CN106084335A

CN106084335A - A kind of rubber improving tire anti-slippery

Info

Publication number: CN106084335A
Application number: CN201610480254.7A
Authority: CN
Inventors: 尤晓明; 张国栋; 冯小波; 曹佃波; 张明
Original assignee: Yongtai Shandong Group Co Ltd
Current assignee: Yongtai Shandong Group Co Ltd
Priority date: 2016-06-24
Filing date: 2016-06-24
Publication date: 2016-11-09

Abstract

The invention belongs to rubber materials, be specifically related to a kind of rubber improving tire anti-slippery.A kind of rubber improving tire anti-slippery of the present invention, the material including following: polybutadiene rubber, brominated isobutylene p-methylstyrene rubber, butyl rubber CR1211, neoprene, aluminium hydroxide, microwax, high styrene resin, magnesium oxide, sepiolite powder, sulfur, hard (china) clay, silane coupled white carbon, Lauxite, zinc oxide, P amino phenyl sulfonyl acyl azide, N phenyl N ' isopropyl p-phenylenediamine, stearic acid, phenol formaldehyde resin, butyl oleate.The beneficial effects of the present invention is, use the sizing material that the formula of the present invention obtains, its gripping power is strong, and wet-sliding resistant performance is preferable.

Description

A kind of rubber improving tire anti-slippery

Technical field

The invention belongs to rubber materials, be specifically related to a kind of rubber improving tire anti-slippery.

Background technology

In recent years, automotive safety, comfortable, energy-conservation requirement are improved by people year by year, and the requirement of corresponding tire has excellent Different wet-sliding resistant performance, anti-wear performance and low-rolling-resistance characteristic, these three performances are known as " devil's triangle ".New Europe Continent regulation label was enforced in 2012, to the effect that for three big key propertys of tire tread: resistance to rolling, moisture-resisting The hard bamboo index that sliding and noise replaces tire as car tyre proposes restriction.Wet-sliding resistant performance as compulsive requirement performance it One, it is seen that it is one of most important performance of tire tread glue, and therefore the research to its mechanism is extremely necessary.For anti- The mechanism of wet and slippery performance, the concern that recent two decades comes gets more and more, but is filled with the most again challenge, because not having up to now Obtain systematic research.Up to the present, also it is confined to characterize wet-sliding resistant performance with the tan δ of 0 DEG C, actually when with Linesless charcoal After the black green tire as main stuffing is industry-specific, Dynamic Viscoelastic performance can not be used as weighing wet-sliding resistant performance Only index, this to instruct high-performance tire tyre surface formula design be disadvantageous.

Accordingly, it would be desirable to start with from the wet-sliding resistant performance of tire, design a kind of glue that can be effectively improved tire wet-sliding resistant performance Material.

Summary of the invention

In order to solve above-mentioned technical problem, the invention provides a kind of significant rubber improving tire anti-slippery.

The rubber improving tire anti-slippery of the present invention, including the material of following parts by weight:

A kind of rubber improving tire anti-slippery, including the material of following parts by weight:

Preferably, the above-mentioned rubber improving tire anti-slippery, including the material of following parts by weight:

It is furthermore preferred that the above-mentioned rubber improving tire anti-slippery, including the material of following parts by weight:

Above-mentioned rubber also includes 1-4 weight portion polychloroprene latex 572.

The parts by weight of above-mentioned polychloroprene latex 572 are 3 parts.

Above-mentioned rubber also includes thiuram 0.5-3 part.

As a modification of the present invention, above-mentioned rubber includes the component of following portions by weight:

Above-mentioned rubber includes acrylonitrile compolymer-hydrolysis high water-absorption fiber 0.01-0.2 part.

Present invention employs Lauxite and phenol-formaldehyde resin replaces light process oil, can significantly improve tire Anti-slippery；

The present invention additionally uses sepiolite powder, can reduce the cost of tread mix, but also improve anti-slippery.

