CN112213476B - Method for measuring asphalt aging degree - Google Patents

Abstract

The invention discloses a method for measuring the aging degree of asphalt, which comprises the steps of aging production asphalt to obtain aged asphalt, adding the aged asphalt into the production asphalt in different proportions to obtain mixed asphalt, preparing an asphalt mixture by using the mixed asphalt, and measuring the bending tensile strength and the maximum bending tensile strain of a beam bottom of the asphalt mixture; and then, adopting the addition amount of the aged asphalt and the maximum bending and pulling strain of the beam bottom to construct a curve with an inflection point, and calculating the asphalt aging degree A through the addition amount of the inflection point, the bending and pulling strength value and the maximum bending and pulling strain value of the beam bottom. The determination method provided by the invention directly takes the asphalt mixture as a matrix for testing, can truly and objectively reflect the influence of the asphalt aging degree on the low-temperature crack resistance of the asphalt mixture, and has positive significance for judging the asphalt quality and guiding the field production.

Description

Method for measuring asphalt aging degree

Technical Field

The invention relates to the technical field of asphalt detection, in particular to a method for measuring asphalt aging degree.

Background

Along with the development of economic society of China, the demand of people on traffic is gradually increased, and China builds a large number of asphalt pavements in recent years. Many problems are exposed along with the massive construction of asphalt pavements. Generally speaking, after a newly built asphalt pavement is started for 4-5 years, cracks are generated due to the problems of asphalt aging, driving load and the like. In recent years, a large number of cracks are generated on part of highway pavements in the second winter after the highway pavements are built, one crack can be generated along the driving direction by about 5-8 m, and investigation shows that the reason for generating the cracks prematurely is that the asphalt is stored for too long time in the construction process, and the heating temperature is too high in the mixing process, so that the asphalt is aged prematurely, the crack resistance of the asphalt pavement is insufficient, and the cracks are generated prematurely.

At present, the national standard only stipulates the indexes of ductility, penetration ratio, aging index and the like of the aged asphalt, and only can test the index of the aged asphalt; and the test index is the performance of the asphalt, and the asphalt mixture cannot be directly tested, so that the mismatching with the actual situation on site is caused. On one hand, in the actual production process, the aging degree of the used asphalt is different due to the limitation of field conditions, and the aging condition of the actually used asphalt is unreasonable only by adopting the index of aging index; on the other hand, if comprehensive tests such as penetration ratio, ductility, viscosity, aging index and the like are adopted, the detection procedure is troublesome, the variation trends of the two tests are different, the judgment is difficult, the aging degree of the asphalt is difficult to be directly and objectively reflected, and the method is difficult to be applied to field production.

Disclosure of Invention

The invention aims to solve the technical problem that the invention provides a method for measuring the asphalt aging degree, which is simple and can be well suitable for field production; meanwhile, the method can effectively evaluate the aging degree of the asphalt, give direct and objective quantitative indexes and provide basis for judging the performance of the asphalt and guiding the production of asphalt mixtures.

In order to solve the technical problem, the invention provides a method for measuring the aging degree of asphalt, which comprises the following steps:

(1) taking production asphalt, and aging the production asphalt to obtain aged asphalt;

(2) adding different amounts of aged asphalt into the production asphalt to obtain a plurality of groups of mixed asphalt; wherein, in the mixed asphalt of the i group, the addition amount of the aged asphalt is n_i；

(3) Mixing the mixed asphalt with aggregate and filler according to a preset proportion to obtain a plurality of groups of asphalt mixtures;

(4) preparing the asphalt mixture into a prism sample;

(5) determining the flexural tensile strength R of said prismatic test specimens_BiAnd maximum bending strain epsilon of beam bottom_Bi；

(6) Constructing a curve with an inflection point according to the maximum bending and pulling strain of the beam bottom under the condition of different addition amounts of aged asphalt, and taking an asphalt addition amount value n closest to the inflection point_kBending tensile strength value R_BkAnd the maximum bending strain value epsilon of the beam bottom_Bk；

