CN104762863B - Bituminous mixture used for thin layer overlay of cement concrete pavement and preparation and construction methods of bituminous mixture - Google Patents

Abstract

The invention discloses a bituminous mixture used for a thin layer overlay of cement concrete pavement and preparation and construction methods of the bituminous mixture. The bituminous mixture comprises mineral aggregate, bitumen, a fiber stabilizer and an additive, wherein filler in the mineral aggregate is copper tailing power. The bituminous mixture has the advantages that the copper tailing power is used as the filler in the bituminous mixture, thus copper tailing is comprehensively recycled. Besides, the bituminous mixture is superior in performances, is easily compacted, and can be paved on the cement concrete pavement for 1.5-2.5cm; the damaged pavement can be quickly repaired after construction; the smoothness and the skid resistance of the pavement are restored; the quality of the pavement is improved; the service life of the pavement is prolonged; driving comfort and safety are improved; the pavement can also be precured; the construction cost is lowered; energy and resources are saved; influences on environment and facilities are reduced; and the like. Moreover, the preparation method and the construction method of the bituminous mixture are simple and practicable, easy to operate and high in practicability.

Description

A kind of asphalt for cement concrete pavement thin overlay and preparation with Construction method

Technical field

The present invention relates to a kind of asphalt and preparation method thereof and construction method, be specifically related to one and copper tailing is returned Receive utilization and the asphalt being applied to cement concrete pavement thin overlay and preparation method thereof and construction method, belong to Building material technical field used in the engineering of road.

Background technology

Asphalt concrete pavement is a kind of flexible high class pavement, repairs Paving Bituminous Concrete surface layer for old asphalt pavement Fairly simple, it is only necessary to Disease Processing to be got well and carried out the overlap joint operation of new-old pavement, it is possible to entirety has given play to Colophonium coagulation The effect of soil surface.

In contrast, cement concrete pavement is a kind of rigidity high class pavement, in natural environment and the length of vehicular load Under phase effect, adding the defect himself existed, road surface is the most damaged, is difficult to repair, and under the effect that stress is concentrated, broken The road surface damaged is easy to extend rapidly come.In order to reduce the maintenance cost of breakage on cement concrete pavement section, and avoid or Reducing cement concrete pavement to be damaged prematurely, we are necessary to take some to repair and preventive maintenance measure.Domestic Outer research shows, it is to add black top coagulation on the basis of original road surface that cement concrete pavement is transformed most viable measure Soil surface layer makees wearing course.But, more complicated for Laying Asphalt Surface Course on Cement Concrete Pavement, at present, China's Colophonium mixing Material thin overlay technology application on bituminous paving is the most ripe, but the application on cement concrete pavement is also compared Few.Colophonium on Old cement concrete is added by China " highway cement concrete pavement design specification " (JTG D40-2011) Laying only provides the suggestion of some directiveness: should be according to temperature, load, concrete road surface bearing capacity, joint slab ability etc. Reasonable selection slows down the measure of reflection crack, including the thickness increasing asphalt overlay；In asphalt adding of fiber and The modifying agent such as rubber；Stress absorbing layer or geotextile interlayer etc. are set in concrete slab end face or overlay.Asphalt overlaying The thickness of layer should be taken into account the nominal maximum particle diameter of asphalt and match and slow down the requirement of reflection crack and determine.Highway Being preferably 100mm with the minimum thickness of Class I highway, the minimum thickness of other standard highways is preferably 80mm, and this thickness not only improves The comprehensive cost on road surface, and some location improves grade elevation and can affect road equipment.Therefore, if thickness energy Enough it is down to about 2cm, maintenance and precuring cost can be significantly reduced.But, the overlay thickness of only 2cm can give the pressure of compound Bring great difficulty, especially in microthermal climate in fact.

