Tire tread rubber composition with excellent rolling resistance

专利摘要:
The present invention relates to a tread rubber composition for tires, and more particularly, to a tread rubber composition for tires having reduced rolling resistance while maintaining without decreasing adjustment stability.
公开号:KR20030009749A
申请号:KR1020010044350
申请日:2001-07-24
公开日:2003-02-05
发明作者:이진행；박종철
申请人:금호산업 주식회사；
IPC主号:

专利说明:

Tread rubber composition for tires with excellent rolling resistance {TIRE TREAD RUBBER COMPOSITION WITH EXCELLENT ROLLING RESISTANCE}
[1] The present invention relates to a tread rubber composition for tires, and more particularly, to a tread rubber composition for tires having reduced rolling resistance while maintaining without decreasing adjustment stability.
[2] Recently, due to the improvement of the global environmental problems, energy saving is becoming a global concern, low fuel consumption of the vehicle is also strongly desired, and tires, which account for 15% of the fuel consumption of the vehicle, have been researched in various ways to reduce rolling resistance.
[3] The tire undergoes deformation as the rotary motion is repeated during use, and generates heat due to the hysteresis loss accompanying the deformation. In particular, tread heat is great, which accounts for 50% of tire heat (rotational resistance). The calorific value of the tread increases as the hysteresis loss when the unit stress of the rubber composition constituting the tread is applied, the larger the amount of deformation, or the larger the amount of rubber constituting the tread.
[4] In general, it is good to reduce the hysteresis loss to reduce the heat generation of the rubber composition, so that the amount of carbon black to be blended, the carbon black having a large particle size is mixed, the dispersibility of the carbon black is improved, the rubber is molded, or the liquid rubber Or a method of applying a silica and a silane coupling agent, and these methods are combined appropriately to develop a low heat generating compound.
[5] Since the tires are mounted on the car and the ground and the tire tread portions are grounded at high speed rotation, the inner surface of the tread rubber attached to the belt continues to rotate at a constant speed, but the surface side rotates slowly due to friction with the road surface. As a result, the tread rubber compresses and deforms in response to the action of the load on the body with tear deformation. This deformation exhibits a phase difference between the surface and the back side of the tread rubber, and the surface portion slips to drive and is further rotated to be released from ground to restore its original shape. In this case, the larger the deformation, the faster the wear. In addition, these deformations overlap and cause hysteresis loss.
[6] In general, since tread rubber compositions for passenger car tires have important adjustment stability, 100% of styrene butadiene rubber (SBR) or styrene butadiene rubber / butadiene rubber (SBR / BR) is mainly used as the base rubber. Since the rubber composition, which contains a small amount of carbon black or uses carbon black having a large particle size, is not sufficiently reinforced to reduce hysteresis loss, the tear strength is weak, the wear resistance is low, the physical properties are low, and the natural rubber In this relationship, it is very difficult to satisfy both characteristics at the same time in these relations, such as when the rotational resistance is reduced by using the rotational resistance.
[7] It is an object of the present invention to improve the above problems and to provide a rubber composition with reduced rolling resistance, while maintaining without reducing the adjustment stability of the tread rubber composition.
[8] The tread rubber composition of the present invention is a solution of styrene butadiene rubber A (S-SBR A) 22 to 32 phr, 25% styrene content, 73% vinyl content, styrene content 15%, vinyl content 57% It is characterized in that it comprises a base rubber and carbon black H / S HAF grade 20 to 30 phr, silica 30 to 40 phr made by mixing phosphorus S-SBR B 50 to 70 phr, natural rubber (NR) 15 to 20 phr.
[9] The solution-polymerized styrene-butadiene rubber A used in the present invention preferably uses 22 to 32 phr. When it is less than 22 phr, the handing performance is lowered, and when it exceeds 32 phr, the fuel efficiency is lowered.
[10] It is preferable to use 50-70 phr of the solution polymerization-styrene-butadiene rubber B used by this invention, but when it is less than 50 phr, fuel efficiency will fall, and when it exceeds 70 phr, handing performance will fall.
[11] In the present invention, it is preferable to use 15 to 20 phr of natural rubber. When the content of natural rubber is less than 15 phr, problems occur in fairness, and when the content exceeds 20 phr, fairness and physical properties are improved, but handing performance is reduced. do.
[12] In the rubber composition of the present invention, conventional additives added to the general tread rubber composition, for example, a general active agent, an anti-aging agent, and a sulfur and a vulcanization accelerator as a vulcanization system can be blended.
[13] The present invention will be described in detail through the following examples. However, these examples are for illustrative purposes only, and the present invention is not limited thereto.
[14] Example
[15] The rubber compositions of the present invention were prepared by properly mixing the components of Table 1 below.
[16] Formulation and sample preparation for this composition was performed according to ASTM D3184-80 using F / M formulation after blending carbon black masterbatch (CBMB) at 40 RPM using a 1.6 L airtight mixer (BR LAB Banbury mixer, Farrell). