[1] 拾方治,赫振华,吕伟民,等.沥青发泡原理及发泡特性的试验研究[J].建筑材料学报,2004,7(2):183-187.
SHI Fang-zhi, HE Zhen-hua, LYU Wei-min, et al. Principle and study of bitumen foaming[J]. Journal of Building Materials, 2004, 7(2): 183-187.(in Chinese)
[2] 刘 峰.泡沫沥青冷再生技术及应用[J].公路交通技术,2010(6):37-42.
LIU Feng. Foam asphalt cold regeneration technology and application[J]. Technology of Highway and Transport, 2010(6): 37-42.(in Chinese)
[3] 余 亮,陆海兵,拾方治.沥青发泡特性的评价指标研究[J].建设机械技术与管理,2009,22(8):82-85.
YU Liang, LU Hai-bing, SHI Fang-zhi. Research on evaluation indexes of the foaming feature of asphalt[J]. Construction Machinery Technology and Management, 2009, 22(8): 82-85.(in Chinese)
[4] 张换水,张思捷.多指标评定沥青发泡效果的研究[J].交通世界,2016(35):30-31,29.
ZHANG Huan-shui, ZHANG Si-jie. Study on multi-index evaluation of asphalt foaming effect[J]. Transpoworld, 2016(35): 30-31, 29.(in Chinese)
[5] 王 燕.泡沫(乳化)沥青冷再生混合料的剪切性能[J].筑路机械与施工机械化,2017,34(9):81-88.
WANG Yan. Shear properties of cold recycled foamed(emulsified)asphalt mixture[J]. Road Machinery and Construction Mechanization, 2017, 34(9): 81-88.(in Chinese)
[6] 宋朝波,王艳敏.GFAT1型沥青发泡装置的水路系统设计[J].筑路机械与施工机械化,2018,35(11):90-93.
SONG Zhao-bo, WANG Yan-min. Design of waterway system for GFAT1 asphalt foaming device[J]. Road Machinery and Construction Mechanization, 2018, 35(11): 90-93.(in Chinese)
[7] 杨向阳,胡 林.泡沫沥青温拌混合料的室内试验[J].筑路机械与施工机械化,2018,35(5):127-130.
YANG Xiang-yang, HU Lin. Study on foamed warm mix asphalt using laboratory experiments[J]. Road Machinery and Construction Mechanization, 2018, 35(5): 127-130.(in Chinese)
[8] CHENG Hai-ying, WEI Fu-dong, HU Zhi-yong, et al. The
structural parameters optimization of asphalt foaming cavity by response surface analyzing[J]. Modelling, Measurement and Control B, 2016, 85(1): 134-149.
[9] WANG An-lin, FU Zhen-sheng, LIU Fu-min. Asphalt foaming quality control model using neural network and parameters optimization[J]. International Journal of Pavement Research and Technology, 2018, 11(4): 401-407.
[10] HE G P, WONG W G. Decay properties of the foamed
bitumens[J]. Construction and Building Materials, 2005, 20(10): 866-877.
[11] 曹翠星,何桂平,邱 欣.两种进口沥青衰退方程的比较和机理分析[J].中国公路学报,2005,18(3):32-36.
CAO Cui-xing, HE Gui-ping, QIU Xin. Comparison and mechanism analysis of decay functions of two types of imported bitumens[J]. China Journal of Highway and Transport, 2005, 18(3): 32-36.(in Chinese)
[12] 杨虎荣,何桂平,韩海峰.不同粘度沥青的发泡性能比较和机理分析[J].公路,2004(6):107-112.
YANG Hu-rong, HE Gui-ping, HAN Hai-feng. Effect bitumen viscosity on foamability[J]. Highway, 2004(6): 107-112.(in Chinese)
[13] 李 峰,黄颂昌,徐 剑.泡沫沥青衰变方程与发泡特性评价[J].同济大学学报(自然科学版),2011,39(7):1031-1034.
LI Feng, HUANG Song-chang, XU Jian. Foamed bitumen decay equation and bitumen foaming characteristics evaluation[J]. Journal of Tongji University(Natural Science), 2011, 39(7): 1031-1034.(in Chinese)
[14] 李国峰.发泡用水量对橡胶沥青高低温性能的影响研究[J].河南理工大学学报(自然科学版),2018,37(5):147-151.
LI Guo-feng. Effects of foaming water content on high and low temperature performance of rubber asphalt[J]. Journal of Henan Polytechnic University(Natural Science), 2018, 37(5): 147-151.(in Chinese)
[15] 李 强,李 豪,卢 勇,等.沥青发泡性能机理分析及评价指标优化研究[J].现代交通技术,2011,8(4):7-10.
