CN100526252C

CN100526252C - Rubber powder modified concrete asphalt mortar

Info

Publication number: CN100526252C
Application number: CNB2007101334601A
Authority: CN
Inventors: 洪锦祥; 刘加平; 缪昌文; 叶义群; 万赟; 费治华; 孙树
Original assignee: Jiangsu Bote New Materials Co Ltd
Current assignee: Sobute New Materials Co Ltd
Priority date: 2007-09-30
Filing date: 2007-09-30
Publication date: 2009-08-12
Anticipated expiration: 2027-09-30
Also published as: CN101172823A

Abstract

The invention relates to rubber powder modified cement bitumen mortar which is formed by mixing the components with the weight ratio as follows: 100 parts of cement, 50 to 170 parts of emulsified asphalt, 5 to 80 parts of rubber powder, 160 to 230 parts of sand, 20 to 85 parts of water, 0.01 to 0.1 parts of aluminium powder, 0.1 to 0.5 parts of anti-foam additive and 0.05 to 0.2 parts of thickener. The invention adopts the rubber powder to partially substitute the emulsified asphalt to prepare CA mortar, thereby obviously improving the weathering resistance of the CA mortar and reducing the cost of the CA mortar; the CA mortar has better weathering resistance when the rubber powder has higher mix proportion. Within the dosage range of the invention, the rubber powder has no disadvantage to the performances of the CA mortar, such as workability, strength, modulus of elasticity, degree of separation, expansion rate, bleeding rate, frost resistance, etc.

Description

Rubber powder modified concrete asphalt mortar

Technical field

The present invention relates to a kind of ballastless track mortar materials such as high-speed railway and urban light rail that are applicable to, particularly a kind of modifying rubber powder cement pitch prill mortar belongs to building material field.

Background technology

Cement asphalt mortar (being called for short the CA mortar) is the key components of plate-type slag-free orbit, and it plays stable and buffering effect in train operation, all has important effect to improving train security of running at high speed and the comfortableness of taking.The CA mortar strength is higher, survivable characteristics are arranged, therefore replace ballast aggregate to be poured between track plate and the concrete bed in the CA mortar, make track have elasticity on the one hand, the usefulness that can when laying, adjust the track construction error in passing on the other hand and be adjusted when keeping in repair in the future.The ballastless track structure is because of having good stability, lasting, few, the good endurance of maintenance load of track geometry size maintenance, bridge second phase dead load is little, can reduce tunnel clearance and reduce excavation area, the overall economic efficiency advantages of higher has obtained application more and more widely abroad on the Line for Passenger Transportation.Be to realize the passenger-cargo carriage separated time, with further promotion China rapid economy development, a large amount of layings of ballastless track on Line for Passenger Transportation have become the development trend of China Express Railway, and therefore, the CA mortar is with a wide range of applications in China.

Substantially all adopt starting material such as emulsified bitumen, cement, sand to prepare the CA mortar at present both at home and abroad, wherein the main effect of cement provides intensity, and emulsified bitumen provides elasticity for mortar.Because pitch is a kind of temperature-sensitive material, have that low temperature is easy to crack, the yielding characteristics of high temperature, prepare the shortcoming that there is the weathering resistance difference in the CA mortar with emulsified bitumen.In addition because and in the CA mortar consumption of emulsified bitumen higher, be generally 500kg/m ³About, and the market value of emulsified bitumen is generally 3600 yuan/ton, makes the price of CA mortar generally up to 2000 yuan/m ³Therefore, be necessary existing C A mortar is carried out modification, and reduce its cost simultaneously.

Japan is in order to improve the weathering resistance of CA mortar, invented a kind of P emulsion that can use at cold district, but can further increase the cost of CA mortar.There are some researches show, pitch is carried out modification, can improve heat-resisting, the winter hardiness of bituminous.Therefore, using modified emulsifying asphalt to replace common emulsified bitumen preparation CA mortar is an improvement direction, but because the asphalt emulsification difficulty after the modification is big, the emulsifying process complexity, and can significantly increase the cost of emulsified bitumen, therefore, use modified emulsifying asphalt preparation CA mortar to be difficult to realize simultaneously modification and the purpose that reduces cost.

Summary of the invention

The technical problem that will solve of the present invention is difficult to realize simultaneously modification and the problem that reduces cost with regard to being to use modified emulsifying asphalt preparation CA mortar, provides that a kind of production cost is low, the ballastless slab track special purpose rubber powder modified concrete asphalt mortar of good weatherability.

Because emulsified bitumen weathering resistance difference is the major cause of CA mortar weathering resistance difference, and the expense of emulsified bitumen accounts for more than 60% of whole mortar cost in the mortar, therefore, solve the problems of the technologies described above, key is to locate a kind of good weatherability, and the material more cheap than emulsified bitumen partly or entirely substitutes emulsified bitumen.