Additionally, mine tailing is the garbage after ore dressing, it it is the key component of industrial solid castoff.At present, China's tail Ore deposit amount up to more than 10,000,000,000 tons, discharges mine tailing amount year and is up to 500,000,000 more than t, and wherein copper tailing account for greatly, and China Comprehensive utilization of tailing rate the lowest, substantial amounts of mine tailing is piled up for a long time and not only air and water and soil is caused serious pollution, and And occupy a large amount of agricultural land, if adding that Tailings Dam management, design are not good at, accident of easily decaying, causes personnel to hinder Die.Additionally, along with building industry and the development of Highway Cause, the demand of sandstone material is increased day by day, but natural sandstone Material is non-renewable resources in a kind of short time, causes sand and stone resources in short supply, and price rises steadily.Mine tailing wide variety, group Point complexity, all kinds of mine tailing utilizabilitys are also not quite similar, and every kind of mine tailing is different due to component, its hydrophilic coefficient, plasticity index and Add the character such as thermostability the most otherwise varied, therefore different mine tailings is needed just can obtain through substantial amounts of research and test Sufficiently effective utilization.

At present, only some data shows that the fine aggregate by iron tailings sand replaces in asphalt uses, and does not also have Data shows and can be applied in asphalt by copper tailing, is particularly applied to cement concrete pavement thin overlay Colophonium In the filler of compound, it requires higher for raw material.Therefore, how copper tailing is applied to cement concrete pavement thin layer In the asphalt of cover, the thickness of the most thinning asphalt, meet the compacting requirement of compound simultaneously, moreover it is possible to The comprehensive cost reducing road surface is a difficult problem the most urgently to be resolved hurrily.

Summary of the invention

Goal of the invention: an object of the present disclosure is to provide a kind of collection recycling copper tailing, reparation and precuring cement and mixes The asphalt that solidifying soil surface is integrated；

The second object of the present invention is to provide the preparation method of this asphalt；

The third object of the present invention is to provide the construction method of this asphalt.

Technical scheme: asphalt of the present invention, including mineral aggregate, Colophonium, fiber stabilizer and additive, its In, described mineral aggregate, by gathering materials and filler forms, gathers materials for basalt, diabase or limestone, and filler is copper tailing powder, gather materials and The percentage by weight of filler is 96～94%:4～6%；Described Colophonium is polymer modified asphalt or heavy traffic plain asphalt, front Person's bitumen aggregate ratio is 5.6～6.0%, and the latter's bitumen aggregate ratio is 5.8～6.2%, and its bitumen aggregate ratio is the percentage by weight that Colophonium accounts for mineral aggregate； Described fiber stabilizer is polyester fiber or lignin fibre, and its weight is the 0.1～0.3% of mineral aggregate gross weight；Described interpolation Agent is composite synergist, and its weight is the 0.3～0.6% of mineral aggregate gross weight.

Described additive is mixed by composite synergist and warm-mixing agent, wherein, and composite synergist and the weight of warm-mixing agent Amount respectively accounts for the 0.3～0.6% of mineral aggregate gross weight.The nominal maximum aggregate size of asphalt is 6.7mm.

The grading limit of mineral aggregate is:

The preparation method of the asphalt for cement concrete pavement thin overlay of the present invention, including walking as follows Rapid:

For polymer modified asphalt, in advance mineral aggregate being heated to 180～190 DEG C, polymer modified asphalt is heated to 165 ～175 DEG C；Then by mineral aggregate, fiber stabilizer and additive mixing dry mixing 10～15s, wherein, as the copper of filler in mineral aggregate Mine tailing is met fineness and grating requirement by copper tailing through grinding screening；It is subsequently adding polymer modified asphalt wet-mixing 50～55s, Last discharging to control drop temperature be 170～180 DEG C；

For heavy traffic plain asphalt, in advance mineral aggregate being heated to 170～180 DEG C, heavy traffic plain asphalt is heated to 155 ～165 DEG C；Then by mineral aggregate, fiber stabilizer and additive mixing dry mixing 10～15s, wherein, as the copper of filler in mineral aggregate Mine tailing is met fineness and grating requirement by copper tailing through grinding screening；It is subsequently adding heavy traffic plain asphalt wet-mixing 50～55s, Last discharging to control drop temperature be 160～170 DEG C.

The construction method of the asphalt for cement concrete pavement thin overlay of the present invention, including walking as follows Rapid:

(1) according to former cement concrete pavement situation, it is carried out pretreatment；

(2) road surface is cleaned；

(3) SBS that stickup high-performance polyester cloth or Fibergrass polyester mat at the crack on the road surface after cleaning are made；

(4) to the road surface spraying high intensity modified emulsifying asphalt sticking layer oil after patch；

(5) pave successively and rolled asphalt after the complete breakdown of emulsion of emulsified asphalt in high intensity modified emulsifying asphalt sticking layer oil Compound, described asphalt is layed in cement concrete road surface 1.5～2.5cm, and wherein, paving material is not less than 130 DEG C, the initial temperature rolled is not less than 120 DEG C, and the finishing temperature rolled is not less than 90 DEG C, and the temperature rolling rear road surface is less than Traffic can be opened gradually when 50 DEG C.

Wherein, in step (1), described pretreatment includes leveling process or joint treatment, and wherein, described leveling processes and is First measuring the flatness on road surface, the part milling then exceeded on road surface is fallen, and sunken part asphalt is filled up；Described Joint treatment is that the gradual change in the way of oblique triangle of former cement concrete pavement is extended to new road surface.

In step (2), described cleaning road surface is that road pavement is first cleaned with sprinkling truck, then cleans with strength brusher, then Rinse with sprinkling truck, finally blow clean with hair-dryer.

In step (4), the thickness of described stickup is less than 2.5mm, and width is 30～50cm.

Invention mechanism: the present invention is mainly adjusted by the mix-design of the Gradation Optimization compound of mineral aggregate, will reclaim profit Copper tailing grinding after replace filler use, the additive simultaneously mixed can increase by 60 DEG C of dynamic viscosities, improve height Warm nature energy, reduce high temperature viscosity and can compacting temperature, improve construction workability and extend the engineering time, the fiber stabilizer of incorporation High-temperature stability, low-temperature cracking-resistance, anti-fatigue performance and water stability can be improved again, add the cementation of Colophonium, make entirety Give play to good performance.

Gathering materials and be divided into coarse aggregate and fine aggregate, filler generally refers to the fine powder material of breeze class；Gather materials especially rough set Material has been more skeleton function, and in fine aggregate is then filled in coarse aggregate, embedded squeezing is piled up；Breeze is to gather materials it to fill thickness Between space, to mineral aggregate grating require higher.

Beneficial effect: compared with prior art, its remarkable advantage is the present invention: the asphalt of the present invention can reclaim profit With copper tailing, and the filler replaced in breeze after copper tailing grinding is used, owing to copper tailing powder is cheap and easy to get, not only drop The low cost of asphalt, moreover it is possible to improving the performance of compound, decrease pollution simultaneously, saved resource, it comprehensively returns Receive to utilize and there is good economic benefit and social benefit.This performance of asphalt mixture is excellent and is easily compacted, and adds and is layered on cement and mixes On solidifying soil surface only 1.5～2.5cm can be achieved with current 5～7cm the abrasion function of asphalt concrete pavement, energy after construction Enough damaged road surfaces of repairing rapidly, the planarization on recovery road surface and skid resistance, improve pavement quality, extend the service life on road surface, Reduce noise, improve road-ability and safety, moreover it is possible to precuring road surface, do not affect road equipment, reducing the construction costs, joint The about energy and resource, reduces environment and the impact etc. of facility.Additionally, the asphalt preparation method of the present invention and construction party Method is simple, easily operates, practical.

Detailed description of the invention:

Below technical scheme is described further.

Embodiment 1:

(1) component:

Gathering materials: basalt, nominal maximum aggregate size is 6.7mm, purchased from Jiangsu Xing Yuan mining industry company limited；

Filler: copper tailing powder, is selected from locality or periphery mining site；

Wherein, the weight ratio with filler of gathering materials is 96%:4%, describes for convenience, will gather materials here and filler is referred to as " mineral aggregate ", mineral aggregate gradation sees table 1.

Table 1 mineral aggregate gradation

Colophonium: SBS polymer modified pitch, its bitumen aggregate ratio is 5.8%, wherein, bitumen aggregate ratio be Colophonium with mineral aggregate weight it Ratio, this Colophonium is purchased from Jiangshu Baoli Pitch Co., Ltd..

Fiber stabilizer: polyester fiber, volume is the 0.2% of mineral aggregate weight, builds the limited public affairs of prestige construction material purchased from Changzhou Department.

Additive: mixed by composite synergist and warm-mixing agent, volume is the 0.3% of mineral aggregate weight, composite synergistic Agent is purchased from Shanghai Honeywell company limited, and warm-mixing agent is purchased from Changzhou Zhu Wei construction material company limited

What deserves to be explained is, composite synergist here rises has raising high-temperature stability, low-temperature cracking-resistance, Rut resistance Can act on anti-fatigue performance etc.；Warm-mixing agent rise have reduction high temperature viscosity and can compacting temperature, improve construction workability and prolong The long engineering times etc. act on；So both act on and differ, and collaborative using effect is more preferable.

The performance verification of asphalt is as shown in table 2, and its performance can meet technology requirement well.

Table 2 Marshall Test result

Test index	Result of the test	Technology requirement
			Leakage analysis losing (%)	0.15	≤0.2
Disperse loss (%)	3.30	≤15
			Residual stability (%)	98.5	≥85
Freeze-thaw split strength ratio (%)	83.5	≥80
			Dynamic stability (secondary/mm)	5261	≥3000

Refinery operation scheduling process is as follows: according to marshall' mechanic characteristic value first target setting match ratio and carry out horse and have a rest That compaction test, then debugs production mix proportion according to screening in hot material store and density test, so that it is determined that optimal oilstone Ratio, finally according to optimum oil-stone ratio and selected grating, verifies the performance of compound, draws final production mix proportion Conclusion.

(2) preparation method

Carrying out as follows: first mineral aggregate is heated to 180～190 DEG C, Colophonium is heated to 165～175 DEG C, then will collection Material, filler, fiber stabilizer and additive mixing dry mixing 10～15s, be subsequently added into Colophonium wet-mixing 50～55s, and drop temperature is 170～180 DEG C.

Relevant parameter in above-mentioned steps is that the characteristic research according to raw materials various in asphalt and proportioning thereof draws.

(3) construction method and performance detection

The construction of asphalt is carried out as follows: it is carried out pre-according to former cement concrete pavement situation by (1) Process；(2) road surface is cleaned；(3) stickup high-performance polyester cloth or Fibergrass polyester mat at the crack on the road surface after cleaning are made SBS；(4) to the road surface spraying high intensity modified emulsifying asphalt sticking layer oil after patch；(5) high intensity modified emulsifying asphalt adhesion coating is treated Pave successively after the complete breakdown of emulsion of emulsified asphalt in oil and rolled asphalt compound so that described asphalt is layed in cement Top layer, concrete road surface 1.5～2.5cm, wherein, paving material is not less than 130 DEG C, and the initial temperature rolled is not less than 120 DEG C, The finishing temperature rolled is not less than 90 DEG C, can open gradually traffic when rolling the temperature on rear road surface less than 50 DEG C.

Pretreatment includes leveling process or joint treatment, and wherein, it is first to measure surface evenness that leveling processes, the highest Part milling is fallen, and low part asphalt is filled up.Joint treatment is to process the joint area on the old and new road surface with milling machine (such as seam), to prevent face, old road from crack occur, and extends the gradual change in the way of oblique triangle of former cement concrete pavement To new road surface.Carry out main road again after the seam at road junction, roadside is first processed with cutting machine to pave or hot seam paves.Construction Before also tackle the height on road surface around the well lid in boundary of works area or sump and be adjusted, actual adjustment is highly considered as and well Around lid or sump, road surface longitudinal gradient is corresponding, reduces and occurs with new road not in conplane situation after paving.For former Cement concrete pavement has the disease palpus advanced processing such as serious check crack, horizontal, longitudinal crevasse, purt slurry, in order to reach intended ideal Effect.

Road cleaning must be by following procedure operation: first clean with sprinkling truck, then cleans with strength brusher, then with spilling Waterwheel rinses, and last hair-dryer blows clean.Clean up completely, after patch at road surface spraying high viscosity modified emulsifying asphalt adhesion coating Oil, uniformly to put in place during sprinkling, it is impossible to local situation too much or very little occurs, thus affects pavement quality, meanwhile, and spray The high viscosity modified emulsifying asphalt sticking layer oil spilt just can carry out next step construction after need to waiting until the complete breakdown of emulsion of emulsified asphalt.

In cement concrete pavement, crack treatment material should select tensile strength height, resistance to ag(e)ing and the high property of good waterproof performance The SBS that energy mylar or Fibergrass polyester mat are made, its thickness not can exceed that 2.5mm, and width is preferably 30～50cm, and construction stickup must Must firmly, be not moved deformation and curling.

