CN105175976A - Composite toughening modifier, and preparation method and applications thereof - Google Patents

Abstract

The invention discloses a modified waste polyethylene pipeline special-purpose material, and a preparation method thereof. The modified waste polyethylene pipeline special-purpose material is composed of, by weight, 100 parts of waste recycled polyethylene, 3 to 30 parts of a composite toughening modifier, 3 to 5 parts of an inorganic filling material, 0.02 to 0.2 part of a cross-linking agent, 0.05 to 0.1 part of an anti-oxidant, 1 to 7 parts of a black master batch, and 0.1 to 0.5 part of an antifoaming agent; the composite toughening modifier is composed of waste tyre rubber powder, SBS, and LLDPE resin at a scientific and reasonable ratio. According to the preparation method, the optimized composite toughening modifier is used for improving crosslinking degrees of relative ingredients in the composite material system, increasing the tensile strength of the composite material system, controlling the gel content and fluidity of the modified material system, and optimizing the mechanical properties of the composite material system. Operation of the preparation method is simple; adaptability is high; the preparation method is convenient for industrialized production, is capable of reducing production cost, and reducing pollution of solid waste on the environment, and possesses significant economic benefits and social benefits.

Description

Composite toughening modifier and its preparation method and application

Technical field

The present invention relates to technical field of polymer materials, more specifically, relate to a kind of composite toughening modifier and its preparation method and application.

Background technology

Along with the widespread use of new and high technology in Plastics Processing Industry, plastics industry obtains significant progress.But the increase of plastics consumption, causes the generation of waste or used plastics to surge.Due to waste or used plastics occurring in nature decompose or degradation speed slow, therefore, waste or used plastics causes huge environmental pollution (i.e. " white pollution ").In addition, along with China's rapid development of economy, car enters huge numbers of families, has become the requisite in people's daily life.But; along with the prolongation of automobile duration of service; pile up like a mountain for junked tire; now become the important sources of " black pollution "; in order to protect and environmental protect; improve the level of resources utilization; promote recycling economy development; realize Sustainable development, the important content of China in 1 day January in 2009 in " People's Republic of China's recycling economy promotion law " of execution and " the national medium & long term sci-tech development program outline (2006-2020) " of promulgation in 2010 has been brought in the recycling of waste or used plastics into.Along with growing with each passing day of waste or used plastics rubbish, its harm has caused the great attention of countries in the world, and increases the dynamics dropped into its research.At present more effective 4 kinds of technology have been basically formed to the process of waste or used plastics, have namely burned recovered energy, bury, chemical heat decompose and recycling.What facts have proved, be suitable for the most, should advocate energetically is recycle regeneration techniques.

In plastics industry, polyethylene (PE) output is maximum, purposes is the widest, consumption is maximum.According to incompletely statistics, the amount of waste and old PE accounts for 48% of whole waste or used plastics amount.Due to reasons such as molecular structures, waste and old PE plastics can not realize natural decomposition or degraded, can cause permanent pollution to environment, are also the significant wastage to resource simultaneously.Therefore, how to solve its pollution to environment, now become society problem demanding prompt solution.Waste and old recycled plastic is generally because be dropped after working life, mainly because aging (also known as chemical aging) causes the performance depreciation of material, usually make macromolecular material hardening, become fragile, cause the significantly decline of the mechanical properties such as the shock strength of material, tensile strength, elongation, thus affect the normal use of macromolecule material product.At present, the field of an important application of waste and old recovery PE is tubing, as the double-wall corrugated pipe of draining, blowdown, and power pipe, communication pipe etc.Usually these pipelines are embedded in underground, not high to tubing appearance requirement, only requires that tubing has certain ring stiffness and the performance such as wear-resisting, corrosion-resistant, and to stretch and the requirement of flexural strength lower.Therefore, utilize waste and old recycled plastic to carry out production aforementioned tubes, not only solve to a certain extent or alleviate " white pollution " problem, there is good environmental benefit and social benefit, and can also turn waste into wealth, there is good economic benefit.

Authorization Notice No. is CN101899178B patent of invention, disclose a kind of modifying waste plastic water supply line PP Pipe Compound and preparation method, with POE (POE) for toughner, dicumyl peroxide is linking agent, gel content and the mobility of modifying material is controlled by micro-crosslinking technological, meanwhile, add nucleator, play the effect controlling grain-size and distribution.The method is simple to operate, and toughening effect is better, but cost is higher, is unfavorable for its popularization commercially.Authorization Notice No. is respectively CN101549535B patent of invention, discloses the method utilizing waste HDPE plastic to prepare large-caliber double-wall bellow.The matrix resin that the method is modified master with elastomerics POE, with the PE resin of sheet, fibrous whisker and spherical pearl filler for composite modifier, prepare modified master, and this modified master is used for, to the modification of waste HDPE plastic, prepare corrugated tube.The method operation is fairly simple, but to meet the performance requriements of use in the more ability of the addition of waste HDPE plastic due to modified master, causes cost performance higher, is difficult to commercially be used widely.In addition, application publication number is CN103709485A patent of invention, disclose a kind of polyethylene anticorrosion pipeline modification regeneration PP Pipe Compound and preparation method thereof, toughner changes the one adopted in ethylene-propylene rubber(EPR) (EPR), ethylene-propylene diene copolymer (EPDM), polyolefin elastomer (POE) into, but cost performance is higher, therefore, certain limitation is also had.

The research and development of low price, colory new type of toughening agent play an important role in the manufacture of modification regeneration PP Pipe Compound.Current correlative study comparison of results is rare, has no and adopts thermoplastic styrene butadiene rubber (SBS) as one of raw material preparation new type of toughening agent and be applied to the technology report preparing waste polyethylene toughening modifying regeneration PP Pipe Compound.

Summary of the invention

The technical problem to be solved in the present invention is the technical deficiency for the existing regeneration of the waste polyethylene toughening modifying for pipeline PP Pipe Compound, a kind of waste polyethylene toughening modifying for pipeline is provided to regenerate PP Pipe Compound, fully not only obtain a kind of colory new exclusive material, and reduce production cost, decrease the pollution of solid waste to environment.

Another technical problem that the present invention will solve is to provide the preparation method of the described waste polyethylene toughening modifying for pipeline regeneration PP Pipe Compound.

Object of the present invention is achieved by the following technical programs:

A kind of composite toughening modified waste HDPE special material for pipeline is provided, is obtained by the component of following weight part:

Waste and old recycle polyethylene 100 parts;

Composite toughening modifier 3 ~ 30 parts;

Mineral filler 3 ~ 5 parts;

Linking agent 0.02 ~ 0.2 part;

0.05 ~ 0.1 part, oxidation inhibitor;

Masterbatch 1 ~ 7 part;

Defoamer 0.1 ~ 0.5 part;

Described waste and old recycle polyethylene (HDPE) adopts pellet, is the HDPE regrinding-material by reclaiming and goods thereof, forms through cleaning, fragmentation, oven dry, granulation, can buy obtain at conventional market.

