代表性學術論文:
[1] Y. Li, A.A.A. Abdelmagid, Y. Qiu, E. Yang, Y. Chen, Study on the Aging Mechanism and Microstructure Analysis of Rice-Husk-Ash- and Crumb-Rubber-Powder-Modified Asphalt, Polymers (Basel), 14(10) (2022).
[2] Y. Li, S.A.M. Hesp, On the use of empirical phase angle limits for the grading of asphalt binder, Construction and Building Materials, 346 (2022).
[3] J. Men, Y. Li, P. Cheng, Z. Zhang, Recycling phosphogypsum in road construction materials and associated environmental considerations: A review, Heliyon, 8(11) (2022) e11518.
[4] P. Cheng, G. Ma, Y. Li, Preparation and Performance Improvement Mechanism Investigation of High-Performance Cementitious Grout Material for Semi-Flexible Pavement, Polymers (Basel), 15(12) (2023).
[5] Y. Li, C. Lv, Assessment of the effect of straw lignin-based synthetic resin as a modifier on the rheological properties of asphalt binder towards better utilization of straw biomass, Multidiscipline Modeling in Materials and Structures, 19(4) (2023) 707-727.
[6] Y. Li, C. Lv, P. Cheng, Y. Chen, Z. Zhang, Application of bio-resin in road materials: Rheological and chemical properties of asphalt binder modified by lignin-phenolic resin, Case Studies in Construction Materials, 18 (2023).
[7] Li Y, Hesp S A M. Enhanced Acceptance Specification of Asphalt Binder to Drive Sustainability in the Paving Industry[J]. Materials, 2021, 14(22): 6828.
[8] Li Y, Ding H, Nie Y, et al. Effective control of flexible asphalt pavement cracking through quality assurance testing of extracted and recovered binders[J]. Construction and Building Materials, 2021, 273: 121769.
[9] Li Y, Cheng P, Siddig E A A, et al. Investigation on thermal aging stability of crosslinked styrene butadiene rubber modified asphalt binder[J]. Road Materials and Pavement Design, 2020, 21(7): 1902-1917.
[10] Ming L Y, Feng C P, Siddig E A A. Effect of phenolic resin on the performance of the styrene-butadiene rubber modified asphalt[J]. Construction and Building Materials, 2018, 181: 465-473.
[11] Cheng P, Li Y, Zhang Z. Effect of Phenolic Resin on the Rheological and Morphological Characteristics of Styrene-Butadiene Rubber-Modified Asphalt[J]. Materials, 2020, 13(24): 5836.
[12] Cheng P, Zhang Z, Yang Z, et al. Evaluation of Self-Healing Performance and Mechanism Analysis of Nano-Montmorillonite-Modified Asphalt[J]. International Journal of Pavement Research and Technology, 2021: 1-13.
[13] Cheng P, Li Y, Zhang Z. Effect of phenolic resin on the rheological, chemical, and aging properties of SBR-modified asphalt[J]. International Journal of Pavement Research and Technology, 2021, 14(4): 421-427.
[14]Siddig E A A, Feng C P, Ming L Y. Effects of ethylene vinyl acetate and nanoclay additions on high-temperature performance of asphalt binders[J]. Construction and Building Materials, 2018, 169: 276-282.
[15] Zhang Z, Cheng P, Li Y. Effect of nano montmorillonite on the multiple self-healing of microcracks in asphalt mixture[J]. Road Materials and Pavement Design, 2021, 22(12): 2689-2703.
[16] Siddig E, Cheng P, Li Y. Effects of polymer modified nanoclay on the performance of asphalt mixture[J]. Инженерно-строительный журнал, 2019 (7): 98-111.
[17] Akentuna M, Ding H, Khan A N, et al. Improved performance grading of asphalt cement and hot mix asphalt in Ontario, Canada[J]. International Journal of Pavement Research and Technology, 2021, 14(3): 267-275.
[18] Pan R, Li Y. Effect of warm mix rubber modified asphalt mixture as stress absorbing layer on anti-crack performance in cold region[J]. Construction and Building Materials, 2020, 251: 118985.
[19] Zhang Z, Cheng P, Yang Z, et al. Self-healing properties of nano-montmorillonite-enhanced asphalt binders from the perspective of energetics and morphology[J]. Materials and Structures, 2021, 54(2): 1-15.
[20] Cheng P, Zhang Z, Yang Z, et al. Investigating the Effectiveness of Nano-Montmorillonite on Asphalt Binder from Rheological, Thermodynamics, and Chemical Perspectives[J]. Materials, 2021, 14(6): 1433.
[21]程培峰,張展銘,李藝銘.多聚磷酸/丁苯橡膠複合改性瀝青的抗紫外老化性能[J].合成橡膠工業,2020,43(01):60-65.
[22]程培峰,張展銘,李藝銘,王玉偉.4,4′-二硫代二嗎啉交聯丁苯橡膠改性瀝青的抗紫外老化性能[J].合成橡膠工業,2019,42(04):312-317.
[23]程培峰,張展銘,李藝銘.星點設計-效應面法優化PPA/SBR複合改性瀝青制備工藝[J].公路工程,2019,44(01):184-188.
[24]程培峰,李藝銘.DTDM對SBR改性瀝青性能及混合料路用性能的影響[J].中外公路,2017,37(04):294-297.
[25]程培峰,李藝銘,李吉庭,李新甯.橡膠瀝青老化性能的試驗研究[J].新型建築材料,2017,44(03):144-147.
其他成果:
李藝銘;程培峰;任明凱,一種瀝青物理硬化評價的試驗儀器及方法,CN114965168B,發明專利。