The applicant is by discovering, rubber is as a kind of elasticity macromolecular material, and its weathering resistance is significantly better than pitch, and rubber powder can be used as a kind of properties-correcting agent and improves the bituminous temperature sensitivity.Simultaneously, because the price of the rubber powder that is processed by waste rubber than emulsified bitumen considerably cheaper, therefore, if can substitute the elasticity speciality that emulsified bitumen not only can keep the CA mortar with rubber powder, also can realize modification and the purpose that reduces cost.

In addition, according to world environments health organization statistics, world's junked tire burden has reached 3,000,000,000, and with every year about 1,000,000,000 numeral increase.China is second largest in the world tire production state, and the annual junked tire that produces is above 5,000 ten thousand.Junked tire belongs to harmful solid waste, and how handling these junked tires is thorny problems that various countries face.Because reclaimed rubber is easy to generate secondary pollution in process of production, become the main path that waste old is recycled so produce rubber powder.

Therefore,, not only can realize improving the weathering resistance of CA mortar, reduce the target of CA mortar cost, also can economize on resources, the protection environment if can carry out modification to the CA mortar with the rubber powder that waste old processes.

The applicant finds after deliberation, because the flowability of CA mortar is bigger, and rubber powder is an inert substance, reunites easily in water, if with rubber powder replacing whole emulsified bitumen, and the then easy laminated segregation of mortar, bleeding, and can't construct.

Therefore, based on above-mentioned research, the applicant finally works out and takes partly to substitute the technical scheme of emulsified bitumen with rubber powder, thereby proposes a kind of rubber powder modified concrete asphalt mortar, and it is formulated by following components in mass portion number:

Cement (C): 100 parts

Emulsified bitumen (AE): 50～170 parts

Rubber powder (RP): 5～80 parts

Sand (S): 160～230 parts

Water (W): 20～85 parts

Aluminium powder (LF): 0.01～0.1 part

Defoamer (XP): 0.1-0.5 part

Thickening material (ZC): 0.05～0.2 part

Cement of the present invention is that strength grade is a kind of in 42.5 or 52.5 silicate cement, ordinary Portland cement, the early-strength type silicate cement.

Emulsified bitumen of the present invention is for splitting type slowly, and residuals content is 58%～63%, can be anionic, cationic or non-ionic type.

Rubber powder of the present invention is processed by waste old, its fineness 〉=80 orders; Described sand can be river sand, extra large sand or artificial sand, and fineness modulus is 1.4～2.2; The iron level of described aluminium powder≤0.8%, lead content≤0.03%, fineness satisfies water-covering capacity 〉=1350m ²/ kg; Described defoamer can be polysiloxane-based, alcohols, ethers, fatty acid, amine, phosphoric acid ester, lipid, stearate class, amides, sulfonic acid esters etc.; Described thickening material can be methylcellulose gum, carboxymethyl cellulose, ethyl cellulose, Natvosol, polyvinyl alcohol etc.

The present invention adopts rubber powder partly to substitute emulsified bitumen preparation CA mortar (mass ratio that rubber powder replaces emulsified bitumen reaches as high as 70%), can obviously improve the weathering resistance of CA mortar, reduces the cost of CA mortar; The rubber powder volume is high more, and the weathering resistance of CA mortar is good more, and in volume scope of the present invention, rubber powder all has no adverse effect to performances such as the workability of CA mortar, intensity, Young's modulus, resolution, rate of expansion, bleeding rate, frost resistances.

Embodiment

In order to understand the present invention better, further illustrate content of the present invention below in conjunction with embodiment, but content of the present invention not only is confined to the embodiment of table 1.

Table 1 embodiment proportioning

The preparation method of each Comparative Examples and step are in the table 1: adopt glue sand agitator that " Test method for strength of hydraulic cement mortar " (GB/T17671-1999) stipulate to add emulsified bitumen → water → siccative (sand that mixes, cement,, aluminium powder, defoamer, thickening material) successively under condition of stirring at a slow speed, siccative adds the back and stirs 3min fast, and then stirs 1min at a slow speed.

The preparation method of each embodiment and step are in the table 1: adopt glue sand agitator that " Test method for strength of hydraulic cement mortar " (GB/T17671-1999) stipulate to add emulsified bitumen → water → rubber powder → siccative (sand that mixes, cement,, aluminium powder, defoamer, thickening material) successively under condition of stirring at a slow speed, siccative adds the back and stirs 3min fast, and then stirs 1min at a slow speed.

