Farhad Salour Doctoral Thesis
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Figure
2 Typical Tjäl2004 frost rod measurements from county road 126 near Torpsbruk in southern Sweden (November 2010 to April 2011). In Finland the Percostation system is used to optimize the use of load restrictions throughout the road network (Vuorimies, 2004). Percostation consists of electrical conductivity, dielectric value, and temperature sensors that are collected using eight individual channels with minimum measurement intervals of 60 seconds. The measured data are then stored in a data collection unit which can be read using a modem connection. The collected data are further analysed and the condition of different pavement layers and subgrade is assessed. The data are then compared to the critical limits and the decisions to impose or lift load restrictions and to determine the maximum allowed axle load and/or number of axles are made. 2.2. Pavement moisture regime Moisture condition in pavement structures continuously evolves throughout the year (Erlingsson et al., 2002; Doré and Zubeck, 2008; Erlingsson et al., 2009a). The moisture content of the unbound material that is usually set close to the optimum during the compaction in the construction phase will eventually change towards a natural equilibrium state (Zapata et al., 2009). Similar to the temperature condition of the pavement, the moisture regime is also governed by the boundary conditions of the system. The natural equilibrium moisture content is greatly dependent on the material properties and distance to the groundwater table level and its variation. Generally, the moisture condition at the bottom of the pavement system is relatively stable. However, at the upper sections in pavement systems, moisture condition can vary widely from very dry conditions to fully saturated states due to climatic events. The moisture condition of the upper section of the pavement greatly depends on the surface characteristics as well as its longitudinal and transverse position within the pavement system (Doré and Zubeck, 2008). The moisture content of the materials close to the pavement edges and in the vicinity of surface cracks usually shows higher variations due to climatic events such as rainfall (Hansson et al., 2005). 7 The moisture evolution of the pavement systems throughout the year is the result of a complicated interaction of several factors that contribute to moisture intake and removal from pavement systems. There are four sources that contribute to moisture intake in pavement structures: infiltration of precipitation water, lateral moisture transfer, capillary rise and frost-thaw action. The two main factors that contribute to moisture extraction from pavement systems are moisture drainage and moisture evaporation (Doré and Zubeck, 2008; Erlingsson et al., 2009b). Figure 3 illustrates the factors that contribute to moisture regime variations in pavement structures. Yüklə 4,52 Mb. Dostları ilə paylaş:
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