(7) The aging degree of the production asphalt is calculated according to the following formula group:

A＝Δε_B-lgΔR_B

wherein A is the aging degree of the asphalt;

Δε_Bthe maximum bending strain change rate of the beam bottom in the general descending stage, epsilon_BtWhen the addition amount of the aged asphalt in the mixed asphalt is 100%, the maximum bending strain of the beam bottom of the prism sample is obtained;

ΔR_Bthe rate of change of the flexural tensile strength in the general reduction stage, R_BtThe bending tensile strength of the prism sample is determined when the addition amount of the aged asphalt in the mixed asphalt is 100%.

In step (5), the bending tensile strength and the maximum bending tensile strain at the beam bottom of the prismatic sample are measured by the method of T0715 in JTG E20-2011 as a modification of the above-described means.

As an improvement of the technical scheme, in the step (1), the production asphalt is spread into a film with the thickness of 2-5 mm, and then aging is carried out at 150-180 ℃ and under normal pressure for 0.5-5 h; or

Paving the production asphalt into a film with the thickness of 2-5 mm, and then aging at 80-110 ℃ under the pressure of 2-2.5 MPa for 18-28 h.

As an improvement of the technical scheme, in the step (1), the production asphalt is aged according to the method of T0610 in JTG E20-2011.

As an improvement of the technical scheme, in the step (2), the addition amount of the aged asphalt is different in different groups of mixed asphalt; the addition amount of the aged asphalt is in an increasing trend.

As an improvement of the above technical solution, in the step (2), n is_iThe values of (A) are 0%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90% and 100% in sequence.

As an improvement of the above technical scheme, in the step (3), the asphalt mixture mainly comprises the following raw materials in parts by weight:

2-5 parts of mixed asphalt, 90-98 parts of aggregate and 0-5 parts of filler.

As an improvement of the technical scheme, the asphalt mixture is a cold-mix asphalt mixture or a hot-mix asphalt mixture.

As a modification of the above technical solution, in step (4), a prismatic sample is prepared according to the method in T0703 in JTG E20-2011.

Correspondingly, the invention also discloses the application of the method for measuring the asphalt aging degree in the preparation of the asphalt mixture.

The implementation of the invention has the following beneficial effects:

aging production asphalt to obtain aged asphalt, adding the aged asphalt into the production asphalt in different proportions to obtain mixed asphalt, preparing an asphalt mixture by using the mixed asphalt, and measuring the bending tensile strength and the maximum bending tensile strain of the beam bottom of the asphalt mixture; and then, adopting the addition amount of the aged asphalt and the maximum bending and pulling strain data of the beam bottom to construct a curve with an inflection point, and calculating the asphalt aging degree A through the addition amount of the inflection point, the bending and pulling strength value and the maximum bending and pulling strain value of the beam bottom. The determination method provided by the invention directly takes the asphalt mixture as a matrix for testing, can truly and objectively reflect the influence of the asphalt aging degree on the low-temperature crack resistance of the asphalt mixture, and has positive significance for judging the asphalt quality and guiding the field production. Meanwhile, the determination method is simple and direct, and can be well suitable for field production.

Drawings

FIG. 1 is a flow chart of a method for measuring the degree of aging of asphalt according to the present invention;

FIG. 2 is a graph of the maximum flexural strain at the bottom of a beam for different amounts of aged asphalt added in example 1 of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the invention provides a method for measuring the aging degree of asphalt, which comprises the following steps:

s1: aging production asphalt to obtain aged asphalt;

specifically, the production asphalt can be spread into a film with the thickness of 2-5 mm, and then aging is carried out at 150-180 ℃ and normal pressure for 0.5-5 h; or

Paving the production asphalt into a film with the thickness of 2-5 mm, and then aging at 80-110 ℃ under the pressure of 2-2.5 MPa for 18-28 h.

Preferably, the production asphalt is aged by a method of T0610 in road engineering asphalt and asphalt mixture test protocol (JTG E20-2011); specifically, the aging condition is 163 +/-0.5 ℃ and the aging time is 85 min.

S2: adding aged asphalt into production asphalt to obtain mixed asphalt;

specifically, the production asphalt and the aged asphalt are heated to 90-120 ℃, then mixed, stirred for 5-15 minutes, and then sheared for 30-50 minutes at a speed of 3000-6000 r/min by a high-speed shearing machine, so that the mixed asphalt is obtained. Under the mixing condition, the aged asphalt and the production asphalt are fully mixed, and the obtained mixed asphalt has uniform performance, so that the performances of the mixed asphalt and the aged asphalt are well reflected.

The addition amount of the aged asphalt in different groups of mixed asphalt is different, and the aged asphalt presents an increasing trend, and specifically, the addition amount can be in a gradient increasing manner, a linear increasing manner or an exponential increasing manner, and the like, but is not limited to the above.

Preferably, the addition amount n of the aged asphalt in the mixed asphalt_iThe values of (A) are 0%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90% and 100% in sequence.

S3: mixing the mixed asphalt with aggregate and filler according to a preset proportion to obtain an asphalt mixture;

specifically, the asphalt mixture is a cold-mix asphalt mixture or a hot-mix asphalt mixture. Preferably, the hot-mixing asphalt mixture is selected, and further, the hot-mixing temperature is controlled to be 95-140 ℃.

Specifically, the invention has no special requirements on the composition of the asphalt mixture, and the technical personnel in the field can determine the composition according to the actual application condition; or the mixture ratio of the asphalt mixture is carried out according to the relevant regulations in technical Specification for constructing asphalt pavements for roads (JTG F40-2017).

Preferably, in the invention, the asphalt mixture mainly comprises the following raw materials in parts by weight: 2-5 parts of mixed asphalt, 90-98 parts of aggregate and 0-5 parts of filler.

S4: preparing the asphalt mixture into a prism sample;

specifically, a prism sample is prepared according to a method in T0703 in road engineering asphalt and asphalt mixture test protocol (JTG E20-2011).

S5: measuring the bending tensile strength and the maximum bending tensile strain of the beam bottom of the prism sample;

specifically, the bending tensile strength R of each group of prism samples is measured according to a method (test temperature-10 +/-0.5 ℃) in T0715 in road engineering asphalt and asphalt mixture test protocol (JTG E20-2011)_BiAnd maximum bending strain epsilon of beam bottom_Bi。

S6: constructing a curve with an inflection point according to the maximum bending and tensile strain of the beam bottom under the condition of different addition amounts of the aged asphalt, and taking an asphalt addition amount value, a bending and tensile strength value and a maximum bending and tensile strain value of the beam bottom which are closest to the inflection point;

specifically, the addition amount n of the aged asphalt_iAs the abscissa, the maximum bending and tensile strain epsilon of the beam bottom_BiAs a vertical coordinate, a curve is constructed by the maximum bending and tensile strain of the beam bottom under the condition of different addition amounts of aged asphalt, and the inflection point of the curve and the asphalt addition amount value n closest to the inflection point are obtained_kBending tensile strength value R_BkAnd the maximum bending strain value epsilon of the beam bottom_Bk。

The construction method of the curve comprises the following steps: adding n of aged asphalt_iAs independent variable, with the maximum bending strain epsilon of the beam bottom_BiIs a dependent variable; fitting multiple groups of corresponding data by using an exponential function with a natural constant e as a base, making a trend line, and writing an equation sumAnd (5) checking the error value to obtain a curve. Wherein, the exponential function can adopt y ═ y₀+Ae^-x/tOr

(y₀、t、t₁、t₂All are constants), but are not so limited.

