沥青混合料施工配合比CAD系统研究及优化分析
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摘要
沥青混合料施工配合比设计是道路施工中的一个关键环节,传统的“平衡面积法”,需要进行多次手工试算,计算工作量大,易产生误差,并且无法进行经济分析。针对这种情况,本文提出了精确解法,并结合所提出的沥青用量预估模型,实现了施工配合比的快速调整,可根据多种方案的比选进行优化设计。并根据实际施工需要,开发了沥青混合料施工配合比设计的计算机辅助设计系统,并结合具体工程的实际算例,与传统的设计方法做了对比,得出了如下结论:
1.利用本文的沥青混合料配合比辅助设计,实现了配合比快速调整以及配合比的优化设计。
2.利用本文提出的沥青用量预估理论,可以实现多种级配方案的经济比选,有利于降低工程造价,节约投资。
3.根据本文建立的油石比与稳定度、流值、密度、孔隙率、饱和度的数学模型,可以精确地确定沥青油石比,避免了人工画图带来的误差。
4.利用本文的沥青混合料配合比综合设计软件系统,可以迅速、精确、方便地进行沥青混合料配合比设计以及沥青用量预估和成本分析。
5.进行配合比优化设计后,混合料总体质量将大大提高,同时沥青路面的强度、耐久性、行车舒适性和安全性亦将大有改观,道路的运营、维护成本显著降低,使用寿命也将延长,整体社会效益比较显著。
Asphalt mix design is a key tache in the construction of roads. The traditional method is trail calculation by hand. The speed is slowly and it is easily to make mistakes. In this thesis, a new accuracy method is brought forward. With the predicting models of asphalt dosage put forward by the thesis, the new method can adjust the mixing proportion quickly and it can make optimization design using many schemes. According to the actual demand a CAD system for asphalt mix design is developed by this thesis. Combining with the engineering examples; we have the conclusions as follows.
1. Using the method developed by the thesis, it becomes into realization to adjust the mixing proportion quickly and make optimization design.
2. Using the predicting models of asphalt proportion put forward by this thesis, it can compare the different gradation schemes and it is better to reduce the construction cost.
3. According to die mathematical models developed by the thesis, the ratio of bitumen to stone can be gained accurately, and human error can be avoided.
4. Using the software system developed by the thesis, it can make asphalt mix design and predicts asphalt dosage and does cost analysis quickly and accurately.
5. Optimization design will improve the quality of mixture greatly. At the same time, the strength, durability, comfortability and safety of asphalt pavement can be improved greatly, and the cost of road maintenance can be reduced evidently. Also the road life will be prolonged and the distinguished social benefits can be gained.
1.利用本文的沥青混合料配合比辅助设计,实现了配合比快速调整以及配合比的优化设计。
2.利用本文提出的沥青用量预估理论,可以实现多种级配方案的经济比选,有利于降低工程造价,节约投资。
3.根据本文建立的油石比与稳定度、流值、密度、孔隙率、饱和度的数学模型,可以精确地确定沥青油石比,避免了人工画图带来的误差。
4.利用本文的沥青混合料配合比综合设计软件系统,可以迅速、精确、方便地进行沥青混合料配合比设计以及沥青用量预估和成本分析。
5.进行配合比优化设计后,混合料总体质量将大大提高,同时沥青路面的强度、耐久性、行车舒适性和安全性亦将大有改观,道路的运营、维护成本显著降低,使用寿命也将延长,整体社会效益比较显著。
Asphalt mix design is a key tache in the construction of roads. The traditional method is trail calculation by hand. The speed is slowly and it is easily to make mistakes. In this thesis, a new accuracy method is brought forward. With the predicting models of asphalt dosage put forward by the thesis, the new method can adjust the mixing proportion quickly and it can make optimization design using many schemes. According to the actual demand a CAD system for asphalt mix design is developed by this thesis. Combining with the engineering examples; we have the conclusions as follows.
1. Using the method developed by the thesis, it becomes into realization to adjust the mixing proportion quickly and make optimization design.
2. Using the predicting models of asphalt proportion put forward by this thesis, it can compare the different gradation schemes and it is better to reduce the construction cost.
3. According to die mathematical models developed by the thesis, the ratio of bitumen to stone can be gained accurately, and human error can be avoided.
4. Using the software system developed by the thesis, it can make asphalt mix design and predicts asphalt dosage and does cost analysis quickly and accurately.
