nº 1-12, 2020

S. Foroutan, M. Khabiri, A. Kavussi y M. Jalal , «Applying surface free energy method for evaluation of moisture damage in asphalt mixtures containing date seed ash» Construction and Building Materials, vol. 125, p. 408–416, 2016

A. Dulaimi, H. Shanbara, H. Jafer y M. Sadique, «An evaluation of the performance of hot mix asphalt containing calcium carbide residue as a filler» Construction and Building Materials, vol. 261, pp. 1-10, 2020

A. Akbari y A. Modarres, «Effect of clay and lime nano-additives on the freeze–thaw durability of hot mix asphalt» Road Materials and Pavement Design, vol. 18, nº 3, pp. 646-669, 2016

G. Hamedi, F. Nejad y K. Oveisi, «Estimating the moisture damage of asphalt mixture modified with nano zinc oxide» Materials and Structures, vol. 49, p. 1165–1174, 2015

G. Hamedia, A. Sahraeia y M. Esmaeeli, «Investigate the effect of using polymeric anti-stripping additives on moisture damage of hot mix asphalt» European Journal of Environmental and Civil Engineering, vol. 22, pp. 1-15, 2018

S. Han, S. Dong, M. Liu, X. Han y Y. Liu, «Study on improvement of asphalt adhesion by hydrated lime based on surface free energy method» Construction and Building Materials, vol. 227, pp. 1-9, 2019

Y. Kim, I. Pinto y S. Park, «Experimental evaluation of anti-stripping additives in bituminous mixtures through multiple scale laboratory test results» Construction and Building Materials, vol. 29, p. 386–393, 2012

G. Hossein, K. Shamami y M. Pakenari, «Effect of ultra-high-molecular-weight polyethylene on the performance characteristics of hot mix asphalt» Construction and Building Materials, vol. 258, pp. 1-14, 2020

S. Rahmad, N. Yusoff, S. Rosyidi, K. Badri y I. Widyatmoko, «Effects of Rediset on the adhesion, stripping, thermal and surface morphologies of PG76 binder» Construction and Building Materials, vol. 241, pp. 1-12, 2020

M. Alam y P. Aggarwal, «Effectiveness of anti stripping agents on moisture susceptibility of bituminous mix» Construction and Building Materials, vol. 264, pp. 1-15, 2020

D. Park, W.-J. Seo, J. Kim y H. Vo, «Evaluation of moisture susceptibility of asphalt mixture using liquid anti-stripping agents» Construction and Building Materials, vol. 144, p. 399–405, 2017

A. Khodaii, V. Khailfeh, M. Dehand y G. Hamedi, «Evaluating the effect of Zycosoil on moisture damage of hot mix asphalt using the surface energy method» Journal of Materials in Civil Engineering, vol. 26, nº 2, pp. 1-37, 2014

H. Behbahani, H. Ziari, N. Kamboozia, A. Khaki y S. Mirabdolazimi, «Evaluation of performance and moisture sensitivity of glasphalt mixtures modified with nanotechnology zycosoil as an anti-stripping additive» Construction and Building Materials, vol. 78, p. 60–68, 2015

M. Ameri, S. Kouchaki y H. Roshani, «Laboratory evaluation of the effect of nano-organosilane anti-stripping additive on the moisture susceptibility of HMA mixtures under freeze–thaw cycles» Construction and Building Materials, vol. 48, p. 1009–1016, 2013

G. Hamedi, M. Asadi, F. Nejad y M. Esmaeeli, «Applying asphalt binder modifier in reducing moisture-induced damage of asphalt mixtures» European Journal of Environmental and Civil Engineering, vol. 23, pp. 1-19, 2019.

M. Arabania y G. Hamedia, «Using the surface free energy method to evaluate the effects of liquid antistrip additives on moisture sensitivity in hot mix asphalt» International Journal of Pavement Engineering, vol. 15, nº 1, pp. 66-78, 2014

S. Yang, F. Rachman y H. Susanto, «Effect of moisture in aggregate on adhesive properties of warm-mix asphalt» Construction and Building Materials, vol. 190, p. 1295–1307, 2018.

N. Awazhar, F. Khairuddin, S. Rahmad, S. Fadzil, A. Hend, N. Yusoff y K. Badri, «Engineering and leaching properties of asphalt binders modified with polyurethane and Cecabase additives for warm-mix asphalt application» Construction and Building Materials, vol. 238, pp. 1-11, 2020.

G. Hamedi y F. Nejad, «Evaluating the Effect of Mix Design and Thermodynamic Parameters on Moisture Sensitivity of Hot Mix Asphalt» Journal of Materials in Civil Engineering, vol. 29, nº 2, pp. 1-11, 2016.

