Temperature dependence of adhesive friction properties of rubber asphalt mortar and its mechanism of action

doi:10.1371/journal.pone.0321059

Table 1.

Properties of asphalt.

More »

Expand

Table 2.

Properties of mineral powder.

More »

Expand

Table 3.

Properties of rubber powder.

More »

Expand

Table 4.

Performance index of friction coefficient meter.

More »

Expand

Table 5.

Molecular structure of asphalt components.

More »

Expand

Fig 1.

Asphalt components molecular model.

More »

Expand

Fig 2.

Mineral powder molecular model.

More »

Expand

Fig 3.

Rubber molecular model.

More »

Expand

Fig 4.

Molecular model of the rubber asphalt mortar.

More »

Expand

Fig 5.

Molecular model of rubber asphalt mortar with different rubber powder content.

(a) Rubber powder content of 0% (b) Rubber powder content of 10% (c) Rubber powder content of 20% (d) Rubber powder content of 30%.

More »

Expand

Fig 6.

Internal radial distribution function diagram of asphalt molecular model.

More »

Expand

Fig 7.

The density of rubber asphalt mortar molecular model changes with temperature.

More »

Expand

Fig 8.

The change of Young’s modulus of rubber asphalt mortar with temperature.

More »

Expand

Fig 9.

The change of Bulk modulus of rubber asphalt mortar with temperature.

More »

Expand

Fig 10.

Schematic diagram of rubber asphalt mortar friction system.

(a) Rubber powder content of 0% (b) Rubber powder content of 10% (c) Rubber powder content of 20% (d) Rubber powder content of 30%.

More »

Expand

Fig 11.

Restricted shear process diagram of rubber asphalt mortar.

(a) Rubber powder content of 0% (b) Rubber powder content of 10% (c) Rubber powder content of 20% (d) Rubber powder content of 30%.

More »

Expand

Table 6.

Friction coefficient of rubber asphalt mortar with different rubber powder content.

More »

Expand

Table 7.

Friction coefficient of rubber asphalt mortar at different temperatures.

More »

Expand

Fig 12.

Friction coefficient of asphalt mortar with different rubber content.

More »

Expand

Fig 13.

Friction coefficient of asphalt mortar at different temperatures.

More »

Expand

Fig 14.

Interfacial adhesion work between asphalt mortar and rubber at different temperatures.

More »

Expand