Your search keyword '"CA mortar"' showing total 37 results

1. Analysis of Vehicle-Track Coupled Dynamics Model of Slab Ballastless Track Considering Cohesion Model

Author

Liang, Zhicheng, Zhang, Kun, Li, Xinran, Zheng, Zheng, Editor-in-Chief, Xi, Zhiyu, Associate Editor, Gong, Siqian, Series Editor, Hong, Wei-Chiang, Series Editor, Mellal, Mohamed Arezki, Series Editor, Narayanan, Ramadas, Series Editor, Nguyen, Quang Ngoc, Series Editor, Ong, Hwai Chyuan, Series Editor, Sun, Zaicheng, Series Editor, Ullah, Sharif, Series Editor, Wu, Junwei, Series Editor, Zhang, Baochang, Series Editor, Zhang, Wei, Series Editor, Zhu, Quanxin, Series Editor, Zheng, Wei, Series Editor, Yuan, Bingxiang, editor, Bilgin, Hüseyin, editor, Luo, Qingzi, editor, and Han, Zejun, editor

Published

2024

2. Study on physical and mechanical properties of cement asphalt emulsified mortar under track slab

Author

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

Published

2024

3. Study on physical and mechanical properties of cement asphalt emulsified mortar under track slab

Author

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

Subjects

CA mortar, Electric flux, Compressive strength, Density, Transportation engineering, TA1001-1280, Railroad engineering and operation, TF1-1620

Abstract

Purpose – During the construction process of the China Railway Track System (CRTS) I type filling layer, the nonwoven fabric bags have been used as grouting templates for cement asphalt (CA) emulsified mortar. The porous structure of nonwoven fabrics endowed the templates with breathability and water permeability. The standard requires that the volume expansion rate of CA mortar must be controlled within 1%–3%, which can generate expansion pressure to ensure that the cavities under track slabs are filled fully. However, the expansion pressure caused some of the water to seep out from the periphery of the filling bag, and it would affect the actual mix proportion of CA mortar. The differences in physical and mechanical properties between the CA mortar under track slabs and the CA mortar formed in the laboratory were studied in this paper. The relevant results could provide important methods for the research of filling layer materials for CRTS I type and other types of ballastless tracks in China. Design/methodology/approach – During the inspection of filling layer, the samples of CA mortar from different working conditions and raw materials were taken by uncovering the track slabs and drilling cores. The physical and mechanical properties of CA mortar under the filling layer of the slab were systematically analyzed by testing the electrical flux, compressive strength and density of mortar in different parts of the filling layer. Findings – In this paper, the electric flux, the physical properties and mechanical properties of different parts of CA mortar under the track slab were investigated. The results showed that the density, electric flux and compressive strength of CA mortar were affected by the composition of raw materials for dry powders and different parts of the filling layer. In addition, the electrical flux of CA mortar gradually decreased within 90 days’ age. The electrical flux of samples with the thickness of 54 mm was lower than 500 C. Therefore, the impermeability and durability of CA mortar could be improved by increasing the thickness of filling layer. Besides, the results showed that the compressive strength of CA mortar increased, while the density and electric flux decreased gradually, with the prolongation of hardening time. Originality/value – During 90 days' age, the electrical flux of the CA mortar gradually decreased with the increase of specimen thickness and the electrical flux of the specimens with the thickness of 54 mm was lower than 500 C. The impermeability and durability of the CA mortar could be improved by increasing the thickness of filling layer. The proposed method can provide reference for the further development and improvement of CRTS I and CRTS II type ballastless track in China.

Published

2024

4. 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

5. 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

6. 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

7. Creep model of cement and asphalt (CA) mortar based on micro-meso structure.

Author

Zhu, Huasheng, Zeng, Xiaohui, Lan, Xuli, Long, Guangcheng, and Xie, Youjun

Abstract

CA mortar, as a filling layer, has been widely used in slab ballastless track. Since the creep deformation directly determines the track regularity and the train ride comfort, we investigated the effect of various stress levels on CA mortar creep. Results showed that the creep strain of CA mortar increased by 10 times when the stress level increased from 10% σ p to 40% σ p . Furthermore, it was first discovered that creep of CA mortar was attributed to the organic–inorganic interface slip and the propagation of microcracks. This work proposed a new CA mortar creep model based on the micro-meso structure characteristics, and its accuracy of prediction was much higher than previous models, R2 > 0.93. [ABSTRACT FROM AUTHOR]

Published

2023

8. Viscoelastic study of cement and emulsified asphalt mortar under temperature variations based on a novel variable-order fractional Maxwell model.

Author

Su, Xianglong, Chen, Yunqing, Li, Jipeng, and Wu, Bing

Subjects

*NUMERICAL integration, *HIGH temperatures, *VISCOELASTICITY, *CEMENT, *DEFORMATIONS (Mechanics), *MORTAR

Abstract

Cement and emulsified asphalt (CA) mortar is a critical viscoelastic component of ballastless track systems, exhibiting pronounced temperature sensitivity. However, accurately predicting the mechanical responses of CA mortar due to temperature fluctuations remains a challenge. This work proposes a novel variable-order fractional Maxwell (VOFM) model to investigate the viscoelastic properties of CA mortar under temperature variations. The VOFM model is numerically solved using a time-varying coefficient ladder (TVL) model. The VOFM model is validated by comparing with both numerical integration methods and experimental data. The basic properties of the VOFM model, the viscoelastic responses of CA mortar under varying temperatures and alternating stress are systematically investigated. The results show that the mechanical properties of VOFM model agree with the FM model when time-dependent parameters of the VOFM model correspond to that of the FM model. Moreover, high temperatures have a promoting effect on the deformation of CA mortar under both alternating and constant stress conditions. The peak amplitude of CA mortar strain under practical varying temperature and stress loading correlates with the trend of temperature changes. • A VOFM model predicts CA mortar's viscoelasticity under temperature variations. • The VOFM model is numerically solved by a time-varying coefficient ladder model. • The VOFM model is validated with numerical methods and experimental data. • High temperatures have a promoting effect on the deformation of CA mortar. • The strain of CA mortar shows a positive correlation with temperature fluctuations. [ABSTRACT FROM AUTHOR]

Published

2024

9. CRTS Ⅱ型轨道板/CA 砂浆界面内聚力模型研究.

Author

王 军, 卢朝辉, 张玄一, and 赵衍刚

Abstract

Copyright of Engineering Mechanics / Gongcheng Lixue is the property of Engineering Mechanics Editorial Department 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

2022

10. Fatigue life prediction for CA mortar in CRTS II railway slab track subjected to combined thermal action and vehicle load by mesoscale numerical modelling.

Author

Chen, Hua-Peng, Li, Wen-Bin, Jiang, Yu, and Xiao, Lin-Fa

Subjects

*FATIGUE life, *MORTAR, *CONCRETE fatigue, *CONCRETE slabs, *PRECAST concrete, *COMPOSITE materials, *HIGH speed trains, *SKIN temperature, *ECCENTRIC loads

Abstract

The fatigue life of the cement asphalt (CA) mortar in the slab track of the China Railway Track System (CRTS) II is crucial to the smooth and safe operation of high-speed railways. To investigate the fatigue life of the CA mortar under the combined thermal action and vehicle loads, this paper develops a new coupled thermal-mechanical finite element (FE) model for the concrete slab track at the mesoscale. First, the meteorology and heat transfer principle are adopted to simulate the temperature distribution of the concrete slab track. The heterogeneous characteristics of the concrete of the precast slab are modelled by the three-phase composite material at the mesoscale using the new developed random aggregate algorithm. Then, the energy-based exponential cohesive zone model is adopted to simulate the interface between the CA mortar and the precast concrete slab. The proposed mesoscale numerical model can provide reliable predictions for the temperature distribution and the deformation of the precast concrete slab under thermal action, which are confirmed by the relevant field measurements. Finally, the fatigue life of the CA mortar is estimated by the nonlinear damage cumulative method associated with the stress time history under the combined thermal action and vehicle load. From the obtained results for the numerical example, the thermal action can decrease severely the fatigue life of the CA mortar, and the fatigue life varies significantly at different positions, with the most vulnerable zone located near but not directly below the rails. • Proposing the coupled thermal-mechanical FE numerical modelling for railway concrete slab tracks. • Developing new random aggregate algorithm for modelling heterogeneous concrete at the mesoscale. • Predicting reliably CA mortar fatigue life using nonlinear damage cumulative method under combined action. [ABSTRACT FROM AUTHOR]

Published

2024

11. Effect of Viscoelastic Deformation for CA Mortar on Mechanical Responses of Track Structures.

Author

Ren, Juanjuan, Du, Wei, Deng, Shijie, Xiao, Yuanjie, Li, Haolan, and Tian, Genyuan

Abstract

The viscoelastic deformation of cement emulsified asphalt mortar (CA mortar) can lead to gaps between the mortar and track slab, thereby adversely affecting the mechanical capability and deformation behavior of the track structures. According to the time hardening rate method, a solid model of the China Railway Track System I (CRTS-I) slab track was established to study the viscoelastic characteristics of mortar. What's more, this paper also analyzed the influence of viscoelastic deformation of mortar on the mechanical responses of track structures. The results obtained indicate that the viscoelastic deformation of CA mortar under train loading occurs mainly in the area from the track slab end to the third fastener, which is about 1.5 m long. Its viscoelastic deformation can reach nearly 0.6 mm. The maximum mortar stresses under passenger train and freight train loads with considering the viscoelastic deformation of mortar 0.6 mm, are 0.382 MPa and 0.566 MPa, respectively, which are both 2 to 3 times greater than those under normal conditions (without CA mortar failure, namely none vertical deformation of mortar). Besides, the vertical accelerations of rail and track slab are also significantly larger than those under normal conditions when the viscoelastic deformation of CA mortar is taken into account. And these values under the freight train load are greater than those under the passenger train load. Therefore, we suggest that future research should take the adverse impact of viscoelastic deformation of CA mortar into account when studying the mechanical responses of track structures. Furthermore, for the shared passenger and freight railway lines, the passage of freight trains should be strictly controlled. [ABSTRACT FROM AUTHOR]

Published

2021

12. 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

13. 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

14. Effect of emulsified asphalt on dynamic viscoelastic of CA mortar.

Author

YAN Bingling and LI Yong

Abstract

In order to study viscoelastic of CA mortar under alternating loads, this paper analyzed the influence of temperature, lek cement ratio (A/C), water-cement ratio (W/C) and sand-cement ratio (S/C) on storage modulus, loss modulus and loss factor of CA mortar through experiments. The results showed that the higher the temperature, the lower the storage modulus, and the greater the loss factor, with increasing temperature, loss modulus showed a trend of first increases and then decreases, when the temperature was at 10 °C loss modulus reaches a maximum value, with the A/C is increased, the storage modulus gradually decreases, the loss factor gradually increases, while the loss modulus variation with A/C related the selected temperature range; compared to the cationic emulsified asphalt, when chose anionic emulsified asphalt, the CA mortar has a higher stiffness and better energy absorption damping capacity. The effect of W/C and S/C on the dynamic viscoelastic properties of the mortar is closely related to A/C size. [ABSTRACT FROM AUTHOR]

Published

2019

15. 锰渣对水泥乳化沥青砂浆性能 影响的研究.

Author

杨洋, 林洁, 何壮彬, and 张国虎

Abstract

Copyright of New Building Materials / Xinxing Jianzhu Cailiao is the property of New Building Materials 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

2019

16. 水泥沥青浆体中减水剂与乳化沥青的竞争吸附行为.

Author

朱晓斌, 洪锦祥, and 李炜

Abstract

Copyright of Journal of Harbin Institute of Technology. Social Sciences Edition / Haerbin Gongye Daxue Xuebao. Shehui Kexue Ban is the property of Harbin Institute of Technology 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

2018

17. 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

18. Deterioration mechanism of CA mortar due to simulated acid rain.

Author

Zeng, Xiaohui, Li, Yirui, Ran, Yuzhou, Yang, Kai, Qu, Fulin, and Wang, Ping

Subjects

*MORTAR, *ACID rain, *ASPHALT emulsion mixtures, *CALCIUM silicate hydrate, *FILAMENTOUS fungi

Abstract

In acid rain regions of Southwest China, cement-emulsified asphalt mortar (CA mortar), a key structure component in China Railway Track System (CRTS), is reported with more serious damaged signs than other locations. To investigate the effects of acid rain on its durability, the CA mortar specimens were immersed in acid solutions with pH values of 3.0, 4.0, and 5.0 for 21 months. Scanning electron microscope (SEM), energy dispersive spectrometer (EDS), differential thermal analyzer (DTA) and biological microscope were applied to evaluate the deterioration mechanism. Cracking, desquamation, pulverization, and decreased compressive strength were observed in them. The results of SEM and EDS show that a large number of crystals, rich in Ca, S and O, deposited on surfaces of the specimen soaking in the solutions, which is related to gypsum as shown in DTA pattern. Also, DTA patterns show that the decomposition peak of calcium silicate hydrate (C–S–H) gel in CA mortar specimens decreased gradually from the internal to the external surface. The analysis of acid solution based on the biological microscope indicates that large amounts of filamentous fungi and yeast existed in the solution during the long-term soaking, which corresponds to the investigation of the seriously damaged CA mortar in the field. In conclusion, deterioration mechanisms of CA mortar by acid rain includes CaSO 4 ·2H 2 O crystalline expansion damage, decomposition and dissolution of C–S–H gel and biological corrosion when the alkaline environment was damaged. [ABSTRACT FROM AUTHOR]

Published

2018

19. 2333. The influence of water immersion on the mechanical property of cement asphalt mortar and its implications on the slab track.

Author

Hao Xu, Hong-song Lin, Ping Wang, and Hua Yan

Subjects

*ASPHALT concrete, *WATER immersion, *COMPRESSIVE strength, *MECHANICAL behavior of materials, *MATERIALS compression testing

Abstract

Dynamic compression test of cement asphalt (CA) mortar specimens, due to water immersion history of 0d, 7d, 14d and 30d, are carried out using a universal electronic test machine, with the strain rates ranging from 1×10-5 s-1 to 1×10-2 s-1. The stress-strain full curves, the compressive strength and the elastic modulus of CA mortar at different strain rates and water immersion durations are analyzed and the effects of strain rates and water immersion duration on these behaviors are studied. Experimental results demonstrate that the compressive strength and elastic modulus increase with the strain rate. In the same strain rate, the compressive strength decreases with the increase of water immersion duration, but the elastic modulus decrease first and then increase with the increase of water immersion duration. The largest reduction of average compressive strength of CA mortar is 46.5 %, and the largest reduction in the average elastic modulus of CA mortar is 47.5 %. A vertical coupling vibration model for a vehicle-railway track-subgrade system was established on the base of wheel-rail coupling dynamics theory and experimental results. The effects of elastic modulus deterioration of CA mortar on the dynamic responses of the vehicle and railway track system were studied. The results show that the reduction of CA mortar has little influence on the dynamic properties of the track and the running stability. [ABSTRACT FROM AUTHOR]

Published

2017

20. 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

21. A study of the dynamic mechanical properties of CRTS I type CA mortar.

Author

Zeng, X.H., Xie, Y.J., Deng, D.H., Wang, P., and Qu, F.L.

Subjects

*MORTAR, *SAND, *ADHESIVES, *BINDING agents, *MINERAL aggregates

Abstract

Cement and emulsified asphalt mortar (CA mortar) consists of cement, emulsified asphalt, sand, water, and other additives, which can be used as a vibration attenuator and isolation casting layer in modern high-speed railway. However, the dynamic mechanical properties of CA mortar have not been well documented until now. In this paper, a series of experiments were carried out to characterize the dynamic properties of CA mortar. It can be found from the test results that the compressive strength, the compressive strain, and the elastic modulus are much more sensitive than traditional Portland cement mortar and concrete in a specified range of strain rate. Meanwhile, experimental results from an impacting acceleration test presents that CA mortar had excellent vibration attenuation and isolation functions. [ABSTRACT FROM AUTHOR]

Published

2016

22. Experimental study on interfacial damage characteristics of CRTS II slab track and CA mortar with AE and DIC techniques.

Author

Qin, Lei, Guo, Chengchao, Sun, Wei, Zhang, Mingxu, Chu, Xuanxuan, and Wang, Fuming

Subjects

*MORTAR, *ACOUSTIC emission, *DIGITAL image correlation, *CONSTRUCTION slabs, *FINITE element method, *SHEARING force

