Your search keyword '"CA mortar"' showing total 9 results

1. Analysis of the shear failure between track slab and CA mortar layer caused by thermal effect for ballastless track

Author

Zhang, Tao, Zhang, Zheyuan, Tian, Hongming, Lu, Chen, Wang, Wei, Song, Wanxin, and Liu, Xialin

Published

2025

2. 基于 1D-CNN 的无砟轨道 CA 砂浆脱空识别.

Author

陈宪麦, 李鑫海, 徐磊, 邓燚, 黄厚龙, and 邓云强

Abstract

Copyright of Journal of Railway Science & Engineering is the property of Journal of Railway Science & Engineering Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. Influences of cement asphalt emulsified mortar construction on track slab geometry status

Author

Wang, Tao, Wu, Shaoliang, Jia, Hengqiong, Wei, Zhao, Li, Haiyan, Shao, Piyan, Peng, Shanqing, and Shi, Yi

Published

2023

4. Influences of cement asphalt emulsified mortar construction on track slab geometry status

Author

Tao Wang, Shaoliang Wu, Hengqiong Jia, Zhao Wei, Haiyan Li, Piyan Shao, Shanqing Peng, and Yi Shi

Subjects

Ballastless track, Track slab, CA mortar, Geometry status, Transportation engineering, TA1001-1280, Railroad engineering and operation, TF1-1620

Abstract

Purpose – The construction of cement asphalt (CA) emulsified mortar can obviously disturb the slab status after the fine adjustment. To decrease or eliminate the influence of CA mortar grouting on track slab geometry status, the effects of grouting funnel, slab pressing method, mortar expansion ratio, seepage ratio and grouting area on China Railway Track System Type (CRTS I) track slab geometry status were discussed in this paper. Design/methodology/approach – Combined with engineering practice, this paper studied the expansion law of filling layer mortar, the liquid level height of the filling funnel, the pressure plate device and the amount of exudation water and systematically analyzed the influence of filling layer mortar construction on the state of track slab. Relevant precautions and countermeasures were put forward. Findings – The results showed that the track slab floating values of four corners were different with the CA mortar grouting and the track slab corner near CA mortar grouting hole had the maximum floating values. The anti-floating effect of “7” shaped slab pressing device was more efficient than fixed-joint angle iron, and the slab floating value could be further decreased by increasing the amount of “7” shaped slab pressing devices. After CA mortar grouting, the track slab floating pattern had a close correlation with the expansion rate and water seepage rate of CA mortar over time and the expansion and water seepage rate of the mortar were faster when the temperature was high. Furthermore, the use of strip CA mortar filling under the rail bearing platform on both sides could effectively reduce the float under the track slab, and it could also save mortar consumption and reduce costs. Originality/value – This study plays an important role in controlling the floating values, CA mortar dosage and the building cost of projects by grouting CA mortar at two flanks of filling space. The research results have guiding significance for the design and construction of China's CRTS I, CRTS II and CRTS III track slab.

Published

2023

5. 移动荷载下CA砂浆受水浸泡损伤后轨道板的动力响应研究.

Author

赵 一, 董 军, 刘亚立, and 李国华

Abstract

Copyright of Guangdong Architecture Civil Engineering is the property of Guangdong Architecture Civil Engineering Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

6. Experimental study of the gap between track slab and cement asphalt mortar layer in CRTS I slab track

Author

Tao Wang, Hengqiong Jia, Zike Liu, Zhao Wei, Xiao Xie, Shaoliang Wu, and Haiyan Li

Subjects

Ballastless track, Rail, Track slab, CA mortar, Gap, Hydraulic engineering, TC1-978, Transportation engineering, TA1001-1280

Abstract

Abstract Gap exists in the interface of cement asphalt emulsion mortar and CRTS I track slab universally, which is more severe at four corners than other parts of the track slab. In this work, the temperature and elevation of CRTS I slab track with and without rail were measured continuously to study the influence mechanism of rail on the gap. The results show that the alternating temperature gradient of track slab is the main reason that causes the gap, and laying rail can efficiently decrease the gap size in the slab track without rail. Compared with the slab track without rail, the maximum elevation occurred at the corner, the maximum gap width and the maximum gap depth of the slab track with rail laid were decreased by 0.45 mm (25.7%), 0.75 mm (46.6%) and 9.5 mm (59.4%), respectively; meanwhile, the disqualification ratio at corners was reduced to 5.9%, which is 50% less than that of the track without rail. When elevation mismatch occurs in adjacent track slabs, a gasket should be placed at rail-bearing bed below the track slab in order to avoid the lower slab being dragged up by the higher slab and the further occurrence of new gap.