Preferably, anhydrite powder is selected in described mineral filler, and the present invention gives full play to the feature that anhydrite powder has fibrous texture structure in submicroscopic(al) structure, can play and well strengthen or strengthening action in composite system of the present invention; Meanwhile, the effect of heterogeneous nucleation agent can also being played well, by controlling size and the degree of crystallinity of waste HDPE crystal grain, reaching the object of the mechanical property optimizing material system; In addition, rationally adding of it, not only reduce the cost of material system, also can solve the technical bottleneck that the product dimensional stability that causes because of contraction problem is not good.Further preferably, the granular size of described anhydrite powder is 800 ~ 2000 orders.

Preferably, the one in dicumyl peroxide (DCP), benzoyl peroxide (BPO) selected by described linking agent, utilize it to decompose and produce free radical at POE, LLDPE resin and waste HDPE surface energy, realize between three, forming micro-being cross-linked, and then reach the object of reinforcement, further improve the consistency of each component thus.In addition, gel content and the mobility of modifying material can be controlled, and then play the object improving course of processing mobility.

Preferably, described oxidation inhibitor selects Hinered phenols antioxidant to be four [β-(3,5-di-tert-butyl-hydroxy phenyl) propionic acid] pentaerythritol ester, and commodity are called antioxidant 1010.In the present invention, oxidation inhibitor is mainly used in slowing down the catabiosis of matrix material in the course of processing, improves the stability of material.

Described Masterbatch and defoamer are with reference to the art routine, and preferably, the present invention selects the Masterbatch pellet of black; Silicone antifoam agent selected by described defoamer.

The present invention adopts a kind of composite toughening modifier of optimization.Described composite toughening modifier is prepared by each component of following parts by weight:

Waste-tyre rubber-powder 10 ~ 50 parts;

Thermoplastic styrene butadiene rubber (SBS) 10 ~ 50 parts;

Polyvinyl resin 20 ~ 50 parts;

Solubilizing agent 0.3 ~ 2 part.

Described waste-tyre rubber-powder, can be obtained through pulverizing by automobile-used junked tire, also can through the commercial acquisition of routine.The particle diameter of preferred described waste-tyre rubber-powder is 100 ~ 200 orders.For the preparation of parts by weight shared by its consumption during composite toughening modifier of the present invention more preferably 25 ~ 40 parts.

Wherein, shared by the consumption of described thermoplastic styrene butadiene rubber (SBS), parts by weight are 30 ~ 45 parts.

Its styrene content is 20 ~ 40% scopes.

Preferably, described polyvinyl resin selects ldpe resin (LLDPE), is one of principal item of PE.The present invention adopts the polyvinyl resin (LLDPE) of rational proportion, plays its structure and the feature with higher melt flow index (MI), produce collaborative toughening effect in compatibility.Further preferably, during for the preparation of composite toughening modifier of the present invention, shared by the consumption of described polyvinyl resin (LLDPE), parts by weight are preferably 25 ~ 40 parts.

The present invention is by using rubber powder of waste tire, SBS and LLDPE resin, with scientific and reasonable ratio composition composite toughening modifier, the coordination plasticizing effect utilizing using rubber powder of waste tire and POE to be formed on the one hand, produce excellent toughening effect, also reduce the cost of this material system simultaneously, there is good cost performance; On the other hand, adding of LLDPE resin, significantly can improve the consistency of composite toughening modifier and waste HDPE matrix, also because it has higher MI, the processing flowability of HDPE modification regeneration material can be improved.Further, the present invention, by accurately determining the usage ratio of solubilizing agent, makes aforesaid combination of the present invention obtain better technique effect, for the preparation of parts by weight shared by its consumption during composite toughening modifier of the present invention more preferably 0.3 ~ 1 part.The solubilizing agent of concrete use is the conventional solubilizing agent used of the art.More preferably, solubilizing agent of the present invention adopts the mixture of one or more in K10H naphthenic oil, Ethylene Propylene Terpolymer paraffin oil or the special white oil of elastomerics.

The present invention also provides the preparation method of described composite toughening modified waste polyethylene pipe PP Pipe Compound, is combined blended micro-crosslinking technological, comprises the following steps:

S1. by waste HDPE pellet drying and processing, bake out temperature 100 ~ 110 DEG C, time of drying 1 ~ 2h;

Waste HDPE modified to mineral filler and solubilizing agent, through solubilizing agent modification, then mixes by the waste HDPE after S2. above-mentioned S1 step being dried; Successively composite toughening modifier, linking agent, Masterbatch, defoamer and oxidation inhibitor are added again, fully mix rear discharging;

Waste HDPE after specifically above-mentioned S1 step can being dried adds in mixing machine, opens mixing machine, solubilizing agent is sprayed onto waste HDPE surface, mixes, then add in mixing machine by anhydrite powder, mix; Successively composite toughening modifier, linking agent, Masterbatch, defoamer and oxidation inhibitor are joined in mixing machine again, be uniformly mixed, fully mix rear discharging;

S3. the material melts in above-mentioned S2 step is extruded, granulation, after oven dry, prepare the recovery waste polyethylene toughening modifying regeneration PP Pipe Compound for pipeline.

Wherein, linking agent described in S2 step adopts acetone solution dilution, adopts the method for spraying to add the homogeneity ensureing blending dispersion.

Solubilizing agent usage quantity described in S2 step is 5 ‰ of waste HDPE weight fraction.It mixes 3 ~ 5min after being sprayed onto waste HDPE surface with the method for spraying, guarantees that it is even at waste HDPE Dispersion on surface.Mix 2 ~ 5min after anhydrite powder being added to mixing machine, make it fully mix with waste HDPE; The time be uniformly mixed after successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor being joined mixing machine is again 5 ~ 15min, fully mixes rear discharging.

Melt extrude described in S3 step is the material in above-mentioned S2 step is joined twin screw extruder melt extrude; The described barrel temperature melt extruded controls at 170 ~ 210 DEG C, and screw speed is 80 ~ 250r/min.

The present invention provides described composite toughening modifier preferably preparation method simultaneously, said method comprising the steps of:

S21. by waste-tyre rubber-powder through solubilizing agent modification;

Specifically waste-tyre rubber-powder is loaded mixing machine, open mixing machine, solubilizing agent is sprayed in mixing machine, after mixing, mixture is poured out, after placement, for subsequent use.