Abstract

• Interface damage properties were experimentally investigated by a combination of AE and DIC techniques. • The microscale damage characteristics were studied by the AE technique. • The macroscopic deformation processes were studied by the DIC technique. • A bilinear CZM model for the interface was proposed and its parameters were calibrated by the experimental data. Since the interface is often regarded as the weakest part of the ballastless track structure, there is a great need to investigate the interlayer bonding performance to ensure the safety of train operations for high-speed railways. In this study, the damage characteristics of the interface between China Railway Track System II (CRTS II) slab track and cement emulsified asphalt (CA) mortar (T-CA interface) under shear loading were thoroughly investigated. The interfacial deformation and damage development process during the direct shear experiments were recorded by a combination of acoustic emission (AE) and digital image correlation (DIC) techniques. Consequently, a bilinear cohesive zone model (CZM) of the T-CA interface was proposed. The results show that the AE activities are rare in the initial stage of loading, while they increase sharply when the shear loading approaches the interface bonding strength. The AE parameters can well characterize the entire process of interfacial failure. Through the DIC technique, the macroscopic deformation process was well captured and the shear stress versus relative displacement curves were derived. Subsequently, the relationship between the shear stress and relative displacement of the interface was well fitted by a bilinear CZM, of which parameters are calibrated through the experimental data. The effectiveness of the proposed bilinear CZM is validated by using a three-dimensional finite element model. This work provides a better understanding for the damage mechanism of the bond performance between CRTS II track slab and CA mortar. [ABSTRACT FROM AUTHOR]

Published

2022

23. 不同浸水历时水泥乳化沥青砂浆动态受压试验.

Author

徐浩, 王平, 孙宏友, 曾晓辉, and 赵坪锐

Abstract

Copyright of Jianzhu Cailiao Xuebao: Journal of Building Materials is the property of Journal of Building Materials 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

2015

24. 不同充填层材料的板式无砟轨道振动特性.

Author

曾晓辉, 王平, 胡华锋, 颜华, 吴玉芬, 林红松, and 傅丽霖

Abstract

Copyright of Jianzhu Cailiao Xuebao: Journal of Building Materials is the property of Journal of Building Materials 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

2015

25. Effect of anionic emulsifier on cement hydration and its interaction mechanism.

Author

Li, Wei, Zhu, Xiaobin, Hong, Jinxiang, She, Wei, Wang, Penggang, and Zuo, Wenqiang

Subjects

*STABILIZING agents, *INORGANIC compounds, *CEMENT, *COMPOSITE materials, *HYDRATION, *ANION analysis

Abstract

Cement-asphalt mortar (CA mortar) is an inorganic-organic composite, which combines both advantages of the mechanical property of cement and flexibility of asphalt. Therefore, it has been widely applied in high-speed railway and used as a kind of semi-flexible pavement material. Cement hydration process can affect the rheological property of fresh cement-asphalt paste as well as the mechanical and durability properties of the hardened cement-asphalt paste. Whereas, the interaction of emulsifier and cement particles will significantly affect the hydration process. Hence, the influence of emulsifier on cement hydration was investigated though measuring of setting time, hydration heat, ions concentration and electrical resistivity. It is indicated that the cement hydration process was retarded with the addition of emulsifier according to the results of the setting time and the hydration heat, and meanwhile, the hydration process was delayed gradually with the increasing dosage of emulsifier. The mechanism of the retardation effect can be attributed to the occupation of emulsifier at the active sites of cement particles, therefore, the delaying of cement hydration was further confirmed by the results of the lower ions concentration of the paste mixed with emulsifier. More specifically, for the cement mixed with emulsifier, a protective layer formed around the cement particles and this protective layer hindered the releasing of ions. As is well known, electrical resistivity is an indicator parameter which can indicate the cement hydration process and the formation of micro-structure effectively, thus, the variation law of the electrical resistivity can also reflect well the retardation effect of emulsifier on cement hydration. [ABSTRACT FROM AUTHOR]

Published

2015

26. CRTS I 型 CA 砂浆动态受压损伤试验.

Author

徐 浩, 王 平, 魏贤奎, and 曾晓辉

Abstract

Copyright of Jianzhu Cailiao Xuebao: Journal of Building Materials is the property of Journal of Building Materials 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

2014

27. Thermo-mechanical coupling effect on fatigue behavior of cement asphalt mortar

Author

Qiu, Kechao, Chen, Huisu, Ye, Haiping, Hong, Jinxiang, Sun, Wei, and Jiang, Jinyang

Subjects

*MATERIAL fatigue, *CEMENT fractures, *ASPHALT, *MECHANICAL behavior of materials, *FATIGUE crack growth, *CRACK propagation (Fracture mechanics)

Abstract

Abstract: This contribution first presents a fatigue model to elaborate fatigue behavior of materials subjected to thermal mechanical effect. To calibrate the presented model, a valid experiment is then conducted on cement asphalt mortar. The model can be further extended to other materials and valid experimental data from literature is utilized for verification. Results suggested the model is sufficient to describe thermo-mechanical fatigue behavior of cement-based materials, under the condition that no phase or morphological change occurred in the fatigue temperature range. Finally, the developed model is applied to predict fatigue life of one current track. [Copyright &y& Elsevier]

Published

2013

28. Conductivity behavior of the fresh CA mortar and its relationship with the fluidity properties

Author

Zeng, Xiaohui, Xie, Youjun, and Deng, Dehua

Subjects

*MORTAR, *CEMENT, *ASPHALT emulsion mixtures, *ELECTRIC conductivity, *METALLURGICAL segregation, *CALCIUM aluminate

Abstract

Abstract: In order to find a new test method to investigate the relationship between the compositions and fluidity of the cement and emulsified asphalt mortar (CA mortar), the conductivity and the fluidity properties of the fresh CA mortar with different mixtures were studied by analysis of the relationships among the liquid fraction, the “J” type funnel flowing time and the conductivity. Results showed that (1) the electrical conductivity was linear relationship to the liquid volume fraction of the slurry, but markedly influenced by thickening agent, (2) there exist apparent relationship between the flowing time of fresh CA mortar through “J” type funnel and liquid volume fraction, also and electrical conductivity, (3) the difference of the density showed good linear relationship with the difference of the electrical conductivity caused by the segregation. [Copyright &y& Elsevier]

Published

2012

29. Experimental study on the stability of asphalt emulsion for CA mortar by laser diffraction technique

Author

Wang, Fazhou, Liu, Yunpeng, Zhang, Yunhua, and Hu, Shuguang

Subjects

*ASPHALT emulsion mixtures, *STABILITY (Mechanics), *MORTAR, *OPTICAL diffraction, *STRAINS & stresses (Mechanics), *MECHANICAL behavior of materials, *MATERIALS testing

Abstract

Abstract: A laser diffraction particle size analyzer was employed to measure the particle size variations of two asphalt emulsions under stress conditions to evaluate their storage stability, freeze–thaw stability, and mechanical stability. Results showed that when the dosage of non-ionic emulsifier was increased from 0.4% to 0.8%, the particle size and its increasing magnitude were both reduced, indicating a more stable emulsion. This new method can provide the desired information for fast and continuous evaluation on the dynamical changes of emulsion stability under stress conditions, compared to the traditional storage stability tests. [Copyright &y& Elsevier]

Published

2012

30. Compressive strength development and microstructure of cement-asphalt mortar.

Author

Wang, Qiang, Yan, Peiyu, Kong, Xiangming, and Yang, Jinbo

Abstract

The compressive strength developing process and the microstructure of cement-asphalt mortar (CA mortar) were investigated. The fluidity of CA mortar has a great influence on its strength. The optimum value of spread diameter of slump flow test is in the range of 300 to 400 mm. The compressive strength of CA mortar keeps a relatively high growth rate in 56 days and grows slowly afterwards. The residual water of hydration in CA mortar freezes under minus environmental temperature which can lead to a significant reduction of the strength of CA mortar. Increasing A/C retards asphalt emulsion splitting and thus prolongs the setting process of CA mortar. The hydration products of cement form the major structural framework of hardened CA mortar and asphalt is a weak phase in the framework but improves the viscoelastic behavior of CA mortar. Therefore, asphalt emulsion should be used as much as possible on the condition that essential performance criterions of CA mortar are satisfied. [ABSTRACT FROM AUTHOR]

Published

2011

31. Temperature Stability of Compressive Strength of Cement Asphalt Mortar.

Author

Fazhou Wang, Zhichao Liu, Tao Wang, and Shuguang Hu

Subjects

MORTAR, MATERIALS compression testing, CEMENT, ASPHALT, MECHANICAL shock

Abstract

Cement asphalt mortar (CA mortar) is the key component in slab track and serves as the elastic shock absorber. The prominent presence of asphalt renders the mechanical properties of CA mortar susceptible to temperature variation. In this paper, the compressive strength of CA mortar was investigated at different temperatures (0, 20, 40, and 60°C [32, 68, 104, and 140°F]) and a temperature stability coefficient (TSC) was put forward to indicate this temperature dependence. Influences of asphalt emulsioncement ratio (A/C), and addition of the silica fume (SF) and crumb rubber (CR) on the temperature stability of compressive strength of CA mortar were also explored. Results indicate that the compressive strength of CA mortar decreases with higher temperature. The addition of SF and CR mitigates the temperature dependency to some extent. [ABSTRACT FROM AUTHOR]