S7: calculating the aging degree of the asphalt for production;

specifically, the aging degree of the asphalt for production is calculated according to the following formula group:

A＝Δε_B-lgΔR_B

wherein A is the aging degree of the asphalt;

Δε_Bthe maximum bending strain change rate of the beam bottom in the general descending stage, epsilon_BtWhen the addition amount of the aged asphalt in the mixed asphalt is 100%, the maximum bending strain of the beam bottom of the prism sample is obtained;

ΔR_Bthe rate of change of the flexural tensile strength in the general reduction stage, R_BtThe bending tensile strength of the prism sample is determined when the addition amount of the aged asphalt in the mixed asphalt is 100%.

The inventor discovers that in the process of asphalt aging research: after the same asphalt is aged under the same aging condition, the change trends of various performances of the same asphalt are not necessarily the same; after different kinds of asphalt are aged under the same aging condition, the change trend of the same performance index of the asphalt is possibly different. Thus, it is often difficult to effectively evaluate the effects of asphalt aging with existing index systems. Further, the inventors found through extensive studies that the influence of asphalt aging on the low temperature performance of asphalt tends to be consistent: namely, with the increase of the aging degree of the asphalt, the low-temperature performance of the asphalt mixture tends to decrease sharply and then gradually. Based on this study, the inventors have devised a method for measuring the degree of aging. The method provided by the invention can truly and objectively reflect the influence of the asphalt aging degree on the low-temperature crack resistance of the asphalt mixture, and has positive significance for judging the asphalt quality and guiding the field production.

Correspondingly, the invention also provides application of the method for measuring the asphalt aging degree. In particular, the method relates to the application in the preparation of asphalt mixtures, and also relates to the application in the determination and evaluation of asphalt properties.

The invention is further illustrated by the following specific examples:

example 1

The embodiment provides a method for measuring the aging degree of asphalt, which comprises the following steps:

step 1: aging production asphalt according to a test method of road engineering asphalt and asphalt mixture test protocol (JTG E20-2011) T0610 to obtain aged asphalt;

step 2: replacing production asphalt with aged asphalt in the proportion of 0%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90% and 100% to form mixed asphalt;

and step 3: preparing AC-25 type hot-mix asphalt mixture from mixed asphalt with different aging degrees according to technical Specifications for road asphalt pavement construction (JTG F40-2017);

and 4, step 4: forming prismatic samples by using asphalt mixtures with different aging degrees according to a test method of road engineering asphalt and asphalt mixture test procedure (JTG E20-2011) T0703;

and 5: according to the test method of road engineering asphalt and asphalt mixture test regulation (JTG E20-2011) T0715, the low-temperature bending test of the asphalt mixture is carried out, and the bending tensile strength R of prismatic samples with different aging degrees is tested_BiAnd maximum bending strain epsilon of beam bottom_Bi；

The specific values are as follows:

ni/％	0	10	20	30	40	50	60	70	80	90	100
												εBi/με	3804	3615	3214	2854	2518	2115	1916	1834	1756	1688	1598
RBi/MPa	14.925	14.555	14.104	13.672	13.014	12.494	12.268	12.106	11.884	11.746	11.655

step 6: adding n of aged asphalt_iIs a maximum bending strain epsilon of the beam bottom on the abscissa_BiPlotting the ordinate, and adding an exponential function trend line, a formula and an error value, wherein the result is shown in FIG. 2;

as can be seen from fig. 2, when the addition amount is 60%, the decreasing tendency of the maximum bending strain at the bottom of the beam becomes gentle, unlike the addition amount < 60%. Thus, n is selected₇60% is the inflection point.