Before paving, machine spreading position white line is released, determine the order that paves, reduce construction joint.

Thin overlay should not be constructed in microthermal climate.As needed construction, the temperature of dispatching from the factory of compound should be properly increased, and Transport vehicle is carried out tight covering and heat insulating measure, paves and be compacted preferably carry out between 9:00am to 4:00pm, accomplishing Fast discharging, pave and roll soon soon.Need before paving bituminous concrete paver to be cleared up and preheats, reach in temperature Just can pave for more than 120 DEG C.When paving, paver should slowly, uniformly, pave incessantly.Use the mixing of machine spreading Before material is not compacted, workmen must not enter and trample.Generally must not use hand finish.

Asphalt is layed in certain cement concrete pavement 1.5～2.0cm, after testing, every pavement technique index Meet design requirement.

Embodiment 2

(1) component:

Gathering materials: limestone, nominal maximum aggregate size is 6.7mm, purchased from Jiangsu Xing Yuan mining industry company limited；

Filler: copper tailing powder, is selected from locality or periphery mining site；

Wherein, the weight ratio gathered materials with filler is 95%:5%；

Mineral aggregate gradation sees table 3

Table 3 mineral aggregate gradation

Colophonium: heavy traffic 70#A level Colophonium, its bitumen aggregate ratio is 6.1%, purchased from Jiangsu Zhong Youxingneng Colophonium company limited.

Fiber stabilizer: lignin fibre, volume is the 0.3% of mineral aggregate weight, builds prestige construction material purchased from Changzhou limited Company.

Additive: mixed by composite synergist and warm-mixing agent, the former volume is the 0.6% of mineral aggregate quality, and the latter mixes Amount is the 0.4% of mineral aggregate quality, and composite synergist is purchased from Shanghai Honeywell company limited, and warm-mixing agent is built prestige purchased from Changzhou and built Build Materials Co., Ltd.

As shown in table 4, its performance can meet technology requirement in performance of asphalt mixture checking.

Table 4 Marshall Test result

Test index	Result of the test	Technology requirement
			Leakage analysis losing (%)	0.18	≤0.2
Disperse loss (%)	10.80	≤15
			Residual stability (%)	94.5	≥85
Freeze-thaw split strength ratio (%)	81.0	≥80
			Dynamic stability (secondary/mm)	4001	≥3000

(2) preparation method:

First mineral aggregate being heated to 170～180 DEG C, Colophonium is heated to 155～165 DEG C, then will gather materials, filler, fiber steady Determining agent and additive mixing dry mixing 10～15s, be subsequently added into Colophonium wet-mixing 50～55s, drop temperature is 160～170 DEG C.

(3) construction method and performance detection:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

Asphalt is layed in certain cement concrete pavement 2.0～2.5cm, after testing, every pavement technique index Meet design requirement.

Embodiment 3

(1) component:

Gathering materials: diabase, nominal maximum aggregate size is 6.7mm, purchased from Jiangsu Xing Yuan mining industry company limited；

Filler: copper tailing powder, is selected from locality or periphery mining site；

Wherein, the weight ratio gathered materials with filler is 96%:4%；

Mineral aggregate gradation sees table 5

Table 5 mineral aggregate gradation

Colophonium: SBS polymer modified pitch Colophonium, its bitumen aggregate ratio is 5.6%, purchased from the Jiangsu treasured profit limited public affairs of Colophonium share Department.

Fiber stabilizer: polyester fiber, volume is the 0.15% of mineral aggregate weight, builds the limited public affairs of prestige construction material purchased from Changzhou Department.

Additive: composite synergist, volume is the 0.5% of mineral aggregate quality, and this composite synergist is purchased from Shanghai Honeywell Company limited.Herein without warm-mixing agent, it is because temperature higher, can also be preferably by bituminous mixture laying without warm-mixing agent Compacting.

As shown in table 6, its performance can meet technology requirement in performance of asphalt mixture checking.