Published

2010

32. The influence of water immersion on the mechanical property of cement asphalt mortar and its implications on the slab track

Author

Ping Wang, Hong-song Lin, Xu Hao, and Hua Yan

Subjects

Cement, 0209 industrial biotechnology, Materials science, lcsh:Mechanical engineering and machinery, Mechanical Engineering, 0211 other engineering and technologies, 02 engineering and technology, dynamic compression testing, Strain rate, CA mortar, 020901 industrial engineering & automation, Compressive strength, Asphalt, 021105 building & construction, Slab, water immersion, Coupling (piping), lcsh:TJ1-1570, General Materials Science, Geotechnical engineering, Mortar, vibration model, Elastic modulus

Abstract

Dynamic compression test of cement asphalt (CA) mortar specimens, due to water immersion history of 0d, 7d, 14d and 30d, are carried out using a universal electronic test machine, with the strain rates ranging from 1×10-5 s-1 to 1×10-2 s-1. The stress-strain full curves, the compressive strength and the elastic modulus of CA mortar at different strain rates and water immersion durations are analyzed and the effects of strain rates and water immersion duration on these behaviors are studied. Experimental results demonstrate that the compressive strength and elastic modulus increase with the strain rate. In the same strain rate, the compressive strength decreases with the increase of water immersion duration, but the elastic modulus decrease first and then increase with the increase of water immersion duration. The largest reduction of average compressive strength of CA mortar is 46.5 %, and the largest reduction in the average elastic modulus of CA mortar is 47.5 %. A vertical coupling vibration model for a vehicle-railway track-subgrade system was established on the base of wheel-rail coupling dynamics theory and experimental results. The effects of elastic modulus deterioration of CA mortar on the dynamic responses of the vehicle and railway track system were studied. The results show that the reduction of CA mortar has little influence on the dynamic properties of the track and the running stability.

Published

2017

33. A feasibility study on void detection of cement-emulsified asphalt mortar for slab track system utilizing measured vibration data.

Author

Hu, Q., Shen, Y.J., Zhu, H.P., Lam, H.F., and Adeagbo, M.O.

Subjects

*MORTAR, *CONSTRUCTION slabs, *ASPHALT, *FEASIBILITY studies, *ALGORITHMS

Abstract

• The newly developed two-phase model class selection algorithm for void detection is firstly proposed. • The time-domain Bayesian model updating is successfully conducted for the CA void detection of the ballastless slab track by determining the most probable values (MPVs) of mortar stiffness scaling factors. • Not only the void location but also the severity of CA mortar are detected for ballastless slab track. This paper reports the feasibility study on the use of measured vibration of a railway slab track system in detecting void on the cement-emulsified asphalt (CA) mortar layer utilizing the Bayesian approach. By following the specification of the China Railway Track System (CRTS)-I ballastless slab track structure, two scaled models (with and without void in the CA mortar layer) were built and tested in the laboratory to demonstrate and verify the proposed CA void detection methodology. A three-dimensional finite element model was built using ABAQUS to calculate the time-domain data of the ballastless track system for Bayesian model class selection and model updating. A new two-phase model class selection algorithm was developed for identifying the CA void region. The proposed methodology identified the distribution of CA mortar stiffness using impact hammer test data from the scaled CRTS-I ballastless slab panel under laboratory conditions. The model updating results are consistent with the simulated CA mortar stiffness distribution. In addition, the posterior uncertainties of the identified CA mortar stiffness under different sensor configurations were quantitatively investigated. The results from the experimental case studies show that the proposed Bayesian methodology is feasible to detect CA void even with only a single accelerometer with the associated posterior uncertainties being kept at an acceptable level. [ABSTRACT FROM AUTHOR]

Published

2021

34. 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

35. Study on relationships between static mechanical properties and composition of low modulus CA mortar.

Author

Zeng, Xiaohui, Zhu, Huasheng, Lan, Xuli, Umar, H.A., Xie, Youjun, and Long, Guangcheng