S22. for subsequent use after SBS and polyvinyl resin being carried out drying and processing respectively;

S23. by the polyvinyl resin after S22 step drying and processing through solubilizing agent modification; Then mixed with modified polyvinyl resin by the thermoplastic elastomer of S21 step after the waste-tyre rubber-powder, S22 step drying and processing of modification successively, all materials fully mix rear discharging, for subsequent use;

Specifically the polyvinyl resin after S22 step drying and processing is joined in mixing machine, start mixing machine, solubilizing agent (solubilizing agent usage quantity is 5 ‰ of LLDPE weight fraction) is sprayed onto polyvinyl resin surface with the method for spraying, and solubilizing agent and polyvinyl resin mix; Then add in mixing machine by the SBS after the mixture of S21 step, S22 step drying and processing successively, all materials fully mix rear discharging, for subsequent use;

S24. joined in twin screw extruder by the material of above-mentioned S23 step gained and melt extrude, granulation, namely obtains composite toughening modifier after oven dry.

Preferably, placement 3 ~ 5 days are placed as described in S21 step.

Preferably, employing dryer is dried described in S22.The drying and processing of described SBS is drying temperature 40 ~ 60 DEG C, time of drying 1 ~ 2h; The drying and processing of described polyvinyl resin is drying temperature 90 ~ 100 DEG C, time of drying 1 ~ 2h.

Preferably, the time of solubilizing agent described in S23 step and polyvinyl resin mixing is 3 ~ 5min.

Preferably, described in S23 step, all materials well-mixed time is about 5min.

Preferably, melt extrude employing twin screw extruder described in S24 step, the barrel temperature melt extruded controls at 130 ~ 170 DEG C, and screw speed is 40 ~ 200r/min.

Preferably, according to total consumption of ratio-dependent solubilizing agent of the present invention, wherein leave and take wherein a part of solubilizing agent and be sprayed onto polyvinyl resin surface in S23 step with the method for spraying, surplus is used in S21 step and mixes mutually with waste-tyre rubber-powder.Further preferably, with the method for spraying, to be sprayed onto the solubilizing agent on polyvinyl resin surface be polyvinyl resin weight fraction to S23 step 3 ~ 8 ‰, further preferably, is 5 ‰.

The waste-tyre rubber-powder that the present invention adopts, from tire for vehicles, be the product that rubber part is cross-linked, and the rubber after being cross-linked is difficult to dissolve usually, therefore, by swelling method, can make its recuperation section elasticity.Simultaneously swelling rubber powder, under the effect of twin screw extruder Strong shear, sulfide cross-linked bond is also partly interrupted, and then the elasticity of rubber powder is further recovered, and also can improve vulcanized rubber powder activity to a certain extent simultaneously.Especially, under processing condition provided by the invention, vulcanized rubber powder activity obtains and significantly improves, thus serves the effect of the consistency improving itself and body material.

The invention has the beneficial effects as follows:

(1) the present invention adopts waste-tyre rubber-powder to be main raw material, provide a kind of composite toughening modifier, the using rubber powder of waste tire wherein adopted, obtained through pulverizing by automobile-used junked tire, market can routine buy, because waste-tyre rubber-powder is cheap, reduce the production cost of material system, it is also one of important black pollution source simultaneously, the present invention utilizes it to prepare a kind of new toughner, the cost of material system can not only be reduced, turn waste into wealth, transform mode of economic growth, be conducive to developing a circular economy, and can also play and economize on resources, the object of preserving the ecological environment.

Because these rubber powders are from tire for vehicles, it is the product that rubber part is cross-linked, and the rubber after being cross-linked is difficult to dissolve usually, therefore, the invention provides the method for the described composite toughening improving agent of a kind of preferred preparation, particular by rationally swelling, make its recuperation section elasticity, rubber powder after swelling, under the effect of twin screw extruder Strong shear power, sulfide cross-linked bond is also partly interrupted, therefore, the elasticity of rubber powder obtains further to be recovered or release, also make its surfactivity be improved to some extent simultaneously, thus serve the effect of the interface binding power improving itself and body material.

On this basis, the present invention utilizes junked tire powder and, SBS and LLDPE resin to form main raw material and combine, utilize the coordination plasticizing effect between these main components, reach the toughness significantly improving waste HDPE, wherein, LLDPE is except the effect playing composite toughening, because it has higher melt flow index, therefore, in the various application of composite toughening improving agent of the present invention, the effect of the processing characteristics of integral material system can also be improved.In addition, because it is identical with waste HDPE matrix material structure, therefore, make composite toughening modifier and waste HDPE have good consistency, ensure that composite toughening improving agent of the present invention obtains beyond thought effect.

(2) invention further provides a typically used of composite toughening improving agent, by composite toughening improving agent and other material Reasonable use, obtain composite toughening modified waste polyethylene pipe PP Pipe Compound.The micro-crosslinking technological of free radical is adopted in the present invention, on the one hand by the raising of the degree of crosslinking of each related component in composite system, can make up to a certain extent because of composite toughing agent interpolation cause the reduction of composite system tensile strength, gel content and the mobility of material modified system can also be controlled on the other hand, together with filler (anhydrite powder), by controlling the size of waste HDPE crystal grain, distribution and degree of crystallinity, reach the object optimizing composite system mechanical property.

(3) invention also provides the preparation method of described composite toughening improving agent and described PP Pipe Compound, do not change existing production unit, simple, suitability is strong, is easy to industrialization promotion and production.

Accompanying drawing explanation

Fig. 1 composite toughing agent preparation technology schema.

Fig. 2 prepares the implementing process schema of multiple elements design toughening modifying waste HDPE PP Pipe Compound.

Embodiment

Below in conjunction with the drawings and specific embodiments, the invention will be further described, but embodiments of the present invention are only for exemplary illustration, can not be interpreted as limitation of the present invention.Unless stated otherwise, the reagent raw material used in following embodiment be commercial or commercial sources obtain reagent or raw material, unless stated otherwise, the method and apparatus used in following embodiment be this area routine use method and apparatus.For convenience of description, the average molecular weight range of the thermoplastic styrene butadiene rubber (SBS) that the embodiment of the present invention adopts is 7 ~ 120,000, and styrene content is in 20 ~ 40% scopes, conventional commercial.

embodiment 1 composite toughening improving agent

The present invention prepares composite toughening modifier with each component of following parts by weight through mixing and melt extruding:

Waste-tyre rubber-powder 15 parts;

Thermoplastic styrene butadiene rubber (SBS) 45 parts;

Polyvinyl resin 40 parts;

Solubilizing agent 1 part.