Table 6 Marshall Test result

Test index	Result of the test	Technology requirement
			Leakage analysis losing (%)	0.16	≤0.2
Disperse loss (%)	6.5	≤15
			Residual stability (%)	97.2	≥85
Freeze-thaw split strength ratio (%)	83.1	≥80
			Dynamic stability (secondary/mm)	4598	≥3000

(2) preparation method:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

(3) construction method and performance detection:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

Asphalt is layed in certain cement concrete pavement 2.0～2.5cm, after testing, every pavement technique index Meet design requirement.

Embodiment 4

(1) component:

Essentially identical with embodiment 1 component, difference is:

Colophonium: SBS polymer modified pitch, its bitumen aggregate ratio is 6.0%.

Fiber stabilizer: polyester fiber, volume is the 0.25% of mineral aggregate weight.

Additive: mixed by composite synergist and warm-mixing agent, both volumes are the 0.6% of mineral aggregate quality.

Mineral aggregate gradation sees table 7

Table 7 mineral aggregate gradation

As shown in table 8, its performance can well meet technology requirement in performance of asphalt mixture checking.

Table 8 Marshall Test result

Test index	Result of the test	Technology requirement
			Leakage analysis losing (%)	0.13	≤0.2
Disperse loss (%)	3.10	≤15
			Residual stability (%)	98.8	≥85
Freeze-thaw split strength ratio (%)	84.7	≥80
			Dynamic stability (secondary/mm)	5362	≥3000

(2) preparation method:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

(3) construction method and performance detection:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

Asphalt is layed in certain cement concrete pavement 1.5～2.0cm, after testing, every pavement technique index Meet design requirement.

Embodiment 5

(2) component:

Essentially identical with embodiment 2 component, difference is:

The weight ratio with filler of gathering materials is 95.5%:4.5%

Colophonium: heavy traffic 70#A level Colophonium, its bitumen aggregate ratio is 5.9%.

Fiber stabilizer: polyester fiber, volume is the 0.2% of mineral aggregate weight.

Additive: mixed by composite synergist and warm-mixing agent, both volumes are the 0.6% of mineral aggregate quality.

Mineral aggregate gradation sees table 9

Table 9 mineral aggregate gradation

As shown in table 10, its performance can meet technology requirement in performance of asphalt mixture checking.

Table 10 Marshall Test result

Test index	Result of the test	Technology requirement
			Leakage analysis losing (%)	0.18	≤0.2
Disperse loss (%)	8.80	≤15
			Residual stability (%)	95.5	≥85
Freeze-thaw split strength ratio (%)	82.0	≥80
			Dynamic stability (secondary/mm)	4557	≥3000

(2) preparation method:

Substantially the same manner as Example 2, can appropriately adjust according to actual production process.

(3) construction method and performance detection:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

Asphalt is layed in certain cement concrete pavement 2.0～2.5cm, after testing, every pavement technique index Meet design requirement.

Embodiment 6

(3) component:

Essentially identical with embodiment 3 component, difference is:

Colophonium: SBS polymer modified pitch, its bitumen aggregate ratio is 5.8%.

Fiber stabilizer: polyester fiber, volume is the 0.25% of mineral aggregate weight.

Additive: mixed by composite synergist and warm-mixing agent, both volumes are the 0.4% of mineral aggregate quality.

Mineral aggregate gradation sees table 11

Table 11 mineral aggregate gradation

As shown in table 12, its performance can meet technology requirement in performance of asphalt mixture checking.

Table 12 Marshall Test result

Test index	Result of the test	Technology requirement
			Leakage analysis losing (%)	0.18	≤0.2
Disperse loss (%)	7.60	≤15
			Residual stability (%)	96.1	≥85
Freeze-thaw split strength ratio (%)	82.5	≥80
			Dynamic stability (secondary/mm)	4687	≥3000

(2) preparation method:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

(3) construction method and performance detection:

Substantially the same manner as Example 1, can appropriately adjust according to actual production process.

Asphalt is layed in certain cement concrete pavement 2.0～2.5cm, after testing, every pavement technique index Meet design requirement.

