Resistivity-temperature characteristics of conductive asphalt concrete

被引:0
|
作者
Wenzhou Sun
Xu Li
Qun Yang
Hongwei Zhang
机构
[1] Shanghai Municipal Planning Design Research Insititute,Key Laboratory of Road and Traffic Engineering of the Ministry of Education
[2] Tongji University,undefined
[3] Inner Mongolia Communications Construction Engineering Quality Supervision Bureau,undefined
来源
Journal of Wuhan University of Technology-Mater. Sci. Ed. | 2016年 / 31卷
关键词
conductive asphalt concrete; electrical resistivity; positive temperature coefficient; percolation network;
D O I
暂无
中图分类号
学科分类号
摘要
The changes of resistivity of conductive asphalt concrete at different temperatures were studied, and positive temperature coefficient (PTC) model was established to estimate the influence of temperature on the resistivity quantitatively, which eliminated the interference with conductivity evaluation brought by temperature variation. Finally, the analysis of temperature cycling test results proves that the changes of percolation network structure caused by temperature variation prompt the emergence of PTC of conductive asphalt concrete.
引用
下载
收藏
页码:367 / 371
页数:4
相关论文
共 50 条
  • [21] The Quantitative Evaluation of Aging State of Field Composite Insulators Based on Trap Characteristics and Volume Resistivity-Temperature Characteristics
    Liang, Ying
    Gao, Li-Juan
    Dong, Ping-Ping
    Gao, Ting
    JOURNAL OF ELECTRICAL ENGINEERING & TECHNOLOGY, 2018, 13 (03) : 1355 - 1362
  • [22] Electrical signal characteristics of conductive asphalt concrete in the process of fatigue cracking
    Yang, Qun
    Li, Xu
    Wang, Ping
    Zhang, Hong-Wei
    SMART STRUCTURES AND SYSTEMS, 2014, 14 (03) : 469 - 477
  • [23] Nonlinear Voltammetric Characteristics of Carbon Fiber/Graphene Conductive Asphalt Concrete
    Tan Y.
    Liu K.
    Wang Y.
    Jianzhu Cailiao Xuebao/Journal of Building Materials, 2019, 22 (02): : 278 - 283
  • [24] Research on mechanical characteristics of conductive asphalt concrete by indirect tensile test
    Wu, Shaopeng
    Zhang, Yuan
    Chen, Mingyu
    FOURTH INTERNATIONAL CONFERENCE ON EXPERIMENTAL MECHANICS, 2010, 7522
  • [25] Electrically conductive in situ microfibrillar composite with a selective carbon black distribution: An unusual resistivity-temperature behavior upon cooling
    Dai, Kun
    Li, Zhong-Ming
    Xu, Xiang-Bin
    POLYMER, 2008, 49 (04) : 1037 - 1048
  • [26] In situ Preparation and Resistivity-Temperature Behavior of Polyurethane/Graphene Nanocomposites
    Cui, Shao-nan
    Zhang, Peng
    Zhang, Ya-lin
    Sun, Na
    Hou, Yan-ling
    ACTA POLYMERICA SINICA, 2015, (12): : 1443 - 1448
  • [27] Resistivity-temperature behavior of carbon fiber filled semicrystalline composites
    Di, WH
    Zhang, G
    JOURNAL OF APPLIED POLYMER SCIENCE, 2004, 91 (02) : 1222 - 1228
  • [28] UNIVERSALITY IN THE RESISTIVITY-TEMPERATURE RELATIONSHIP FOR DECAGONAL QUASI-CRYSTALS
    WANG, YP
    ZHANG, DL
    PHYSICAL REVIEW B, 1994, 49 (18): : 13204 - 13207
  • [29] Improved electrical resistivity-temperature characteristics of oriented hBN composites for inhibiting temperature-dependence DC surface breakdown
    Huang, Zhengyong
    Zhang, Yingfan
    Wang, Haohuan
    Li, Jian
    APPLIED PHYSICS LETTERS, 2023, 123 (10)
  • [30] Research progress of conductive asphalt concrete
    Wang Z.
    Feng Z.-G.
    Yao D.-D.
    Cui Q.
    Shen R.-T.
    Li X.-J.
    Jilin Daxue Xuebao (Gongxueban)/Journal of Jilin University (Engineering and Technology Edition), 2024, 54 (01): : 1 - 21
12345