Described waste-tyre rubber-powder is obtained through pulverizing by automobile-used junked tire, can through the commercial acquisition of routine.The particle diameter of described waste-tyre rubber-powder is 100 ~ 200 orders.Described thermoplastic elastomer selects SBS, and described polyvinyl resin selects Low Density Polyethylene (LLDPE) resin, and described solubilizing agent adopts K10H naphthenic oil (also can adopt Ethylene Propylene Terpolymer paraffin oil or the special white oil of elastomerics).

Described composite toughening improving agent preparation method is as follows:

S21. waste-tyre rubber-powder is loaded mixing machine, open mixing machine, solubilizing agent is sprayed in mixing machine, after mixing, mixture is poured out, place after 3 ~ 5 days, for subsequent use.

S22. for subsequent use after thermoplastic styrene butadiene rubber (SBS) and polyvinyl resin being carried out drying and processing respectively; Described oven dry adopts dryer.The drying and processing of described thermoplastic elastomer is drying temperature 40 ~ 60 DEG C, time of drying 1 ~ 2h; The drying and processing of described polyvinyl resin is drying temperature 90 ~ 100 DEG C, time of drying 1 ~ 2h;

S23. the polyvinyl resin after S22 step drying and processing is joined in mixing machine, start mixing machine, solubilizing agent (solubilizing agent usage quantity is 3 ‰ of LLDPE weight fraction) is sprayed onto polyvinyl resin surface with the method for spraying, and solubilizing agent and polyvinyl resin mixing 3 ~ 5min make to mix; Then add in mixing machine by the thermoplastic styrene butadiene rubber (SBS) after the mixture of S21 step, S22 step drying and processing successively, all materials fully mix about 5min to be made to mix rear discharging, for subsequent use;

S24. joined in twin screw extruder by the material of above-mentioned S23 step gained and melt extrude, granulation, namely obtains composite toughening modifier after oven dry.The processing parameter of twin screw extruder is: main frame frequency is 90r/min, feeding frequency is 50r/min, forcing machine each section of temperature is respectively 1 district's temperature 165 DEG C, 2 district's temperature 165 DEG C, 3 district's temperature 170 DEG C, 4 district's temperature 175 DEG C, 5 district's temperature 175 DEG C, 6 district's temperature 172 DEG C, 7 district's temperature 170 DEG C, and head temperature is 180 DEG C.

The tensile strength of the composite toughening modifier that the present embodiment prepares is 13.7MPa, and elongation at break is 423.8%, and melt flow rate (MFR) is 1.86g/10min.

embodiment 2

The present invention prepares composite toughening modifier with each component of following parts by weight through mixing and melt extruding:

Waste-tyre rubber-powder 20 parts;

Thermoplastic styrene butadiene rubber (SBS) 40 parts;

Polyvinyl resin 40 parts;

Solubilizing agent 1 part.

Described waste-tyre rubber-powder is obtained through pulverizing by automobile-used junked tire, can through the commercial acquisition of routine.The particle diameter of described waste-tyre rubber-powder is 100 ~ 200 orders.Described thermoplastic elastomer selects SBS, and described polyvinyl resin selects Low Density Polyethylene (LLDPE) resin, and described solubilizing agent adopts Ethylene Propylene Terpolymer paraffin oil (also can adopt K10H naphthenic oil or the special white oil of elastomerics).

Described composite toughening improving agent preparation method is as follows:

S21. waste-tyre rubber-powder is loaded mixing machine, open mixing machine, solubilizing agent is sprayed in mixing machine, after mixing, mixture is poured out, place after 3 ~ 5 days, for subsequent use.

S22. for subsequent use after thermoplastic styrene butadiene rubber (SBS) and polyvinyl resin being carried out drying and processing respectively; Described oven dry adopts dryer.The drying and processing of described thermoplastic elastomer is drying temperature 40 ~ 60 DEG C, time of drying 1 ~ 2h; The drying and processing of described polyvinyl resin is drying temperature 90 ~ 100 DEG C, time of drying 1 ~ 2h;

S23. the polyvinyl resin after S22 step drying and processing is joined in mixing machine, start mixing machine, solubilizing agent (solubilizing agent usage quantity is 3 ‰ of LLDPE weight fraction) is sprayed onto polyvinyl resin surface with the method for spraying, and solubilizing agent and polyvinyl resin mixing 3 ~ 5min make to mix; Then add in mixing machine by the thermoplastic styrene butadiene rubber (SBS) after the mixture of S21 step, S22 step drying and processing successively, all materials fully mix about 5min to be made to mix rear discharging, for subsequent use;

S24. joined in twin screw extruder by the material of above-mentioned S23 step gained and melt extrude, granulation, namely obtains composite toughening modifier after oven dry.The processing parameter of twin screw extruder is: main frame frequency is 90r/min, feeding frequency is 50r/min, forcing machine each section of temperature is respectively 1 district's temperature 165 DEG C, 2 district's temperature 165 DEG C, 3 district's temperature 170 DEG C, 4 district's temperature 175 DEG C, 5 district's temperature 175 DEG C, 6 district's temperature 172 DEG C, 7 district's temperature 170 DEG C, and head temperature is 175 DEG C.

The tensile strength of the composite toughening modifier that the present embodiment prepares is 13.4MPa, and elongation at break is 417.8%, and melt flow rate (MFR) is 1.97g/10min.

embodiment 3

The present invention prepares composite toughening modifier with each component of following parts by weight through mixing and melt extruding:

Waste-tyre rubber-powder 30 parts;

Thermoplastic styrene butadiene rubber (SBS) body 30 parts;

Polyvinyl resin 40 parts;

Solubilizing agent 1.5 parts.

Described waste-tyre rubber-powder is obtained through pulverizing by automobile-used junked tire, can through the commercial acquisition of routine.The particle diameter of described waste-tyre rubber-powder is 100 ~ 200 orders.Described polyvinyl resin selects Low Density Polyethylene (LLDPE) resin, and described solubilizing agent adopts the special white oil of elastomerics (also can adopt K10H naphthenic oil or Ethylene Propylene Terpolymer paraffin oil).

Described composite toughening improving agent preparation method is as follows:

S21. waste-tyre rubber-powder is loaded mixing machine, open mixing machine, solubilizing agent is sprayed in mixing machine, after mixing, mixture is poured out, place after 3 ~ 5 days, for subsequent use.

S22. for subsequent use after thermoplastic styrene butadiene rubber (SBS) and polyvinyl resin being carried out drying and processing respectively; Described oven dry adopts dryer.The drying and processing of described thermoplastic elastomer is drying temperature 40 ~ 60 DEG C, time of drying 1 ~ 2h; The drying and processing of described polyvinyl resin is drying temperature 90 ~ 100 DEG C, time of drying 1 ~ 2h;

S23. the polyvinyl resin after S22 step drying and processing is joined in mixing machine, start mixing machine, solubilizing agent (solubilizing agent usage quantity is 3 ‰ of LLDPE weight fraction) is sprayed onto polyvinyl resin surface with the method for spraying, and solubilizing agent and polyvinyl resin mixing 3 ~ 5min make to mix; Then add in mixing machine by the thermoplastic styrene butadiene rubber (SBS) after the mixture of S21 step, S22 step drying and processing successively, all materials fully mix about 5min to be made to mix rear discharging, for subsequent use;

S24. joined in twin screw extruder by the material of above-mentioned S23 step gained and melt extrude, granulation, namely obtains composite toughening modifier after oven dry.The processing parameter of twin screw extruder is: main frame frequency is 95r/min, feeding frequency is 50r/min, forcing machine each section of temperature is respectively 1 district's temperature 165 DEG C, 2 district's temperature 165 DEG C, 3 district's temperature 170 DEG C, 4 district's temperature 175 DEG C, 5 district's temperature 175 DEG C, 6 district's temperature 172 DEG C, 7 district's temperature 170 DEG C, and head temperature is 175 DEG C.

The tensile strength of the composite toughening modifier that the present embodiment prepares is 14.3MPa, and elongation at break is 400.6%, and melt flow rate (MFR) is 1.74g/10min.

embodiment 4

The present invention prepares composite toughening modifier with each component of following parts by weight:

Waste-tyre rubber-powder 40 parts;

Thermoplastic styrene butadiene rubber (SBS) 30 parts;

Polyvinyl resin 30 parts;

Solubilizing agent 0.8 part.

Described waste-tyre rubber-powder is obtained through pulverizing by automobile-used junked tire, can through the commercial acquisition of routine.The particle diameter of described waste-tyre rubber-powder is 100 ~ 200 orders.Described polyvinyl resin selects Low Density Polyethylene (LLDPE) resin, and described solubilizing agent adopts Ethylene Propylene Terpolymer paraffin oil (also can adopt K10H naphthenic oil or the special white oil of elastomerics).

Described composite toughening improving agent preparation method is as follows:

S21. waste-tyre rubber-powder is loaded mixing machine, open mixing machine, solubilizing agent is sprayed in mixing machine, after mixing, mixture is poured out, place after 3 ~ 5 days, for subsequent use.

S22. for subsequent use after thermoplastic styrene butadiene rubber (SBS) and polyvinyl resin being carried out drying and processing respectively; Described oven dry adopts dryer.The drying and processing of described thermoplastic elastomer is drying temperature 40 ~ 60 DEG C, time of drying 1 ~ 2h; The drying and processing of described polyvinyl resin is drying temperature 90 ~ 100 DEG C, time of drying 1 ~ 2h;

S23. the polyvinyl resin after S22 step drying and processing is joined in mixing machine, start mixing machine, solubilizing agent (solubilizing agent usage quantity is 3 ‰ of LLDPE weight fraction) is sprayed onto polyvinyl resin surface with the method for spraying, and solubilizing agent and polyvinyl resin mixing 3 ~ 5min make to mix; Then add in mixing machine by the thermoplastic styrene butadiene rubber (SBS) after the mixture of S21 step, S22 step drying and processing successively, all materials fully mix about 5min to be made to mix rear discharging, for subsequent use;

S24. joined in twin screw extruder by the material of above-mentioned S23 step gained and melt extrude, granulation, namely obtains composite toughening modifier after oven dry.The processing parameter of twin screw extruder is: main frame frequency is 85r/min, feeding frequency is 40r/min, forcing machine each section of temperature is respectively 1 district's temperature 162 DEG C, 2 district's temperature 168 DEG C, 3 district's temperature 168 DEG C, 4 district's temperature 173 DEG C, 5 district's temperature 173 DEG C, 6 district's temperature 168 DEG C, 7 district's temperature 165 DEG C, and head temperature is 170 DEG C.

The tensile strength of the composite toughening modifier that the present embodiment prepares is 12.7MPa, and elongation at break is 381.5%, and melt flow rate (MFR) is 1.63/10min.

embodiment 5

The present invention prepares composite toughening modifier with each component of following parts by weight:

Waste-tyre rubber-powder 45 parts;

Thermoplastic styrene butadiene rubber (SBS) 25 parts;

Polyvinyl resin 30 parts;

Solubilizing agent 1 part.

Described waste-tyre rubber-powder is obtained through pulverizing by automobile-used junked tire, can through the commercial acquisition of routine.The particle diameter of described waste-tyre rubber-powder is 100 ~ 200 orders.Described polyvinyl resin selects Low Density Polyethylene (LLDPE) resin, and described solubilizing agent adopts K10H naphthenic oil (also can adopt Ethylene Propylene Terpolymer paraffin oil or the special white oil of elastomerics).

The present invention is by using rubber powder of waste tire, SBS and LLDPE resin, with scientific and reasonable ratio composition composite toughening modifier, the coordination plasticizing effect utilizing using rubber powder of waste tire and SBS to be formed on the one hand, produce excellent toughening effect, also reduce the cost of this material system simultaneously, there is good cost performance; On the other hand, adding of LLDPE resin, significantly can improve the consistency of composite toughening modifier and waste HDPE matrix, also because it has higher MI, the processing flowability of HDPE modification regeneration material can be improved.

As shown in Figure 1 (embodiment 2 to 4 is with the same the present embodiment of process flow diagram), concrete grammar is as follows for described composite toughening improving agent preparation method process flow diagram:

S21. waste-tyre rubber-powder is loaded mixing machine, open mixing machine, solubilizing agent is sprayed in mixing machine, after mixing, mixture is poured out, place after 3 ~ 5 days, for subsequent use.

S22. for subsequent use after thermoplastic styrene butadiene rubber (SBS) and polyvinyl resin being carried out drying and processing respectively; Described oven dry adopts dryer.The drying and processing of described thermoplastic styrene butadiene rubber (SBS) is drying temperature 40 ~ 60 DEG C, time of drying 1 ~ 2h; The drying and processing of described polyvinyl resin is drying temperature 90 ~ 100 DEG C, time of drying 1 ~ 2h;

S23. the polyvinyl resin after S22 step drying and processing is joined in mixing machine, start mixing machine, solubilizing agent (solubilizing agent usage quantity is 5 ‰ of LLDPE weight fraction) is sprayed onto polyvinyl resin surface with the method for spraying, and solubilizing agent and polyvinyl resin mixing 3 ~ 5min make to mix; Then add in mixing machine by the thermoplastic styrene butadiene rubber (SBS) after the mixture of S21 step, S22 step drying and processing successively, all materials fully mix about 5min to be made to mix rear discharging, for subsequent use;

S24. joined in twin screw extruder by the material of above-mentioned S23 step gained and melt extrude, granulation, namely obtains composite toughening modifier after oven dry.The processing parameter of twin screw extruder is: main frame frequency is 80r/min, and feeding frequency is 40r/min, and the temperature of each warm area of forcing machine is followed successively by 160 DEG C, 165 DEG C, 165 DEG C, 170 DEG C, 170 DEG C, 165 DEG C, 160 DEG C, and head temperature is 170 DEG C.

The tensile strength of the composite toughening modifier that the present embodiment prepares is 10.8MPa, and elongation at break is 315.7%, and melt flow rate (MFR) is 1.41g/10min.

embodiment 6

The present embodiment with any embodiment gained composite toughening improving agent in the embodiment of the present invention 1 to 5 for one of raw material, with other raw material reasonable compatibilities, prepare a kind of composite toughening modified waste HDPE special material for pipeline, described special material for pipeline by following weight part component through mixing and melt extrude obtained:

Waste and old recycle polyethylene 100 parts;

Composite toughening modifier 5 parts;

Inorganic powder filler 3 parts;

Linking agent 0.02 part;

0.05 part, oxidation inhibitor;

Masterbatch 2 parts;

Defoamer 0.3 part.

Described waste and old recycle polyethylene (HDPE) adopts pellet, is the HDPE regrinding-material by reclaiming and goods thereof, forms through cleaning, fragmentation, oven dry, granulation, can through the commercial acquisition of routine.Following embodiment is same.

Anhydrite powder is selected in mineral filler described in the present embodiment, under reasonable compatibility condition of the present invention, give full play to feature anhydrite powder submicroscopic(al) structure with fibrous texture structure, can play in composite system of the present invention and strengthen preferably or strengthening action; Meanwhile, the effect of heterogeneous nucleation agent can also being played well, by controlling size and the degree of crystallinity of waste HDPE crystal grain, reaching the object of the mechanical property optimizing material system; In addition, adding of it, not only reduce the cost of material system, also can solve the technical bottleneck that the product dimensional stability that causes because of contraction problem is not good.The granular size of described anhydrite powder is preferably 800 ~ 2000 orders.

Dicumyl peroxide (DCP) selected by described linking agent, the present invention utilizes it to decompose and produces free radical at SBS, LLDPE resin and waste HDPE surface energy, realize between three, forming micro-being cross-linked, and then reach the object of reinforcement, further improve the consistency of each component thus.In addition, gel content and the mobility of modifying material can be controlled.

Described oxidation inhibitor selects Hinered phenols antioxidant to be four [β-(3,5-di-tert-butyl-hydroxy phenyl) propionic acid] pentaerythritol ester, and commodity are called antioxidant 1010.In the present invention, oxidation inhibitor is mainly used in slowing down the catabiosis of matrix material in the course of processing, improves the stability of material.

Selecting with reference to this area of described Masterbatch and defoamer is conventional.Preferably, the present embodiment Masterbatch selects the Masterbatch pellet of black; The preferred silicone antifoam agent of described defoamer.

The preparation method of described composite toughening modified waste polyethylene pipe PP Pipe Compound is as follows:

S1. waste HDPE pellet is put into dryer to dry, bake out temperature 100 ~ 110 DEG C, time of drying 1 ~ 2h.

S2. the waste HDPE after above-mentioned S1 step being dried adds in mixing machine, opens mixing machine, solubilizing agent is sprayed onto waste HDPE surface, and mixing, then adds in mixing machine by anhydrite powder, mix; Successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor are joined in mixing machine again, be uniformly mixed, fully mix rear discharging;

S3. the material melts in above-mentioned S2 step is extruded, granulation, after oven dry, prepare the recovery waste polyethylene toughening modifying regeneration PP Pipe Compound for pipeline.Wherein, the processing parameter of twin screw extruder is: main frame frequency is 80r/min, and feeding frequency is 40r/min, and the temperature of each warm area of forcing machine is followed successively by 170 DEG C, 170 DEG C, 180 DEG C, 185 DEG C, 185 DEG C, 190 DEG C, 190 DEG C, and head temperature is 200 DEG C.

Linking agent described in S2 step adopts acetone solution dilution, adopts the method for spraying to add the homogeneity ensureing blending dispersion.

Solubilizing agent usage quantity described in S2 step is 3 ‰ of waste HDPE weight fraction.It mixes 3 ~ 5min after being sprayed onto waste HDPE surface with the method for spraying, guarantees that it is even at waste HDPE Dispersion on surface.Mix 2 ~ 5min after anhydrite powder being added to mixing machine, make it fully mix with waste HDPE; The time be uniformly mixed after successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor being joined mixing machine is again 5 ~ 15min, fully mixes rear discharging.

embodiment 7

The present embodiment with any embodiment gained composite toughening improving agent in the embodiment of the present invention 1 to 5 for one of raw material, with other raw material reasonable compatibilities, prepare a kind of composite toughening modified waste HDPE special material for pipeline, described special material for pipeline by following weight part component through mixing and melt extrude obtained:

Waste and old recycle polyethylene 100 parts;

Composite toughening modifier 10 parts;

Inorganic powder filler 4 parts;

Linking agent 0.02 part;

0.05 part, oxidation inhibitor;

Black agglomerate 2 parts;

Defoamer 0.3 part.

Described waste and old recycle polyethylene (HDPE) adopts pellet, is the HDPE regrinding-material by reclaiming and goods thereof, forms through cleaning, fragmentation, oven dry, granulation, can through the commercial acquisition of routine.Anhydrite powder is selected in mineral filler described in the present embodiment, and the granular size of described anhydrite powder is preferably 800 ~ 2000 orders.Benzoyl peroxide (BPO) selected by described linking agent, utilizes it to decompose and produces free radical at SBS, LLDPE resin and waste HDPE surface energy, realizes forming micro-being cross-linked between three, and then reaches the object of reinforcement, further improve the consistency of each component thus.In addition, gel content and the mobility of modifying material can be controlled.Selecting with reference to this area of described Masterbatch and defoamer is conventional.Preferably, the present embodiment Masterbatch selects the Masterbatch pellet of black; The preferred silicone antifoam agent of described defoamer.

As shown in Figure 2, concrete grammar is as follows for preparation technology's schematic flow sheet of described composite toughening modified waste polyethylene pipe PP Pipe Compound:

S1. waste HDPE pellet is put into dryer to dry, bake out temperature 100 ~ 110 DEG C, time of drying 1 ~ 2h.

S2. the waste HDPE after above-mentioned S1 step being dried adds in mixing machine, opens mixing machine, solubilizing agent is sprayed onto waste HDPE surface, and mixing, then adds in mixing machine by anhydrite powder, mix; Successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor are joined in mixing machine again, be uniformly mixed, fully mix rear discharging;

S3. the material melts in above-mentioned S2 step is extruded, granulation, after oven dry, prepare the recovery waste polyethylene toughening modifying regeneration PP Pipe Compound for pipeline.Wherein, the processing parameter of twin screw extruder is: main frame frequency is 80r/min, feeding frequency is 40r/min, forcing machine each section of temperature is respectively 1 district's temperature 180 DEG C, 2 district's temperature 185 DEG C, 3 district's temperature 188 DEG C, 4 district's temperature 188 DEG C, 5 district's temperature 195 DEG C, 6 district's temperature 195 DEG C, 7 district's temperature 190 DEG C, and head temperature is 200 DEG C.

Linking agent described in S2 step adopts acetone solution dilution, adopts the method for spraying to add the homogeneity ensureing blending dispersion.

Solubilizing agent usage quantity described in S2 step is 3 ‰ of waste HDPE weight fraction.It mixes 3 ~ 5min after being sprayed onto waste HDPE surface with the method for spraying, guarantees that it is even at waste HDPE Dispersion on surface.Mix 2 ~ 5min after anhydrite powder being added to mixing machine, make it fully mix with waste HDPE; The time be uniformly mixed after successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor being joined mixing machine is again 5 ~ 15min, fully mixes rear discharging.

embodiment 8

The present embodiment with any embodiment gained composite toughening improving agent in the embodiment of the present invention 1 to 5 for one of raw material, with other raw material reasonable compatibilities, prepare a kind of composite toughening modified waste HDPE special material for pipeline, described special material for pipeline by following weight part component through mixing and melt extrude obtained:

Waste and old recycle polyethylene 100 parts;

Composite toughening modifier 20 parts;

Inorganic powder filler 4 parts;

Linking agent 0.03 part;

0.05 part, oxidation inhibitor;

Black agglomerate 2 parts;

Defoamer 0.3 part.

Described waste and old recycle polyethylene (HDPE) adopts pellet, is the HDPE regrinding-material by reclaiming and goods thereof, forms through cleaning, fragmentation, oven dry, granulation, can through the commercial acquisition of routine.Anhydrite powder is selected in mineral filler described in the present embodiment, and the granular size of described anhydrite powder is preferably 800 ~ 2000 orders.。The mixture of dicumyl peroxide (DCP) and benzoyl peroxide (BPO) selected by described linking agent, and blending ratio does not do considered critical.Utilize linking agent to decompose and produce free radical at SBS, LLDPE resin and waste HDPE surface energy, realize between three, forming micro-being cross-linked, and then reach the object of reinforcement, further improve the consistency of each component thus.In addition, gel content and the mobility of modifying material can be controlled.Selecting with reference to this area of described Masterbatch and defoamer is conventional.Preferably, the present embodiment Masterbatch selects the Masterbatch pellet of black; The preferred silicone antifoam agent of described defoamer.

The preparation method of described composite toughening modified waste polyethylene pipe PP Pipe Compound is as follows:

S1. waste HDPE pellet is put into dryer to dry, bake out temperature 100 ~ 110 DEG C, time of drying 1 ~ 2h.

S2. the waste HDPE after above-mentioned S1 step being dried adds in mixing machine, opens mixing machine, solubilizing agent is sprayed onto waste HDPE surface, and mixing, then adds in mixing machine by anhydrite powder, mix; Successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor are joined in mixing machine again, be uniformly mixed, fully mix rear discharging;

S3. the material melts in above-mentioned S2 step is extruded, granulation, after oven dry, prepare the recovery waste polyethylene toughening modifying regeneration PP Pipe Compound for pipeline.Wherein, the processing parameter of twin screw extruder is: main frame frequency is 95r/min, feeding frequency is 55r/min, forcing machine each section of temperature is respectively 1 district's temperature 185 DEG C, 2 district's temperature 188 DEG C, 3 district's temperature 190 DEG C, 4 district's temperature 195 DEG C, 5 district's temperature 195 DEG C, 6 district's temperature 190 DEG C, 7 district's temperature 190 DEG C, and head temperature is 200 DEG C.

Linking agent described in S2 step adopts acetone solution dilution, adopts the method for spraying to add the homogeneity ensureing blending dispersion.

Solubilizing agent usage quantity described in S2 step is 3 ‰ of waste HDPE weight fraction.It mixes 3 ~ 5min after being sprayed onto waste HDPE surface with the method for spraying, guarantees that it is even at waste HDPE Dispersion on surface.Mix 2 ~ 5min after anhydrite powder being added to mixing machine, make it fully mix with waste HDPE; The time be uniformly mixed after successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor being joined mixing machine is again 5 ~ 15min, fully mixes rear discharging.

embodiment 9

The present embodiment with any embodiment gained composite toughening improving agent in the embodiment of the present invention 1 to 5 for one of raw material, with other raw material reasonable compatibilities (selecting with reference to embodiment 8 of other raw materials), prepare a kind of composite toughening modified waste HDPE special material for pipeline, described special material for pipeline by following weight part component through mixing and melt extrude obtained:

Waste and old recycle polyethylene 100 parts;

Composite toughening modifier 30 parts;

Inorganic powder filler 5 parts;

Linking agent 0.04 part;

0.05 part, oxidation inhibitor;

Black agglomerate 2 parts;

Defoamer 0.3 part;

The preparation method of described composite toughening modified waste polyethylene pipe PP Pipe Compound is as follows:

S1. waste HDPE pellet is put into dryer to dry, bake out temperature 100 ~ 110 DEG C, time of drying 1 ~ 2h.

S2. the waste HDPE after above-mentioned S1 step being dried adds in mixing machine, opens mixing machine, solubilizing agent is sprayed onto waste HDPE surface, and mixing, then adds in mixing machine by anhydrite powder, mix; Successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor are joined in mixing machine again, be uniformly mixed, fully mix rear discharging;

S3. the material melts in above-mentioned S2 step is extruded, granulation, after oven dry, prepare the recovery waste polyethylene toughening modifying regeneration PP Pipe Compound for pipeline.Wherein, the processing parameter of twin screw extruder is: main frame frequency is 100r/min, feeding frequency is 50r/min, forcing machine each section of temperature is respectively 1 district's temperature 188 DEG C, 2 district's temperature 188 DEG C, 3 district's temperature 195 DEG C, 4 district's temperature 195 DEG C, 5 district's temperature 200 DEG C, 6 district's temperature 195 DEG C, 7 district's temperature 190 DEG C, and head temperature is 200 DEG C.

Linking agent described in S2 step adopts acetone solution dilution, adopts the method for spraying to add the homogeneity ensureing blending dispersion.

Solubilizing agent usage quantity described in S2 step is 3 ‰ of waste HDPE weight fraction.It mixes 3 ~ 5min after being sprayed onto waste HDPE surface with the method for spraying, guarantees that it is even at waste HDPE Dispersion on surface.Mix 2 ~ 5min after anhydrite powder being added to mixing machine, make it fully mix with waste HDPE; The time be uniformly mixed after successively composite toughening modifier, linking agent, Masterbatch (black agglomerate), defoamer and oxidation inhibitor being joined mixing machine is again 5 ~ 15min, fully mixes rear discharging.

Table 1 and table 2 each provide the present invention for the waste polyethylene plasticized modifier of pipeline and regeneration specially

The performance test results of materials.

The performance test results of table 1 composite toughening modifier

Performance	Testing method	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5
							Tensile strength (MPa)	GB/T1040.5-2008	13.7	13.4	14.3	12.7	10.8
Elongation at break (%)	GB/T1040.5-2008	423.8	417.8	400.6	381.5	315.7
							Melting index (g/10min)	GB/T3682-2000	1.86	1.97	1.74	1.63	1.41

Table 2 is for the performance test results of the waste polyethylene toughening modifying regeneration PP Pipe Compound of pipeline

Performance	Testing method	Waste HDPE	Embodiment 6	Embodiment 7	Embodiment 8	Embodiment 9
							Shock strength (breach) (KJ/m 2）	GB/T 1043-2000	38.5	58.3	64.6	69.4	73.8
Elongation at break (%)	GB/T1040.5-2008	89.4	157.8	178.7	190.1	195.5
							Tensile strength (MPa)	GB/T1040.5-2008	28.6	28.0	27.8	27.1	27.5
Flexural strength (MPa)	GB/T9341-2008	23.5	23.2	22.7	22.3	21.6

From table 1, the present invention adopts waste-tyre rubber-powder to be main raw material, obtain a kind of composite toughening modifier, reduce the cost of material system, the more important thing is, be applied to prepare composite toughening modified waste polyethylene pipe PP Pipe Compound, reach the object optimizing composite system mechanical property.

Claims (10)

1. a composite toughening modified waste HDPE special material for pipeline, is characterized in that, is to be obtained by the component of following weight part:

Waste and old recycle polyethylene 100 parts;

Composite toughening modifier 3 ~ 30 parts;

Mineral filler 3 ~ 5 parts;

Linking agent 0.02 ~ 0.2 part;

0.05 ~ 0.1 part, oxidation inhibitor;

Masterbatch 1 ~ 7 part;

Defoamer 0.1 ~ 0.5 part;

Wherein, described composite toughening modifier, is prepared by each component of following parts by weight:

Waste-tyre rubber-powder 10 ~ 50 parts;

Thermoplastic styrene butadiene rubber 10 ~ 50 parts;

Polyvinyl resin 20 ~ 50 parts;

Solubilizing agent 0.3 ~ 2 part.

2. composite toughening modified waste HDPE special material for pipeline according to claim 1, it is characterized in that, described mineral filler is anhydrite powder; Described linking agent is dicumyl peroxide or benzoyl peroxide; Described oxidation inhibitor selects Hinered phenols antioxidant to be four [β-(3,5-di-tert-butyl-hydroxy phenyl) propionic acid] pentaerythritol ester; Described Masterbatch is the Masterbatch pellet of black; Described defoamer is silicone antifoam agent.

3. composite toughening modified waste HDPE special material for pipeline according to claim 1, it is characterized in that, the granular size of described anhydrite powder is 800 ~ 2000 orders.

4. composite toughening modified waste HDPE special material for pipeline according to claim 1, it is characterized in that, the particle diameter of described waste-tyre rubber-powder is 100 ~ 200 orders.

5. composite toughening modified waste HDPE special material for pipeline according to claim 1, it is characterized in that, described polyvinyl resin is ldpe resin.

6. composite toughening modified waste HDPE special material for pipeline according to claim 1, it is characterized in that, described solubilizing agent is the mixture of one or more in K10H naphthenic oil, Ethylene Propylene Terpolymer paraffin oil or the special white oil of elastomerics.

7. the preparation method of composite toughening modified waste HDPE special material for pipeline described in any one of claim 1 to 6, is characterized in that, comprise the following steps:

S1. by waste HDPE pellet drying and processing, bake out temperature 100 ~ 110 DEG C, time of drying 1 ~ 2h;

Waste HDPE modified to mineral filler and solubilizing agent, through solubilizing agent modification, then mixes by the waste HDPE after S2. above-mentioned S1 step being dried; Successively composite toughening modifier, linking agent, Masterbatch, defoamer and oxidation inhibitor are added again, fully mix rear discharging;

S3. the material melts in above-mentioned S2 step is extruded, granulation, after oven dry, prepare the recovery waste polyethylene toughening modifying regeneration PP Pipe Compound for pipeline.

8. the preparation method of composite toughening modified waste HDPE special material for pipeline according to claim 7, is characterized in that, linking agent described in S2 step adopts acetone solution dilution, adopts the method for spraying to add; Solubilizing agent usage quantity described in S2 step is 3 ~ 5 ‰ of waste HDPE weight fraction, and it mixes 3 ~ 5min after being sprayed onto waste HDPE surface with the method for spraying; Describedly mineral filler is added to mixing 2 ~ 5min after mixing machine.

9. the preparation method of composite toughening modified waste HDPE special material for pipeline according to claim 7, it is characterized in that, described in S2 step, the preparation method of composite toughening modifier comprises the following steps:

S21. by waste-tyre rubber-powder through solubilizing agent modification;

S22. for subsequent use after thermoplastic styrene butadiene rubber and polyvinyl resin being carried out drying and processing respectively;

S23. by the polyvinyl resin after S22 step drying and processing through solubilizing agent modification; Then mixed with modified polyvinyl resin by the thermoplastic styrene butadiene rubber of S21 step after the waste-tyre rubber-powder, S22 step drying and processing of modification successively, all materials fully mix rear discharging, for subsequent use;

S24. extruded by the material melts of above-mentioned S23 step gained, granulation, namely obtains composite toughening modifier after oven dry.

10. the preparation method of composite toughening modified waste HDPE special material for pipeline according to claim 7, it is characterized in that, the barrel temperature melt extruded described in S3 step controls at 170 ~ 210 DEG C, and screw speed is 80 ~ 250r/min.