Published

2018

7. Experimental study of the gap between track slab and cement asphalt mortar layer in CRTS I slab track.

Author

Wang, Tao, Jia, Hengqiong, Liu, Zike, Wei, Zhao, Xie, Xiao, Wu, Shaoliang, and Li, Haiyan

Subjects

CONCRETE slabs, ASPHALT, RAILROADS, INTERFACES (Physical sciences)

Abstract

Gap exists in the interface of cement asphalt emulsion mortar and CRTS I track slab universally, which is more severe at four corners than other parts of the track slab. In this work, the temperature and elevation of CRTS I slab track with and without rail were measured continuously to study the influence mechanism of rail on the gap. The results show that the alternating temperature gradient of track slab is the main reason that causes the gap, and laying rail can efficiently decrease the gap size in the slab track without rail. Compared with the slab track without rail, the maximum elevation occurred at the corner, the maximum gap width and the maximum gap depth of the slab track with rail laid were decreased by 0.45 mm (25.7%), 0.75 mm (46.6%) and 9.5 mm (59.4%), respectively; meanwhile, the disqualification ratio at corners was reduced to 5.9%, which is 50% less than that of the track without rail. When elevation mismatch occurs in adjacent track slabs, a gasket should be placed at rail-bearing bed below the track slab in order to avoid the lower slab being dragged up by the higher slab and the further occurrence of new gap. [ABSTRACT FROM AUTHOR]

Published

2018

8. Research on water seepage of cement asphalt emulsified (CA) mortar.

Author

Wang, Tao, Jia, Hengqiong, Li, Honggang, Li, Haiyan, and Shao, Piyan

Subjects

*ASPHALT concrete, *BITUMINOUS materials, *WATER seepage, *MORTAR, *STABILIZING agents

Abstract

In this paper, water seepage of cement asphalt emulsified mortar (CA mortar) was studied in a small-scale track model, including the seepage rate, the chemical composition of the seeping water and its effects upon CA mortar. It is shown that the seepage time is negatively correlated to the environment temperature. A higher temperature would lead to a shorter seepage time, while the cumulative amount of seepage is similar. Seepage may be induced by the volume expansion of CA mortar in the early age, which is evidenced by a positive correlation between the seepage rate of the small-scale mortar sample and the expansion rate measured on a cylindrical sample. The solid components in the seeping water is low, initially less than 12% and ultimately at 3–4%, thus has negligible effect on the mix proportion. In addition, a “size effect” is noted, in which the water seepage is more significant in the field, compared with the small-scale model. [ABSTRACT FROM AUTHOR]

Published

2016

9. Fatigue damage evolution analysis of the CA mortar of ballastless tracks via damage mechanics-finite element full-couple method.

Author

Deng, Shijie, Ren, Juanjuan, Wei, Kai, Ye, Wenlong, Du, Wei, and Zhang, Kaiyao

Subjects

*MORTAR, *STRESS concentration, *MAGNITUDE (Mathematics)

Abstract

• The secondary development of fatigue damage constitutive for CA mortar was conducted. • A damage-finite element full-couple calculation method of CA mortar was established. • Stress redistribution of CA mortar for ballastless track was caused by severe damage. • 0.5 was a critical stress level to determine whether the redistribution should be taken into account. Ballastless track withstand tens of millions or even hundreds of millions of times of train loads, its functional parts are prone to fatigue failure. In this paper, the high-cycle fatigue damage constitutive relationship of CA mortar was developed as a material subroutine, to embed into the refined FE model of CRTS-I ballastless track, establishing a damage -finite element full-couple method to analyze the influence of key factors such as void, initial deterioration and wheel load on the accumulation of fatigue damage of CA mortar. Main conclusions are as follows: void plays a more important role in the accumulation of fatigue damage of the CA mortar than initial deterioration and wheel load change. When the void length is 2.0 m, the damage value of the structure under 15 million times of wheel loads has exceeded 0.36, which is 5 orders of magnitude higher than that under the non-void condition. Laterally, the load stress below the loading point on the rail is significantly larger than at other positions, and the load stress distribution gradually gets uniformed. Along the longitudinal direction of the CA mortar, the stress at core bearing elements gradually decreases with the increase of damage, while the decreased stress is compensated by the increased stress in a certain distance from the void end along the longitudinal direction. With an initial deterioration of 50%, when the wheel load is 150 kN, the position below the rail reaches the maximum damage first, followed by the void edge, and then the damage spreads further into the middle part of the CA mortar along the lateral direction until the whole elements from the top surface at the void edge is damaged. In our study that spanned 15 million times of fatigue loading cycle, the stress level 0.5 was a critical value to determine whether the load stress redistribution caused by damage should be taken into account when using the damage - finite element full coupled method. [ABSTRACT FROM AUTHOR]

Published

2021