5. Optimization design will improve the quality of mixture greatly. At the same time, the strength, durability, comfortability and safety of asphalt pavement can be improved greatly, and the cost of road maintenance can be reduced evidently. Also the road life will be prolonged and the distinguished social benefits can be gained.
引文
1.张登良、王哲人,沥青与沥青混合料,人民交通出版社,1993.
2.严家仅,道路建筑材料,人民交通出版社,1990.
3.公路沥青路面施工技术规范了TJ032-94,人民交通出版社,1994.
4.公路沥青路面设计规范JTJ012—97,人民交通出版社,1997.
5.高等级公路半刚性基层沥青路面,人民交通出版社,1998.
6.沙庆林,高等级公路半刚性路面,中国建筑工业出版社.
7.沈金安,改性沥青与SMA路面,人民交通出版社,1999.
8.徐士良,计算机常用算法,清华大学出版社,1995.
9.廖正环等,公路工程实用电算,人民交通出版社,1998.
10.林绣贤、游国兰,沥青混合料目标配合比设计快速确定法,华东公路,2001,01
11.张有发,沥青混合料矿料配合比的计算机辅助设计,中国市政工程,2001,02
12.王守立,沥青混合料目标配合比设计有关问题的分析,东北公路,2001,03
13.戴文斌,沥青混合料配合比设计与压实度标准,公路,2001,10
14.廖清炯、何玲,路面下面层沥青混合料配合比设计,公路与汽运,2001,04
15.沈金安,关于沥青混合料配合比设计确定最佳沥青用量的问题,公路,2001,11
16.杨慧光、叶燕呼、滕雪峰,应用Excel进行沥青混合料配合比设计的优化计算,公路交通科技,2000,05
17.张铁志,热拌沥青混合料配合比设计在生产中的实现,辽宁交通科技,2000,02
18.姚爱玲、孙治军、王有德,沥青混合料配合比优化设计系统,西安公路交通大学学报,2000,02
19.王爱红、王跃伟、王华军,对高等级公路沥青混合料配合比设计的几点看法,山西交通科技,1998,05
20.郝培文、张登良,考虑路用性能的沥青混合料配合比设计,西安公路交通大学学报,1997,01
21.李家培、魏如喜,GTM法改性沥青混合料配合比设计及应用,中国市政工程,2001,03
22.张韵华、奚梅成、陈效群,数值计算方法和算法,科学出版社,2000.
2.严家仅,道路建筑材料,人民交通出版社,1990.
3.公路沥青路面施工技术规范了TJ032-94,人民交通出版社,1994.
4.公路沥青路面设计规范JTJ012—97,人民交通出版社,1997.
5.高等级公路半刚性基层沥青路面,人民交通出版社,1998.
6.沙庆林,高等级公路半刚性路面,中国建筑工业出版社.
7.沈金安,改性沥青与SMA路面,人民交通出版社,1999.
8.徐士良,计算机常用算法,清华大学出版社,1995.
9.廖正环等,公路工程实用电算,人民交通出版社,1998.
10.林绣贤、游国兰,沥青混合料目标配合比设计快速确定法,华东公路,2001,01
11.张有发,沥青混合料矿料配合比的计算机辅助设计,中国市政工程,2001,02
12.王守立,沥青混合料目标配合比设计有关问题的分析,东北公路,2001,03
13.戴文斌,沥青混合料配合比设计与压实度标准,公路,2001,10
14.廖清炯、何玲,路面下面层沥青混合料配合比设计,公路与汽运,2001,04
15.沈金安,关于沥青混合料配合比设计确定最佳沥青用量的问题,公路,2001,11
16.杨慧光、叶燕呼、滕雪峰,应用Excel进行沥青混合料配合比设计的优化计算,公路交通科技,2000,05
17.张铁志,热拌沥青混合料配合比设计在生产中的实现,辽宁交通科技,2000,02
18.姚爱玲、孙治军、王有德,沥青混合料配合比优化设计系统,西安公路交通大学学报,2000,02
19.王爱红、王跃伟、王华军,对高等级公路沥青混合料配合比设计的几点看法,山西交通科技,1998,05
20.郝培文、张登良,考虑路用性能的沥青混合料配合比设计,西安公路交通大学学报,1997,01
21.李家培、魏如喜,GTM法改性沥青混合料配合比设计及应用,中国市政工程,2001,03
22.张韵华、奚梅成、陈效群,数值计算方法和算法,科学出版社,2000.