After the mortar moulding for preparing, carry out degree of mobilization, operable time, air content, unit volume quality, ultimate compression strength, Young's modulus, resolution, rate of expansion, bleeding rate, the frost resistance test of CA mortar according to the test method that " railroad track design specifications " (TB10082-2005) stipulated.

The test methods and procedures that the weathering resistance of CA mortar adopts is:

(1) with the CA mortar of the qualified system of mixing of slump test after 10 minutes, inject the model of 40 * 40 * 160mm, 8 groups of test specimens of once shaped, every group of sample number is 3.

(2) the test specimen normal curing is after 28 days, and wherein 4 groups of test specimens are put into quick anti-marquis's proofing box (light source: 6000W water-cooled tubulose xenon lamp; The distance of test specimen and light source: 35～40cm; 60 ± 2 ℃ of working spaces's air themperature; Relative humidity: 70 ± 5%RH; The simulated rainfall cycle: the every irradiation of sample 1 hour, rainfall 9 minutes) specimen holder frame, and it is inserted on the rotary drum, machine by the working specification of growth cabinet, to test by test conditions, irradiation time is 500h.Simultaneously other 4 groups contrast test specimen is continued to place 20 ± 3 ℃, carry out normal curing in the environment of 65 ± 5%RH.

(3) when irradiation time respectively 0,100,300, during 500h, respectively to illuminated test specimen and with the length of time not irradiated standard specimen carry out bending test, check the appearance change situation of test specimen simultaneously.

(4) be calculated as follows the relative folding strength of different irradiation time CA mortar specimens:

R = \frac{R_{t}}{R_{0}} \times 100 %

In the formula: R _tThe folding strength value of the illuminated test specimen of---different irradiation time, MPa;

R ₀The folding strength value of---identical period normal curing test specimen, MPa;

The relative folding strength of the different irradiation time test specimens of R---, %.

Wherein the relative folding strength value of sample is got the arithmetical av of every group of three relative folding strengths of test specimen.

Listed the performance of each Comparative Examples and embodiment in the table 2.

Table 2 CA mortar performance index request and embodiment test-results

As can be seen from Table 2, partly substitute emulsified bitumen preparation CA mortar with rubber powder, can obviously improve the weathering resistance of CA mortar, the rubber powder volume is high more, the weathering resistance of CA mortar is good more, in volume scope of the present invention, rubber powder all has no adverse effect to performances such as the workability of CA mortar, intensity, Young's modulus, resolution, rate of expansion, bleeding rate, frost resistances.

According to market survey as can be known, the raw-material average unit cost of CA mortar is: cement: 360 yuan/ton, and emulsified bitumen: 3600 yuan/ton, rubber powder: 2500 yuan/ton, sand: 150 yuan/ton, water: 3 yuan/ton, aluminium powder: 5000 yuan/ton, defoamer: 50000 yuan/ton, thickening material: 30000 yuan/ton.Can calculate the cost of each Comparative Examples and embodiment mortar according to above-mentioned unit price, see Table 3.

Table 3 CA mortar cost analysis table

As can be seen from Table 3, can obviously reduce its cost with rubber powder preparation CA mortar, the volume of rubber powder is many more, and cost is low more.

Claims

1, a kind of rubber powder modified concrete asphalt mortar is characterized in that by following components in mass portion number formulated:

Cement: 100 parts, emulsified bitumen: 50～170 parts, rubber powder: 5～80 parts, sand: 160～230 parts, water: 20～85 parts, aluminium powder: 0.01～0.1 part, defoamer: 0.1-0.5 part, thickening material: 0.05～0.2 part.

2, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that described cement is that strength grade is 42.5 or 52.5 silicate cement, in the ordinary Portland cement any one.

3, as rubber powder modified concrete asphalt mortar as described in the claim 2, it is characterized in that described silicate cement is the early-strength type silicate cement.

4, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that described emulsified bitumen for splitting type slowly, and residuals content is 58%～63%, can be anionic, cationic or non-ionic type.

5, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that described rubber powder is processed by waste old, its fineness 〉=80 orders.

6, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that described sand is selected from river sand, extra large sand or artificial sand, and fineness modulus is 1.4～2.2.

7, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that iron level≤0.8% of described aluminium powder, lead content≤0.03%, and fineness satisfies water-covering capacity 〉=1350m ²/ kg.

8, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that described defoamer is selected from polysiloxane-based, alcohols, ethers, fatty acid, amine, phosphoric acid ester, lipid, stearate class, amides, sulfonic acid esters.

9, rubber powder modified concrete asphalt mortar according to claim 1 is characterized in that described thickening material is selected from methylcellulose gum, carboxymethyl cellulose, ethyl cellulose, Natvosol, polyvinyl alcohol.