上海理工大学学报
上海理工大學學報
상해리공대학학보
Journal of University of Shanghai for Science and Technology
2015年
5期
505-510
,共6页
泡沫沥青%水泥%冷再生混合料%配合比设计%二次冷再生
泡沫瀝青%水泥%冷再生混閤料%配閤比設計%二次冷再生
포말력청%수니%랭재생혼합료%배합비설계%이차랭재생
foamed asphalt%cement%cold-recycled mixes%mix proportion design%secondary cold recycling
分别采用泡沫沥青与水泥作为稳定剂对泡沫沥青冷再生路面进行二次冷再生试验研究。研究表明,以泡沫沥青作稳定剂进行二次冷再生混合料设计形成的泡沫沥青二次冷再生混合料,其抗拉性能、水稳性能与二次冷再生混合料中细料含量有关;高温稳定性能与铣刨料用量、铣刨料中沥青老化程度以及二次冷再生混合料中细料含量有关。以水泥作稳定剂进行二次冷再生混合料设计,采用7 d 无侧限抗压强度能够很好地确定新添加骨料比例,适量的新添加骨料能明显增大二次冷再生混合料的7 d 无侧限抗压强度。根据室内研究成果,对试验路段进行辅筑,证明两种二次冷再生技术可行,辅筑路段路用性能良好。
分彆採用泡沫瀝青與水泥作為穩定劑對泡沫瀝青冷再生路麵進行二次冷再生試驗研究。研究錶明,以泡沫瀝青作穩定劑進行二次冷再生混閤料設計形成的泡沫瀝青二次冷再生混閤料,其抗拉性能、水穩性能與二次冷再生混閤料中細料含量有關;高溫穩定性能與鐉鑤料用量、鐉鑤料中瀝青老化程度以及二次冷再生混閤料中細料含量有關。以水泥作穩定劑進行二次冷再生混閤料設計,採用7 d 無側限抗壓彊度能夠很好地確定新添加骨料比例,適量的新添加骨料能明顯增大二次冷再生混閤料的7 d 無側限抗壓彊度。根據室內研究成果,對試驗路段進行輔築,證明兩種二次冷再生技術可行,輔築路段路用性能良好。
분별채용포말력청여수니작위은정제대포말력청랭재생로면진행이차랭재생시험연구。연구표명,이포말력청작은정제진행이차랭재생혼합료설계형성적포말력청이차랭재생혼합료,기항랍성능、수은성능여이차랭재생혼합료중세료함량유관;고온은정성능여선포료용량、선포료중력청노화정도이급이차랭재생혼합료중세료함량유관。이수니작은정제진행이차랭재생혼합료설계,채용7 d 무측한항압강도능구흔호지학정신첨가골료비례,괄량적신첨가골료능명현증대이차랭재생혼합료적7 d 무측한항압강도。근거실내연구성과,대시험로단진행보축,증명량충이차랭재생기술가행,보축로단로용성능량호。
Foamed bitumen and cement were respectively used as a stabilizer for foamed asphalt cold recycled roads to study the secondary cold recycling technology.The laboratory research results show that for the secondary cold recycled mixes with foamed bitumen as a stabilizer,their tensile properties and water-stable performance was related to the fines content in the mixes;the high temperature stability of secondary cold recycling mixes is related to the RAP(recycling asphalt pavement)content,the aging degree of asphalt and the fines content.Cement was adopted as a stabilizer in the second regeneration mix design,and the 7 d unconfined compressive strength was made in use to well determine the proportion of newly added aggregate.An appropriate new aggregate can significantly increase the 7 d unconfined compressive strength of mixes.Through the laboratory study and tested road application,the foundation of future development of the secondary cold recycling technology was laid.