LI Qiang, LI Hao, LU Yong, et al. Research on asphalt foaming characteristic mechanism analysis and foaming index optimization[J]. Modern Transportation Technology, 2011, 8(4): 7-10.(in Chinese)
[16] 何 佳.泡沫沥青发泡工艺参数研究[D].西安:长安大学,2010.
HE Jia. Study on asphalt foaming process parameters[D]. Xi'an: Chang'an University, 2010.(in Chinese)
[17] 王启超.沥青发泡工艺参数试验与仿真研究[D].西安:长安大学,2012.
WANG Qi-chao. The test of asphalt foaming process parameters and the study of asphalt foaming simulation[D]. Xi'an: Chang'an University, 2012.(in Chinese)
[18] 李维维,李世坤.泡沫沥青形成机理的探讨[J].筑路机械与施工机械化,2010,27(12):46-49.
LI Wei-wei, LI Shi-kun. Discussion on formation mechanism of foamed asphalt[J]. Road Machinery and Construction Mechanization, 2010, 27(12): 46-49.(in Chinese)
[19] 李世坤.沥青再生设备综述[J].筑路机械与施工机械化,2003,20(1):21-22.
LI Shi-kun. Overview of asphalt recycling equipment[J]. Road Machinery and Construction Mechanization, 2003, 20(1): 21-22.(in Chinese)
[20] 郑晓卫,张茂峰,周建山,等.常用基质沥青发泡特性的试验研究[J].公路与汽运,2009(1):95-99.
ZHENG Xiao-wei, ZHANG Mao-feng, ZHOU Jian-shan, et al. Experimental study on foaming characteristics of common matrix asphalt[J]. Highway and Automotive Applications,2009(1): 95-99.(in Chinese)
[21] 李 珂, 焦生杰.冷再生设备制备不同材料泡沫沥青工艺参数优化[J]. 长安大学学报(自然科学版),2014,34(1):13-17.
LI Ke, JIAO Sheng-jie. Optimization of process parameters for preparation of different foamed asphalts using cold recycling equipment[J]. Journal of Chang'an University(Natural Science Edition), 2014, 34(1): 13-17.(in Chinese)
[22] 高 超.泡沫沥青冷再生混合料MMLS3试验轮辙曲线特征及影响机理[J].中国公路学报,2019,32(1):46-56.
GAO Chao. Characteristics of fracture curve of MMLS3 test and fatigue damage mechanism of foam asphalt cold recycled mixture[J]. China Journal of Highway and Transport, 2019, 32(1): 46-56.(in Chinese)
[23] 王启超.基于Fluent的沥青发泡腔结构研究[J].筑路机械与施工机械化,2012,29(10):62-64.
WANG Qi-chao. Study on structure of asphalt foaming cavity based on fluent[J]. Road Machinery and Construction Mechanization, 2012, 29(10): 62-64.(in Chinese)
[24] 宋朝波.沥青温拌发泡装置结构与参数研究[D].西安:长安大学,2017.
SONG Zhao-bo. Study on structure and parameters of asphalt warm foaming device[D]. Xi'an: Chang'an University, 2017.(in Chinese)
[25] 程海鹰,张 昱,王安麟,等.沥青发泡本质特征解析下的腔体设计与评价[J].机械工程学报,2012,48(13):152-159.
CHENG Hai-ying,ZHANG Yu,WANG An-lin,et al. Foaming chamber design and evaluation based on the analysis of bitumen foaming essential characteristics[J]. Journal of Mechanical Engineering, 2012, 48(13): 152-159.(in Chinese)
[26] 王安麟,陈 强,邱若凡.沥青发泡腔内多相流场解析与试验的对比评价[J].建筑材料学报,2013,16(4):621-625.
WANG An-lin, CHEN Qiang, QIU Ruo-fan. Comparative evaluation for analysis and experiment of multiphase flow field in asphalt foaming chamber[J]. Journal of Building Materials, 2013, 16(4): 621-625.(in Chinese)
[27] 杨 亮.沥青发泡工艺性能指标的试验研究[J].北方交通,2015(9):89-91.
YANG Liang. Experimental study on performance index of asphalt foaming process[J]. Northern Communications, 2015(9): 89-91.(in Chinese)
[28] 徐金枝,郝培文.沥青发泡性能评价指标及优化设计研究[J].建筑材料学报,2011,14(6):776-780,802.
XU Jin-zhi, HAO Pei-wen. Research on the evaluation index and optimization design of asphalt foaming characteristics[J]. Journal of Building Materials, 2011, 14(6): 776-780, 802.(in Chinese)