Claims (9)

1. the asphalt for cement concrete pavement thin overlay, it is characterised in that: include mineral aggregate, Colophonium, fibre Dimension stabilizer and additive, wherein, described mineral aggregate, by gathering materials and filler forms, gathers materials for basalt, diabase or limestone, Filler is copper tailing powder, gathers materials and the percentage by weight of filler is 96～94%:4～6%；Described Colophonium is polymer modification drip Green grass or young crops or heavy traffic plain asphalt, the former bitumen aggregate ratio is 5.6～6.0%, and the latter's bitumen aggregate ratio is 5.8～6.2%, and its bitumen aggregate ratio is drip Green grass or young crops accounts for the percentage by weight of mineral aggregate；Described fiber stabilizer is polyester fiber or lignin fibre, and its weight is mineral aggregate gross weight 0.1～0.3%；Described additive is composite synergist, and its weight is the 0.3～0.6% of mineral aggregate gross weight.

The most according to claim 1 for the asphalt of cement concrete pavement thin overlay, it is characterised in that: described Additive is mixed by composite synergist and warm-mixing agent, and wherein, the weight of composite synergist and warm-mixing agent respectively accounts for mineral aggregate gross weight The 0.3～0.6% of amount.

Asphalt for cement concrete pavement thin overlay the most according to claim 1 or claim 2, it is characterised in that: The nominal maximum aggregate size of described asphalt is 6.7mm.

Asphalt for cement concrete pavement thin overlay the most according to claim 1 or claim 2, it is characterised in that: The grading limit of described mineral aggregate is:

The most according to claim 1, be used for the preparation method of the asphalt of cement concrete pavement thin overlay, it is special Levy and be to comprise the steps:

For polymer modified asphalt, in advance mineral aggregate is heated to 180～190 DEG C, polymer modified asphalt be heated to 165～ 175℃；Then by mineral aggregate, fiber stabilizer and additive mixing dry mixing 10～15s, wherein, as the copper tail of filler in mineral aggregate Breeze is to be met after fineness and grating require by copper tailing to use after grinding sieves；It is subsequently adding polymer modified asphalt wet-mixing 50～55s, last discharging to control drop temperature be 170～180 DEG C；

For heavy traffic plain asphalt, in advance mineral aggregate is heated to 170～180 DEG C, heavy traffic plain asphalt be heated to 155～ 165℃；Then by mineral aggregate, fiber stabilizer and additive mixing dry mixing 10～15s, wherein, as the copper tail of filler in mineral aggregate Breeze is to be met after fineness and grating require by copper tailing to use after grinding sieves；It is subsequently adding heavy traffic plain asphalt wet-mixing 50～55s, last discharging to control drop temperature be 160～170 DEG C.

The most according to claim 1, be used for the construction method of the asphalt of cement concrete pavement thin overlay, it is special Levy and be to comprise the steps:

(1) according to former cement concrete pavement situation, it is carried out pretreatment；

(2) road surface is cleaned；

(3) SBS that stickup high-performance polyester cloth or Fibergrass polyester mat at the crack on the road surface after cleaning are made；

(4) to the road surface spraying high intensity modified emulsifying asphalt sticking layer oil after patch；

(5) pave successively after the complete breakdown of emulsion of emulsified asphalt in high intensity modified emulsifying asphalt sticking layer oil and rolled asphalt mixes Material, described asphalt is layed in cement concrete road surface 1.5～2.5cm, and wherein, paving material is not less than 130 DEG C, The initial temperature rolled is not less than 120 DEG C, and the finishing temperature rolled is not less than 90 DEG C, when rolling the temperature on rear road surface less than 50 DEG C Traffic can be opened gradually.

The most according to claim 6, be used for the construction method of the asphalt of cement concrete pavement thin overlay, it is special Levying and be: in step (1), described pretreatment includes leveling process or joint treatment, and wherein, it is first to measure road that described leveling processes The flatness in face, then falls the part milling exceeded on road surface, and sunken part is filled up with described asphalt；Described connect It is that the gradual change in the way of oblique triangle of former cement concrete pavement is extended to new road surface that seam processes.

The most according to claim 6, be used for the construction method of the asphalt of cement concrete pavement thin overlay, it is special Levying and be: in step (2), described cleaning road surface is that road pavement is first cleaned with sprinkling truck, then cleans with strength brusher, then uses Sprinkling truck rinses, and finally blows clean with hair-dryer.

The most according to claim 6, be used for the construction method of the asphalt of cement concrete pavement thin overlay, it is special Levying and be: in step (3), the thickness of the SBS that described stickup high-performance polyester cloth or Fibergrass polyester mat are made is less than 2.5mm, Width is 30～50cm.