CN109181039A - A kind of tire in-situ modified rubber composition and tire and preparation method thereof - Google Patents

Abstract

The invention belongs to tire manufacturing techniques field more particularly to a kind of tire in-situ modified rubber composition and tires and preparation method thereof.The present invention provides a kind of in-situ modified rubber compositions of tire, comprising: modified solution polymerized butadiene styrene rubber polymer, second part of carbon black, silane coupling agent, silica, activator, anti-aging agent, promotor, sulphur and auxiliary agent；Wherein, modified solution polymerized butadiene styrene rubber polymer is that solution polymerized butadiene styrene rubber, rubber modifier and first part of carbon black are kneaded to obtain.Tire provided by the invention has the advantages that rolling resistance is low with tire prepared by in-situ modified rubber composition.

Description

A kind of tire in-situ modified rubber composition and tire and preparation method thereof

Technical field

The invention belongs to tire manufacturing techniques field more particularly to a kind of tire in-situ modified rubber composition and tires And preparation method thereof.

Background technique

The development of auto industry has benefited from the substantial advance of various components self-technique.Important set of the tire as automobile At part, state of development directly affects the progress of auto industry.

With popularizing for green tire theory, the cry of design environment friendly tire is higher and higher, Labeling Act of European Union rule Release, push each tire enterprise to promote tire safety, rolling resistance reduced, to reduce the fuel consumption of automobile, at present The most effective mode of tire drag is reduced no more than using white carbon black in formula, however as the more next of white carbon black dosage It is bigger, disperse just to become more and more difficult in the tread, it is exactly that rubber dynamic lag is higher that white carbon black, which disperses bad bring, from And be applied in tire and will cause that rolling resistance is higher, do not meet the design concept of green tire.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of rubber composition for tire that rolling resistance is low.

The present invention provides a kind of in-situ modified rubber compositions of tire, comprising: modified solution polymerized butadiene styrene rubber polymer, Second part of carbon black, silane coupling agent, silica, activator, anti-aging agent, promotor, sulphur and auxiliary agent；Wherein, modification contains intermingle with Styrene butadiene rubber polymeric is that solution polymerized butadiene styrene rubber, rubber modifier and a part of carbon black are kneaded to obtain.

Wherein, solution polymerized butadiene styrene rubber is oil-filled glue or dry glue.

Preferably, the specific surface area of the silica are as follows: 100~200m²/g。

Preferably, the carbon black is hard carbon black.

It should be noted that part carbon black, which when modified, is added, in solution polymerized butadiene styrene rubber for the first time primarily serves increase system Intensity is added for the second time to guarantee modified more abundant and guarantee that modified sizing material can normally collect the effect of preservation Part carbon black plays the role of filler reinforcement when being kneaded.

Preferably, in parts by weight, including following raw material is kneaded:

Wherein, carbon black is the sum of the weight of first part of carbon black and second part of carbon black.

Preferably, in the modification of solution polymerized butadiene styrene rubber, the additive amount of rubber modifier is bigger, and rolling resistance is better, but band The difficulty of processing come is bigger, and the optimized scope of rubber modifier is 0.2~1 parts by weight.

Wherein, the range of the weight ratio of solution polymerized butadiene styrene rubber, rubber modifier and first part of carbon black is 137.5:(0~3): (10~30).

Preferably, the activator includes stearic acid and zinc oxide；

The stearic parts by weight are 1~3, and the parts by weight of the zinc oxide are 2~5.

Preferably, the anti-aging agent is p-phenylenediamine anti-aging agent or/and quinoline anti-aging agent；

The parts by weight of the p-phenylenediamine anti-aging agent are 0~3；The parts by weight of the quinoline anti-aging agent are 0~3.

Preferably, the promotor includes sulfenamide type accelerators or/and thuriam acceserator；

The parts by weight of the sulfenamide type accelerators are 0~2；The parts by weight of the thuriam acceserator are 0~2.

Preferably, the auxiliary agent includes paraffin or/and oil；

The parts by weight of the oil are 0~40；The parts by weight of the paraffin are 0~3.

Preferably, the tire further includes natural rubber with in-situ modified rubber composition；The weight of the natural rubber Measuring part is 0~30.

Preferably, the tire further includes butadiene rubber with in-situ modified rubber composition；The weight of the butadiene rubber Measuring part is 0~30.

The present invention also provides the in-situ modified rubber compositions of tire to prepare the application in tire.

The present invention also provides a kind of tire, has the tire being made of the tire with in-situ modified rubber composition Face.

The invention also discloses a kind of preparation methods of tire, comprising the following steps:

Step 1: solution polymerized butadiene styrene rubber, rubber modifier and first part of carbon black being kneaded to obtain modified solution polymerized butadiene styrene rubber and gathered Close object；

Step 2: by the modified solution polymerized butadiene styrene rubber polymer, second part of carbon black, silane coupling agent, silica, work First segment masterbatch is discharged after carrying out first segment masterbatching in agent, anti-aging agent and auxiliary agent；

Step 3: second segment masterbatch is discharged after the first segment masterbatch is carried out second segment masterbatching；

Step 4: the second segment masterbatch, promotor and sulphur being carried out finished composition is discharged after third section is refined eventually, by institute It states finished composition to extrude into tyre surface, then obtains tire through overmolding and vulcanization.

Preparation is blended using in-situ modified solution polymerized butadiene styrene rubber in tire tread glue of the invention, first with rubber modifier Solution polymerized butadiene styrene rubber is modified, by blended rubber modifying agent, carbon black and solution polymerized butadiene styrene rubber, at a certain temperature to molten Poly- butadiene-styrene rubber progress is in-situ modified to obtain modified solution polymerized butadiene styrene rubber pre-composition, enough melting temperatures and time and carbon black Presence ensure that modifying process sufficiently carries out, then will modified solution polymerized butadiene styrene rubber pre-composition and second part carbon black, silane Coupling agent, silica, activator, anti-aging agent, promotor, sulphur and auxiliary agent are kneaded obtain finished composition together, then with refining eventually Glue laminated goes out into tyre surface, then forms together with other component, is sulfided into tire, due to modified solution polymerized butadiene styrene rubber polymer and hard charcoal Black interaction increases, and improves dispersion of the white carbon black in solution polymerized butadiene styrene rubber, reduces tread mix near 50~70 DEG C Fissipation factor and compression heat generation, and promoted sizing material resilience performance, modified tread mix is applied to energy in tire The rolling resistance of tire is effectively reduced.

Specific embodiment

The present invention provides a kind of tire in-situ modified rubber compositions and tire and preparation method thereof, existing for solving The technological deficiency of the low tire of the rolling resistance for thering is rubber composition to cause it to obtain greatly due to white carbon black dosage.

The technical scheme in the embodiments of the invention will be clearly and completely described below, it is clear that described implementation Example is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

Wherein, the raw material of following embodiment is commercially available or self-control；

Natural rubber (NR): 20# standard rubber, ash content < 1.0%；Impurity < 0.16%；Volatile matter < 0.8%；It is of the present invention group Close the basic rubber of object；

Solution polymerized butadiene styrene rubber (SSBR): ash content < 0.2%；Volatile matter < 0.8%；For the basic rubber of the present composition, it is Dushanzi petroleum chemicals, the corresponding trade mark are SOL R C2557-A；

Butadiene rubber (BR): high cis-polybutadiene rubber, ash content < 0.2%；Volatile matter < 0.8%；For present composition base This rubber is bright Sheng chemical products, and the corresponding trade mark is CB24；

Rubber modifier: the product of great Zhong chemical company, title OCST, 225 DEG C of fusing point, aubergine solid powder, big tomb The modifying agent of chemical company, maximum feature are that modified solution polymerized butadiene styrene rubber can be made living with more main chains , there is stronger compatibility in property functional group with carbon black, provides better carbon black dispersion；

Carbon black: graininess；105 DEG C of heating loss < 1.5%；325 screen residue < 0.05%；As rubber reinforcing filler, and It acts synergistically with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Silica: 105 DEG C of heating loss < 8%；325 screen residue < 0.5%；As rubber reinforcing filler, and with this hair Bright other auxiliary agents synergistic effect is specific to act on herein without limitation；

Zinc oxide: powdered；Zinc oxide content > 99.5%；325 screen residue < 0.15%；Acetic acid insoluble matter < 0.008%；It acts synergistically as rubber vulcanization activator, and with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Stearic acid: graininess；Iodine number < 8gI2/100g；57.0 ± 5.0 DEG C of congealing point；200.0 ± 12.0mg of acid value KOH/ g；It acts synergistically as rubber vulcanization activator, and with other auxiliary agents of the invention, it is specific to act on herein without limitation；

P-phenylenediamine anti-aging agent: graininess；Crystalline temperature > 45 DEG C；Heating loss < 0.5%；Resistance to ag(e)ing is provided for sizing material Can, and act synergistically with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Quinoline anti-aging agent: graininess；90.0 ± 5.0 DEG C of softening point；Heating loss < 0.5%；Resistance to ag(e)ing is provided for sizing material Can, and act synergistically with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Paraffin: belong to a kind of auxiliary agent, graininess；63~67 DEG C of congealing point；Index of refraction (80 DEG C) 1.4300~1.4400；For Sizing material provides ageing-resistant performance, and acts synergistically with other auxiliary agents of the invention, specific to act on herein without limitation；

Sulphur: powdered；Total sulfur content > 98%；200 mesh sieve residue < 0.5%；80 DEG C, 3 hours heating loss < 0.5%； It acts synergistically as rubber vulcanization crosslinking agent, and with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Sulfenamide type accelerators: powdered；104 ± 3 DEG C of just fusing point；70 DEG C, 3 hours heating loss < 0.5% are used as Rubber vulcanization promotor, and act synergistically with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Thuriam acceserator: yellow powder；104 ± 3 DEG C of just fusing point；70 DEG C, 3 hours heating loss < 0.5% are used Make rubber vulcanization promotor, and acts synergistically with other auxiliary agents of the invention, it is specific to act on herein without limitation；

Oil: belonging to a kind of auxiliary agent, the main viscous pasty state for adjusting the in-situ modified rubber composition of tire, and with the present invention Other auxiliary agents synergistic effect is specific to act on herein without limitation.

Embodiment 1

Present embodiments provide the first tire, it is specific the preparation method comprises the following steps:

1, modified solution polymerized butadiene styrene rubber method for producing polymer:

By weight are as follows: oil-filled solution polymerized butadiene styrene rubber is 265.8 kilograms, carbon black 38.6kg, and rubber modifier is 0.54kg.Above-mentioned composition material is successively put into BB430 type mixer and is kneaded, rotor speed 10-60r/min, 135 DEG C of dump temperature, by open mill slice, the modified solution polymerized butadiene styrene rubber polymer of gained is denoted as MB1.

2, the preparation method of tire:

By weight are as follows: MB1 113.6kg, NR 28kg, carbon black 17.6kg, silica 60Kg are silane coupled Agent is 4.8Kg, and oil is 15kg, zinc oxide 3kg, stearic acid 2kg, and p-phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, paraffin 1.5kg, sulfenamide type accelerators 1.5kg, thuriam acceserator 0.5Kg, sulphur 1.5kg.It will Above-mentioned composition material is processed using 3 sections of calendering process, and 3 sections of mixings carry out in F270 type mixer, rotor speed For 10-60r/min；Open mill slice after 3 sections of mixings；Its charging sequence is in first segment masterbatching plus MB1 is 113.6kg, and NR is 28kg, carbon black 17.6kg, silica 60Kg, silane coupling agent be 4.8 kilograms, oil be 15kg, zinc oxide 3kg, firmly Resin acid is 2kg, and p-phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, paraffin 1.5kg, the dumping temperature of first segment masterbatching 150 DEG C of degree, obtains first segment masterbatch；The finishing scouring process that first segment masterbatch is carried out to second segment masterbatching obtains second segment mother Refining glue；Second segment masterbatch is carried out third section to refine eventually, it is 1.5kg that sulfenamide type accelerators, which is added, in second segment masterbatch, Thuriam acceserator is 0.5Kg, and sulphur 1.5kg, the dump temperature that third section is refined eventually is 110 DEG C.After parking 4 hours, row Finished composition carries out the extrusion of tire tire component again out, then carries out green tyres molding after parking 8 hours, is finally sulfided into finally to fetus Tire.

Embodiment 2

Present embodiments provide second of tire, it is specific the preparation method comprises the following steps:

1, modified solution polymerized butadiene styrene rubber method for producing polymer:

By weight are as follows: oil-filled solution polymerized butadiene styrene rubber is 265.3 kilograms, carbon black 38.6kg, and rubber modifier is 1.08kg.Above-mentioned composition material is successively put into BB430 type mixer and is kneaded, rotor speed 10-60r/min, 135 DEG C of dump temperature, by open mill slice, the modified solution polymerized butadiene styrene rubber polymer of gained is denoted as MB2.

2, the preparation method of tire:

By weight are as follows: MB2 114kg, NR 28kg, carbon black 17.6kg, silica 60Kg, silane coupling agent For 4.8Kg, oil is 15kg, zinc oxide 3kg, stearic acid 2kg, and p-phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, Paraffin is 1.5kg, sulfenamide type accelerators 1.5kg, thuriam acceserator 0.5Kg, sulphur 1.5kg.It will be above-mentioned Composition material is processed using 3 sections of calendering process, and 3 sections of mixings carry out in F270 type mixer, rotor speed 10- 60r/min；Open mill slice after 3 sections of mixings；Charging sequence: adding MB2 for 114kg in first segment masterbatching, NR 28kg, and carbon black is 17.6kg, silica 60Kg, silane coupling agent are 4.8 kilograms, and oil is 15kg, zinc oxide 3kg, stearic acid 2kg, right Phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, paraffin 1.5kg, and 150 DEG C of the dump temperature of first segment masterbatching obtains First segment masterbatch；The finishing scouring process that first segment masterbatch is carried out to second segment masterbatching, obtains second segment masterbatch；By second segment Masterbatch carries out third section and refines eventually, and it is 1.5kg, thuriam acceserator that sulfenamide type accelerators, which is added, in second segment masterbatch For 0.5Kg, sulphur 1.5kg, the dump temperature that third section is refined eventually is 110 DEG C.After parking 4 hours, discharge finished composition carries out again Tire tire component extrudes, then carries out green tyres molding after parking 8 hours, and final tire is finally sulfided into fetus.

Embodiment 3

Present embodiments provide the third tire, it is specific the preparation method comprises the following steps:

1, modified solution polymerized butadiene styrene rubber method for producing polymer:

By weight are as follows: oil-filled solution polymerized butadiene styrene rubber is 263.9 kilograms, carbon black 38.39kg, and rubber modifier is 2.69kg.Above-mentioned composition material is successively put into BB430 type mixer and is kneaded, rotor speed 10-60r/min, 135 DEG C of dump temperature, by open mill slice, the modified solution polymerized butadiene styrene rubber polymer of gained is denoted as MB3.

2, the preparation method of tire:

By weight are as follows: MB3 114.5kg, NR 28kg, carbon black 17.6kg, silica 60Kg are silane coupled Agent is 4.8Kg, and oil is 15kg, zinc oxide 3kg, stearic acid 2kg, and p-phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, paraffin 1.5kg, sulfenamide type accelerators 1.5kg, thuriam acceserator 0.5Kg, sulphur 1.5kg.It will Above-mentioned composition material is processed using 3 sections of calendering process, and 3 sections of mixings carry out in F270 type mixer, rotor speed For 10-60r/min；Open mill slice after 3 sections of mixings；Charging sequence: in first segment masterbatching plus MB3 is 114.5kg, and NR is 28kg, carbon black 17.6kg, silica 60Kg, silane coupling agent be 4.8 kilograms, oil be 15kg, zinc oxide 3kg, firmly Resin acid is 2kg, and p-phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, paraffin 1.5kg, the dumping temperature of first segment masterbatching 150 DEG C of degree, obtains first segment masterbatch；The finishing scouring process that first segment masterbatch is carried out to second segment masterbatching obtains second segment mother Refining glue；Second segment masterbatch is carried out third section to refine eventually, it is kg that sulfenamide type accelerators 1.5, which is added, in second segment masterbatch, Thuriam acceserator is 0.5Kg, and sulphur 1.5kg, the dump temperature that third section is refined eventually is 110 DEG C.After parking 4 hours, row Refining material carries out the extrusion of tire tire component again eventually out, then carries out green tyres molding after parking 8 hours, is finally sulfided into finally to fetus Tire.

Comparative example

Present embodiments provide a comparative example, with embodiment 1-3 be distinguished as not to oil-filled solution polymerized butadiene styrene rubber into Row modification, it is specific the preparation method comprises the following steps:

By weight are as follows: oil-filled solution polymerized butadiene styrene rubber is 99kg, NR 28kg, carbon black 32kg, and silica is 60Kg, silane coupling agent 4.8Kg, oil are 15kg, zinc oxide 3kg, stearic acid 2kg, and p-phenylenediamine anti-aging agent is 2kg, Quinoline anti-aging agent is 1kg, paraffin 1.5kg, sulfenamide type accelerators 1.5kg, thuriam acceserator 0.5Kg, sulphur Sulphur is 1.5kg.Above-mentioned composition material is processed using 3 sections of calendering process, 3 sections be kneaded in F270 type mixer into Row, rotor speed 10-60r/min；Open mill slice after 3 sections of mixings；Charging sequence: the solution polymerized butadiene styrene rubber to refuel in one section For 99kg, NR 28kg, carbon black 32kg, silica 60Kg, silane coupling agent is 4.8 kilograms, and oil is 15kg, oxidation Zinc is 3kg, and stearic acid 2kg, p-phenylenediamine anti-aging agent is 2kg, and quinoline anti-aging agent is 1kg, paraffin 1.5kg, dump temperature 150℃；Two sections are rubber compound finishing scouring process；Three sections of addition sulfenamide type accelerators are 1.5kg, and thuriam acceserator is 0.5Kg, sulphur 1.5kg, dump temperature are 110 DEG C.After parking 4 hours, sizing material carries out tire tire component and extrudes, then to park 8 small When after carry out green tyres molding, the tire of comparative example is finally sulfided into fetus.

Embodiment 4

The present embodiment carries out the detection of performance to embodiment 1-3 and comparative example, measures made from embodiment 1-3 and comparative example Hardness, elongation at break, tensile strength, rebound degree, tearing strength, Tan δ, compression heat generation and the coefficient of rolling resistance of tire, property Energy the results are shown in Table 1.

Table 1

Project	Comparative example	Embodiment 1	Embodiment 2	Embodiment 3
					Hardness (shore A)	100	98.5	97	97
Elongation at break %	100	102	93	91
					Tensile strength MPa	100	101	97	98
Spring back %	100	116	120	126
					Tearing strength KN/m	100	104	114	103
Tanδ@60℃	100	91	78	58
					Compression heat generation	100	93	86	82
2 meters of coefficients of rolling resistance	100	95	90	84

Note: this chooses normal low rolling resistance tire as bench-marking, calibration coefficients 100, selection test tire specification For 205/55R16 91V.

From data, the rubber that the embodiment of the present invention 1~3 is prepared, by hardness, pull apart, tensile strength, rebound, Tearing strength, tire rolling resistance are tested, sizing material prepared by the present composition, and hardness is pulled apart, tensile strength, rebound, torn by force Degree evidence is close with the sizing material of comparative example preparation, and the 60 DEG C of dynamic loss factors (Tan δ) and compression heat generation of sizing material obtain substantially Degree reduces, the tire drag of preparation of the embodiment of the present invention compared with comparative example compared to being also decreased obviously, from embodiment 1-3 it is found that The additive amount of rubber modifier is bigger, and the performance of 60 DEG C of dynamic loss factors (Tan δ), compression heat generation and rolling resistance is lower.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (10)

1. a kind of in-situ modified rubber composition of tire characterized by comprising modified solution polymerized butadiene styrene rubber polymer, the Two parts of carbon blacks, silane coupling agent, silica, activator, anti-aging agent, promotor, sulphur and auxiliary agent；Wherein, modification contains intermingle with fourth Benzene rubber polymer is that solution polymerized butadiene styrene rubber, rubber modifier and first part of carbon black are kneaded to obtain.

2. belt rubber composition according to claim 1, which is characterized in that in parts by weight, including following original Material is kneaded:

Wherein, carbon black is the sum of the weight of first part of carbon black and second part of carbon black.

3. the in-situ modified rubber composition of tire according to claim 1, which is characterized in that the activator includes hard Resin acid and zinc oxide；

The stearic parts by weight are 1~3, and the parts by weight of the zinc oxide are 2~5.

4. the in-situ modified rubber composition of tire according to claim 1, which is characterized in that the anti-aging agent is to benzene Diamines anti-aging agent or/and quinoline anti-aging agent；

The parts by weight of the p-phenylenediamine anti-aging agent are 0~3；The parts by weight of the quinoline anti-aging agent are 0~3.

5. the in-situ modified rubber composition of tire according to claim 1, which is characterized in that the promotor includes time Sulfonamides promotor or/and thuriam acceserator；

The parts by weight of the sulfenamide type accelerators are 0~2；The parts by weight of the thuriam acceserator are 0~2.

6. the in-situ modified rubber composition of tire according to claim 1, which is characterized in that the auxiliary agent includes paraffin Or/and oil；

The parts by weight of the oil are 0~40；The parts by weight of the paraffin are 0~3.

7. the in-situ modified rubber composition of tire described in -6 any one according to claim 1, which is characterized in that the wheel Tire further includes natural rubber with in-situ modified rubber composition；The parts by weight of the natural rubber are 0~30.

8. the in-situ modified rubber composition of tire described in -6 any one according to claim 1, which is characterized in that the wheel Tire further includes butadiene rubber with in-situ modified rubber composition；The parts by weight of the butadiene rubber are 0~30.

9. a kind of tire, which is characterized in that it has the tire as described in any one of claim 1-6 with in-situ modified rubber The tyre surface that glue composition is constituted.

10. a kind of preparation method of tire, which comprises the following steps:

Step 1: solution polymerized butadiene styrene rubber, rubber modifier and first part of carbon black being kneaded in advance and obtain modified solution polymerized butadiene styrene rubber premix Object；

Step 2: by the modified solution polymerized butadiene styrene rubber pre-composition, second part of carbon black, silane coupling agent, silica, activator, First segment masterbatch is discharged after carrying out first segment masterbatching in anti-aging agent and auxiliary agent；

Step 3: second segment masterbatch is discharged after the first segment masterbatch is carried out second segment masterbatching；

Step 4: the second segment masterbatch, promotor and sulphur being carried out finished composition is discharged after third section is refined eventually, by the end Refining glue is extruded into tyre surface, then obtains tire through overmolding and vulcanization.