Subjects

*MORTAR, *COMPOSITE materials, *ELASTIC modulus, *COMPRESSIVE strength, *MECHANICAL models, *POWER (Social sciences)

Abstract

• Study the relationship between mechanical properties and composition of CA mortar. • A mechanical model of CA mortar from four different levels was proposed based on experimental results and theoris. • The asphalt has a limited contribution to the static compressive strength f and elastic modulus E CA of the CA mortar. As an organic–inorganic composite material, the mechanical properties of cement asphalt mortar (CA mortar) are closely related to its composition. In order to studying the relationship between mechanical properties and composition of CA mortar, a mechanical model of CA mortar from four different levels (i.e.,cement hydration products, cement gel skeleton, cement-asphalt composite system and CA mortar) was proposed based on the microscopic experimental results, the gel-space ratio theory and the Hashin composite ball model. The mathematical relationships among the elastic modulus of CA mortar, compressive strength f and composition parameters were derived. The results shown: The volume fraction of cement hydrates is an important parameter affecting the CA mortar elastic modulus E CA and the compressive strength f. When the asphalt is regarded as a pore or a low modulus phase, the static elastic modulus of the CA mortar E CA and the volume fraction of cement hydrates V CH , the compressive strength f and gel-space ratio x all have a power function relationship, and R 2 > 0.7. The cement hydrates in the CA mortar are still a continuous phase and constitutes the composite gel skeleton, asphalt interspersing among them, and the contribution of asphalt to the CA mortar strength and elastic modulus is relatively limited. [ABSTRACT FROM AUTHOR]

Published

2021

36. Preliminary Study on Asphalt Emulsion Used in Cement Asphalt Mortar.

Author

Wang Fazhou, Zhang Yunhua, Liu Yunpeng, Gao Tao, Zou Jinzhong, and Chen Liang

Subjects

ASPHALT emulsion mixtures, CEMENT, ASPHALT, CONSTRUCTION slabs, MORTAR, EMULSIONS

Abstract

Asphalt emulsion is an important component in the preparation of cement asphalt mortar. In the work reported here, different emulsifiers and basic asphalts were used to manufacture emulsions and their properties were investigated. Results indicate that a diamine-based emulsifier renders asphalt emulsion that exhibits better compatibility with cement; lower density and higher ductility basic asphalt; and that styrene-butadiene-styrene modifiers are more appropriate in the manufacturing of emulsion. [ABSTRACT FROM AUTHOR]

Published

2009

37. Deterioration of CA mortar filling layer under cyclical thermal loading.

Author

ZENG, Xiaohui, ZHU, Huasheng, QIU, Xiujiao, YANG, Kai, WANg, Ping, XIE, Youjun, and LONG, Guangcheng

Subjects

*DIFFERENTIAL thermal analysis, *MELTING points, *MORTAR, *SCANNING electron microscopy, *HIGH temperatures

Abstract

• The influence of cyclical temperature treatment on the interface between CA mortar and concrete was studied. • The mechanism of interface damage was analyzed by SEM, MIP, TG and DTA. • The softened asphalt moved into capillary pores at high temperature. Cement and emulsified asphalt mortar (CA mortar) has been widely used as a filling layer between concrete bed plates and track slabs for high-speed railways. This study analyses the cracking mechanism of the interface between CA mortar and the concrete under CT treatment (cyclical temperature from −40 °C to 60 °C) and CTI treatment (cyclical temperature from −40 °C to 60 °C then immersed in water) by means of scanning electron microscopy (SEM), mercury intrusion porosimetry (MIP), thermos-gravimetric analysis (TG) and differential thermal analysis (DTA). Results showed that cracks were observed on the interface after 16 CT cycles, while 25 cycles were required to observed cracks for sample under CTI treatment. The samples subjected to the CT treatment had a larger length difference between the CA mortar and concrete at high temperature. The volume proportion of 2–10 μm-level pore in CA mortar was declined after CT or CTI treatment, which was caused by removal of asphalt component in CA mortar from the matrix to the capillary porosity as confirmed by SEM results. CT treatment made it clear that the substance of low melting point in the asphalt either volatilized or turned into the substance of high melting point from TG and DTA analysis. [ABSTRACT FROM AUTHOR]

Published

2020