Step 6: calculating the aging degree;

the specific calculation table is as follows:

nk	εBk/με	RBk/MPa	ΔεB	ΔRB	A
						60％	1916	12.268	7.95	0.015	9.76

example 2

The embodiment discloses the application of a method for measuring the aging degree of asphalt;

specifically, two kinds of asphalt, which are numbered AS1 and AS2, are aged according to a test method of road engineering asphalt and asphalt mixture test specification (JTG E20-2011) T0610, then ductility and penetration ratio tests are carried out, a sample with the same gradation and oilstone ratio AS those in example 1 is adopted, and a low-temperature bending test is carried out according to a test method of road engineering asphalt and asphalt mixture test specification (JTG E20-2011) T0715, so that the bending tensile strength and the maximum bending strain of the beam bottom are obtained; the following table specifically shows:

according to the traditional indexes, the ratio of the residual ductility to the penetration of the AS2 asphalt is larger than the correlation index of the AS1 asphalt. It can be concluded that: the AS2 asphalt has better ageing resistance. AS1 asphalt and AS2 asphalt did not differ significantly with respect to low temperature crack resistance.

The results of the measurements carried out according to the method of example 1 of the invention are given in the following table:

as can be seen from the table, the As1 asphalt has an aging A of 4.86, which is less than 5.44 for the AS2 asphalt; thus, aging has a weaker effect on the low temperature crack resistance of AS1 asphalt. Therefore, AS1 asphalt was selected AS the asphalt for construction.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Claims (8)

1. A method for measuring the aging degree of asphalt is characterized by comprising the following steps:

(1) taking production asphalt, and aging the production asphalt to obtain aged asphalt;

(2) adding different amounts of aged asphalt into the production asphalt to obtain a plurality of groups of mixed asphalt; wherein, in the mixed asphalt of the i group, the addition amount of the aged asphalt is n_i；

(3) Mixing the mixed asphalt with aggregate and filler according to a preset proportion to obtain a plurality of groups of asphalt mixtures;

(4) preparing the asphalt mixture into a prism sample;

(5) measuring the flexural tensile strength R of the prismatic sample according to the method in T0715 in JTG E20-2011_BiAnd maximum bending strain epsilon of beam bottom_Bi；

(6) Constructing a curve with an inflection point according to the maximum bending and pulling strain of the beam bottom under the condition of different addition amounts of aged asphalt, and taking an asphalt addition amount value n closest to the inflection point_kBending tensile strength value R_BkAnd the maximum bending strain value epsilon of the beam bottom_Bk；

(7) The aging degree of the production asphalt is calculated according to the following formula group:

A＝Δε_B-lgΔR_B

wherein A is the aging degree of the asphalt;

△ε_Bthe maximum bending strain change rate of the beam bottom in the general descending stage, epsilon_BtWhen the addition amount of the aged asphalt in the mixed asphalt is 100%, the beam bottom maximum bending strain of the prism sample is obtained.

2. The method for measuring the aging degree of asphalt according to claim 1, wherein in the step (1), the asphalt for production is spread into a film with the thickness of 2-5 mm, and then aging is carried out at 150-180 ℃ and under normal pressure for 0.5-5 h; or

Paving the production asphalt into a film with the thickness of 2-5 mm, and then aging at 80-110 ℃ under the pressure of 2-2.5 MPa for 18-28 h.

3. The method for measuring the aging degree of asphalt according to claim 1 or 2, wherein in the step (1), the production asphalt is aged according to the method of T0610 in JTG E20-2011.

4. The method for measuring the degree of aging of asphalt according to claim 1, wherein in the step (2), the amount of the aged asphalt is different among different groups of the mixed asphalt; the addition amount of the aged asphalt is in an increasing trend.

5. The method for measuring the degree of aging of asphalt according to claim 1 or 4, wherein in the step (2), n is_iThe values of (A) are 0%, 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90% and 100% in sequence.

6. The method for measuring the asphalt aging degree according to claim 1, wherein in the step (3), the asphalt mixture mainly comprises the following raw materials in parts by weight:

2-5 parts of mixed asphalt, 90-98 parts of aggregate and 0-5 parts of filler.

7. The method for measuring the degree of aging of asphalt according to claim 1, wherein the asphalt mixture is a cold-mix asphalt mixture or a hot-mix asphalt mixture.

8. The method for measuring the aging degree of asphalt according to claim 1, wherein in the step (4), a prismatic sample is prepared according to the method in T0703 in JTG E20-2011.

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