H. Rahmani, G. Hamedi y H. Shirmohammadi, «Effect of Asphalt Binder Aging on Thermodynamic Parameters and Its Relationship with Moisture Sensitivity of Asphalt Mixes» Journal of Materials in Civil Engineering, vol. 30, nº 11, pp. 1-11, 2018.

S. Liu, S. Zhou y A. Peng, «Analysis of moisture susceptibility of foamed warm mix asphalt based on cohesion, adhesion, bond strength, and morphology» Journal of Cleaner Production, vol. 277, pp. 1-12, 2020.

M. Nazirizad, A. Kavussi y A. Abdi , «Evaluation of the effects of anti-stripping agents on the performance of asphalt mixtures» Construction and Building Materials, vol. 84, p. 348–353, 2015.

H. Ziari y . A. Moniri, «Laboratory evaluation of the effect of synthetic Polyolefin-glass fibers on performance properties of hot mix asphalt» Construction and Building Materials, vol. 213, p. 459–468, 2019.

J. Zhu, K. Zhang, K. Liu y X. Shi, «Performance of hot and warm mix asphalt mixtures enhanced by nano-sized graphene oxide» Construction and Building Materials, vol. 217, p. 273–282, 2019

F. Nejad1, G. Hamedi y A. Azarhoosh, «The Use of Surface Free Energy Method to Evaluate the Mechanism of the Effect of Hydrate Lime on Moisture Damage of Hot Mix Asphalt» Journal of Materials in Civil Engineering, vol. 25, nº 8, pp. 1-32, 2013

H. Jahanian, G. Shafabakhsh y . H. Divandari, «Performance evaluation of Hot Mix Asphalt (HMA) containing bitumen modified with Gilsonite» Construction and Building Materials, vol. 131, p. 156–164, 2017.

M. Choi, Y. Kim, H. Kim y J. Lee, «Performance evaluation of the use of tire-derived fuel fly ash as mineral filler in hot mix asphalt concrete» Journal of traffic and transportation engineering, vol. 7, nº 2, pp. 249-258, 2019.

L. Klinsky, K. Kaloush, V. Faria y V. Bardini, «Performance characteristics of fiber modified hot mix asphalt» Construction and Building Materials, vol. 176, p. 747–752, 2018.

H. Haghshenas, A. Khodaii y M. Saleh, «Long term effectiveness of anti-stripping agents» Construction and Building Materials, vol. 76, p. 307–312, 2015

C. Gorkem y S. Burak, «Predicting stripping and moisture induced damage of asphalt concrete prepared with polymer modified bitumen and hydrated lime» Construction and Building Materials, vol. 23, p. 2227–2236, 2009

H. Abandansari y A. Modarres , «Investigating effects of using nanomaterial on moisture susceptibility of hot-mix asphalt using mechanical and thermodynamic methods» Construction and Building Materials, vol. 131, pp. 667-675, 2016

A. Ameli, N. Norouzi, E. Khabbaz y R. Babagoli, «Influence of anti stripping agents on performance of binders and asphalt mixtures containing Crumb Rubber and Styrene-Butadiene-Rubber» Construction and Building Materials, vol. 261, pp. 1-16, 2020

T. Ahmed, H. Lee y R. Williams, «Using a Modified Asphalt Bond Strength Test to Investigate the Properties of Asphalt Binders with Poly Ethylene Wax-based Warm Mix Asphalt Additive» International Journal of Pavement Research and Technology, vol. 11, nº 1, pp. 28-37, 2017

V. Haritonovs, «Evaluation of polyaminoamide as a surfactant additive» The Baltic Journal of Road and Bridge Engineering, vol. 10, nº 2, p. 112–117, 2015

C. Zhu, J. Tang, H. Zhang y H. Duan, «Effect of liquid anti-stripping agents on moisture sensitivity of crumb rubber modified asphalt binders and mixtures» Construction and Building Materials, vol. 225, p. 112–119, 2019

H. Zhang, M. Huang, J. Hong, F. Lai y Y. Gao, «(2-hidroxietil) de tereftalato (BHET) terephthalate on adhesive properties of asphalt-aggregate interface» Fuel, vol. 285, pp. 1-14, 2020

Publicado

2021-02-21

Cómo citar

Vasquez Llamo, R. E., Vasquez Ramírez, W. R., & Muñoz Pérez, S. P. (2021). Uso de aditivos adherentes en el diseño de mezclas asfálticas en caliente: una revisión. Gaceta Técnica, 22(1), 66-78. https://doi.org/10.13140/RG.2.2.18901.55520