Using the sizing material that the formula of the present invention obtains, its gripping power strengthens, and wet-sliding resistant performance is good.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is further described, in order to those skilled in the art knows more about The present invention, but and it is not so limited the present invention.

Embodiment 1

The rubber improving tire anti-slippery is made up of the component of following parts by weight:

Embodiment 2

Embodiment 3

Embodiment 4

As different from Example 1, Lauxite is not added；Remaining is identical；

Embodiment 5

As different from Example 1, P-amino phenyl sulfonyl acyl azide and polychloroprene latex 572 are not added；Remaining is identical；

After the rubber of embodiment 1-5 all uses identical technique to make rubber, its wet-sliding resistant performance is as follows:

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5
						Shao Er A type hardness tester/degree	82	78	79	76	75
300% stress at definite elongation/MPa	18.5	17.8	17.9	17.5	17.3
						Hot strength/MPa	22.4	22.1	22.2	21.5	21.8
Elongation rate of tensile failure %	348	352	350	359	361
						Break permanent deformation/%	27	25	25	24	23
Tearing strength/(kN m<sup>-1</sup>)	76	74	75	71	70

After 100 DEG C × 24h is aging

Claims

1. improve a rubber for tire anti-slippery, including the material of following parts by weight:

Polybutadiene rubber 20-40 brominated isobutylene-p-methylstyrene rubber 5-15

Butyl rubber CR1211 2-10 neoprene 3-8

Aluminium hydroxide 2-6 microwax 0.5-4

High styrene resin 4-10 magnesium oxide 2-7

Sepiolite powder 15-40 sulfur 0.1-0.5

Hard (china) clay 20-40 silane coupled white carbon 5-15

Lauxite 10-20 zinc oxide 3-7

P-amino phenyl sulfonyl acyl azide 1-3

N-phenyl-N '-isopropyl p-phenylenediamine 1-3

Stearic acid 1-4

Phenol-formaldehyde resin 1-3

Butyl oleate 1-4.

A kind of rubber improving tire anti-slippery the most as claimed in claim 1, including the material of following parts by weight:

Polybutadiene rubber 25-35 brominated isobutylene-p-methylstyrene rubber 5-12

Butyl rubber CR1211 2-9 neoprene 3-7

Aluminium hydroxide 2-6 microwax 0.5-4

High styrene resin 4-10 magnesium oxide 2-7

Sepiolite powder 15-35 sulfur 0.1-0.5

Hard (china) clay 20-40 silane coupled white carbon 5-12

Lauxite 10-20 zinc oxide 3-7

P-amino phenyl sulfonyl acyl azide 1-3

N-phenyl-N '-isopropyl p-phenylenediamine 1-3

Stearic acid 1-4

Phenol-formaldehyde resin 1-3

Butyl oleate 1-4.

Polybutadiene rubber 30 brominated isobutylene-p-methylstyrene rubber 8

Butyl rubber CR1211 6 neoprene 5

Aluminium hydroxide 4 microwax 2.5

High styrene resin 8 magnesium oxide 5

Sepiolite powder 30 sulfur 0.3

The silane coupled white carbon of hard (china) clay 25 8

Lauxite 15 zinc oxide 5

P-amino phenyl sulfonyl acyl azide 2

N-phenyl-N '-isopropyl p-phenylenediamine 2

Stearic acid 2

Phenol-formaldehyde resin 2

Butyl oleate 3.

A kind of rubber improving tire anti-slippery the most as claimed in claim 1, it is characterised in that described rubber also includes 1-4 weight portion polychloroprene latex 572.

A kind of rubber improving tire anti-slippery the most as claimed in claim 4, it is characterised in that described polychloroprene latex The parts by weight of 572 are 3 parts.

A kind of rubber improving tire anti-slippery the most as claimed in claim 4, it is characterised in that described rubber also includes Thiuram 0.5-3 part.

A kind of rubber improving tire anti-slippery the most as claimed in claim 4, it is characterised in that under described rubber includes State the component of parts by weight: