CN108948819A

CN108948819A - Low-temperature construction pitch planted roof root resistance material and its preparation and construction method

Info

Publication number: CN108948819A
Application number: CN201810749903.8A
Authority: CN
Inventors: 陈顺; 贺行洋; 苏英; 曾三海; 陈威; 王迎斌; 杨进; 郑正旗; 黄健翔; 王庭苇; 苏骏; 熊威
Original assignee: Hubei University of Technology
Current assignee: Hubei University of Technology
Priority date: 2018-07-10
Filing date: 2018-07-10
Publication date: 2018-12-07
Anticipated expiration: 2038-07-10
Also published as: CN108948819B

Abstract

The invention discloses a kind of low-temperature construction pitch planted roof root resistance material and its preparation and construction methods, the technical scheme comprises the following steps: step 1: 20~30 parts of cosolvent being added into 100 parts of matrix asphalt, stirring and dissolving at a temperature of 40~50 DEG C obtains thick flowable matrix asphalt slurries；Step 2: 10~20 parts of methyl methacrylate or derivatives thereof, 1~2 part of promotor and 1~2 part of root resistance agent being added separately in slurries obtained in step 1, hybrid reaction under shear agitation under room temperature obtains response matrix slurries；Step 3: 1~2 part of photoinitiator being added in the response matrix slurries in step 2, at room temperature hybrid reaction under shear agitation, obtain root resistance material.Present invention process is simple, production cost is low, difficult bottom of constructing is low, reduction root resistance material processing temperature, improves its high temperature stability.

Description

Low-temperature construction pitch planted roof root resistance material and its preparation and construction method

Technical field

The present invention relates to plant roofing field, specifically a kind of low-temperature construction pitch planted roof root resistance material and its Preparation and construction method.

Background technique

Roof greening has neither land occupation resource, and can increase city's green areas, improve air quality, beautification city City's landscape, while alleviating urban heat land effect, reducing roofing institute bearing temperature fluctuation range to extend the roofing service life, reduce room Many advantages, such as interior air conditioning energy consumption, has become the important directions of green building technique, worldwide by ecological environment, The various aspects professional persons such as planning, design are praised highly.But inevitably planted roof can because plant root puncture and Designed roof structure is destroyed, large-scale water leakage occurs, to influence the bulk life time of building, becomes asking of can not ignore Topic.

Common anti-root puncture modified asphalt waterproof coiled material, and often there is overlapping the slot in the construction process and need in asphalt felt The problem of in-situ processing, and general processing mode is that fire is roasting, so that material is easy to be broken through by root system of plant at overlapping the slot, greatly Reduce building service life greatly.And treatment temperature is higher in common asphalt felt preparation process, can consume mass energy, and Generate the gas for largely having injury to human body.

CN201711462820.2 discloses a kind of aqueous cold repairing asphalt mixture and preparation method thereof, by by 100~ 170 DEG C of asphaltic liquid is slowly added into 60~65 DEG C of scattered clay slips of citric acid solution, is carried out high-speed stirred and is sheared To bituminous cements.Although material has certain feature of environmental protection, and has not been changed the working method of high-temperature process pitch, to height There is no improve for temperature processing pitch bring cost and the status of pollution.

CN201711430772.9 discloses a kind of asphalt cold repairing liquid, by matrix asphalt, diluent, styrene-fourth Styrene block copolymer, additive composition, reduce the production cost of asphalt cold repairing liquid, adhesiveness is good.But the material Material is used for pavement engineering, and construction needs hoisting machinery to act on, and there are in place of inconvenience as roofing.And pitch Treatment temperature is at 150 DEG C, and there is no obvious improvement for the smoke pollution generated in this process to pitch.

Summary of the invention

The purpose of the present invention is to solve above-mentioned technical problem, provide that a kind of simple process, production cost is low, construction is difficult Bottom is low, reduces root resistance material processing temperature, improves its high temperature stability, improves the low-temperature construction pitch plantation of low temperature elasticity The preparation method of roofing root resistance material.

The present invention also provides the low-temperature construction pitch planted roof being had excellent performance at one as made from above-mentioned preparation method resistances Root timber material.

The present invention also provides a kind of construction methods of above-mentioned low-temperature construction pitch planted roof root resistance material.

The preparation method of low-temperature construction pitch planted roof root resistance material, which comprises the following steps:

Step 1: 20~30 parts of cosolvent being added into 100 parts of matrix asphalt, is stirred at a temperature of 40~50 DEG C molten Solution, obtains thick flowable matrix asphalt slurries；

Step 2: by 10~20 parts of methyl methacrylate or derivatives thereof, 1~2 part of promotor and 1~2 part of root resistance agent, It is added separately in slurries obtained in step 1, at room temperature hybrid reaction under shear agitation, obtains response matrix slurries；

Step 3: 1~2 part of photoinitiator being added in the response matrix slurries in step 2, at room temperature under shear agitation Hybrid reaction obtains root resistance material.

In step 1, the cosolvent is the mixture of diesel oil or diesel oil and epoxidized soybean oil.

In step 2, methyl methacrylate derivative is propyl methacrylate or butyl methacrylate.

In 4 steps 2, the promotor is butadiene or derivatives thereof；The root resistance agent is dichlorophenoxy octyl propionate Or dichloromethyl phenoxy group octyl propionate.

In step 2, butadiene derivatives 1,3- dimethyl butadiene or 1,3- diethyl butadiene.

In step 3, photoinitiator is methyl vinyl ketone, styrax or benzophenone.

Above-mentioned number is parts by weight.

Low-temperature construction pitch planted roof root resistance material of the present invention is made by above-mentioned preparation method and is formed.

The application method of low-temperature construction pitch planted roof root resistance material is to hinder above-mentioned low-temperature construction pitch planted roof Root timber material blade coating is in roof structure layer surface, then ultraviolet radiation-curable.

To solve the problems in background technique, inventor first passes through cosolvent and is uniformly mixed with pitch, forms polymer matrix Qualitative response system, temperature of reaction system only needs 40~50 DEG C at this time, and obtained matrix asphalt slurries are flowable sticky Slurry carries out subsequent whipping process at normal temperature convenient for the addition of subsequent other additives；Then small molecule is added Monomer --- methyl methacrylate or derivatives thereof is added promotor and is used to form polymer network body after construction solidification System, be added root resistance agent be used for reinforcing material root resistance effect, carry out room temperature shear agitation to obtain response matrix slurries, finally plus Enter the flowable root resistance material that photoinitiator is made sticky.The root resistance material can be kept in dark place under room temperature, when construction, without height Temperature pre-processes, and blade coating is in roof structure layer surface under direct room temperature, and then photoinitiator resolves into freedom under action of ultraviolet light Base causes monomer polymerization and crosslinks, and forms embedded cross-linked network, completes flash cure process, reaches and improve its high temperature resistance Shape ability improves the purpose of low temperature elasticity.The light source of the offer be ultraviolet light, the equipment usually provided be high-pressure sodium lamp, one As be also enriched in ultraviolet light in daylight.By the effect of crosslinking agent, monomer and booster response form cross-linked network, to solve to drip Blueness trickling, the problem that root resistance agent is overflowed and construction node is not easy to operate.

Mutually in 100 parts of matrix asphalt, control is added 20~30 parts of cosolvent, protect matrix asphalt slurries can Hold flow regime, convenient for it is subsequent stirring and be mixed into additive, and will not excessively dilute cause construction when material cohesion it is bad, stream Drop down spilling.The additive amount of methyl methacrylate or derivatives thereof should be controlled at 10~20 parts, and additive amount excessively will cause monomer React incomplete, final material system cross-linked network is insufficient, very few meeting so that it is monomer crosslinked excessively, and system dispersion unevenness, brittleness It is larger.

The utility model has the advantages that

1. the root resistance material of the invention containing pitch can realize low temperature-ordinary temperature production, room temperature construction, obtained root resistance material It for slurry, can be kept in dark place, compared to the asphalt felt or modified pitch of high-temperature process, not only greatly reduce cost, Flue gas emission during high-temperature process pitch is also avoided, the environment during site operation is optimized, it is difficult to reduce construction It spends, shorten the construction period, guarantee the construction quality of material.

2. waterproof root resistance material prepared by the present invention is constructed using low temperature, after material molding, do not need Overlapping the slot is handled, ensure that the globality of material, while avoiding the unfavorable factor because in work progress, does not influence material Design performance ensures service life.

3. the present invention uses ultraviolet light-initiated rapid curing, the implementation condition of material can be controlled artificially, unimolecule is passed through The reaction in polymer substrate is formed in pitch, polymer network is ultimately formed, ensures the performance of material, improve the high temperature of pitch Non-deformability and tearing strength improve its low temperature elasticity.

Specific embodiment

Embodiment 1:

Step 1: 20 parts of diesel oil being added into 100 parts of matrix asphalt, is the stirring and molten at 40 DEG C by temperature Solution, becomes thick flowable slurries for matrix asphalt.

Step 2: 10 parts of methyl methacrylate, 1 part of butadiene and 1 part of dichlorophenoxy octyl propionate are separately added into It is uniformly mixed into the slurries of step 1, and through continuous mechanical shearing, obtains response matrix slurries.

Step 3: 1 part of methyl vinyl ketone being added in the response matrix slurries in step 2, and is stirred by mechanical shearing It mixes and is further uniformly mixed, obtain root resistance material.

Above-mentioned number is parts by weight.

Embodiment 2:

Step 1: 30 parts of mixture of diesel oil and epoxidized soybean oil being added into 100 parts of matrix asphalt, passes through temperature For the stirring and dissolution at 50 DEG C, matrix asphalt is become into thick flowable slurries.

Step 2: by 2 parts of 20 parts of propyl methacrylate, butadiene and derivative and dichloromethyl phenoxy group octyl propionate 2 Part, it is added separately in the slurries of step 1, and be uniformly mixed by continuous mechanical shearing, obtains response matrix slurries.

Step 3: 2 parts of styraxes being added in the response matrix slurries in step 2, and is stirred by mechanical shearing into one Step is uniformly mixed, and obtains root resistance material.

Above-mentioned number is parts by weight.

Embodiment 3:

Step 1: 30 parts of diesel oil being added into 100 parts of matrix asphalt, is the stirring and molten at 50 DEG C by temperature Solution, becomes thick flowable slurries for matrix asphalt.

Step 2: by 10 parts of butyl methacrylate, 1 part of 1,3- dimethyl butadiene and dichlorophenoxy octyl propionate 1 Part, it is added separately in the slurries of step 1, and be uniformly mixed by continuous mechanical shearing, obtains response matrix slurries.

Step 3: 1 part of benzophenone is added in the response matrix slurries in step 2, and by mechanical shearing stir into One step is uniformly mixed, and obtains root resistance material.

Above-mentioned number is parts by weight.

Embodiment 4:

Step 1: 25 parts of diesel oil being added into 100 parts of matrix asphalt, is the stirring and molten at 45 DEG C by temperature Solution, becomes thick flowable slurries for matrix asphalt.

Step 2: by 15 parts of methyl methacrylate, 1.5 parts of 1,3- diethyl butadiene and dichloromethyl phenoxy group propionic acid It 1.5 parts of monooctyl ester, is added separately in the slurries of step 1, and is uniformly mixed by continuous mechanical shearing, obtain reactive group Chylema liquid.

Step 3: 1.5 parts of methyl vinyl ketones being added in the response matrix slurries in step 2, and pass through mechanical shearing Stirring is further uniformly mixed, and obtains root resistance material.

Above-mentioned number is parts by weight.

Embodiment 5:

Step 2: by 15 parts of propyl methacrylate, 2 parts of 1,3- dimethyl butadiene and dichlorophenoxy octyl propionate 2 Part, it is added separately in the slurries of step 1, and be uniformly mixed by continuous mechanical shearing, obtains response matrix slurries.

Above-mentioned number is parts by weight.

Embodiment 6:

Step 1: 30 parts of diesel oil being added into 100 parts of matrix asphalt, is the stirring and molten at 40 DEG C by temperature Solution, becomes thick flowable slurries for matrix asphalt.

Step 2: by 20 parts of butyl methacrylate, 1.5 parts of 1,3- diethyl butadiene and dichloromethyl phenoxy group propionic acid It 1.5 parts of monooctyl ester, is added separately in the slurries of step 1, and is uniformly mixed by continuous mechanical shearing, obtain reactive group Chylema liquid.

Step 3: 2 parts of benzophenone are added in the response matrix slurries in step 2, and by mechanical shearing stir into One step is uniformly mixed, and obtains root resistance material.

Above-mentioned number is parts by weight.

Comparative example:

Compared to embodiment 1, it is added without methyl vinyl ketone in material system, remaining step is consistent.Comparative example root resistance material The construction method of material are as follows: blade coating is in roof structure layer surface, spontaneous curing.

The root resistance material that embodiment 1-6 is obtained is scratched respectively in roof structure layer surface, it is small by ultraviolet light 2-3 When, it is detected after solidification, each embodiment indicator-specific statistics is as follows:

Table 1

Claims

1. a kind of preparation method of low-temperature construction pitch planted roof root resistance material, which is characterized in that include the following steps, it is following Number is parts by weight:

Step 1: 20~30 parts of cosolvent being added into 100 parts of matrix asphalt, stirring and dissolving at a temperature of 40~50 DEG C obtains To thick flowable matrix asphalt slurries；

Step 2: by 10~20 parts of methyl methacrylate or derivatives thereof, 1~2 part of promotor and 1~2 part of root resistance agent, respectively It is added in slurries obtained in step 1, hybrid reaction under shear agitation under room temperature obtains response matrix slurries；

Step 3: 1~2 part of photoinitiator being added in the response matrix slurries in step 2, is mixed under shear agitation at room temperature Reaction, obtains root resistance material.

2. the preparation method of low-temperature construction pitch planted roof root resistance material as described in claim 1, which is characterized in that step In 1, the cosolvent is the mixture of diesel oil or diesel oil and epoxidized soybean oil.

3. the preparation method of low-temperature construction pitch planted roof root resistance material as claimed in claim 1 or 2, which is characterized in that In step 2, methyl methacrylate derivative is propyl methacrylate or butyl methacrylate.

4. the preparation method of low-temperature construction pitch planted roof root resistance material as claimed in claim 1 or 2, which is characterized in that In step 2, the promotor is butadiene or derivatives thereof；The root resistance agent is dichlorophenoxy octyl propionate or dichloromethyl Phenoxy propionic acid monooctyl ester.

5. the preparation method of low-temperature construction pitch planted roof root resistance material as claimed in claim 1 or 2, which is characterized in that In step 2, butadiene derivatives 1,3- dimethyl butadiene or 1,3- diethyl butadiene.

6. the preparation method of low-temperature construction pitch planted roof root resistance material as described in claim 1, which is characterized in that step In 3, photoinitiator is methyl vinyl ketone, styrax or benzophenone.

7. a kind of low-temperature construction pitch planted roof root resistance material, which is characterized in that by any one of claim 1-6 preparation method It is made and forms.

8. the application method of low-temperature construction pitch planted roof root resistance material described in a kind of claim 7, which is characterized in that will weigh Benefit require 7 described in low-temperature construction pitch planted roof root resistance material blade coating in roof structure layer surface, then ultraviolet light Solidification.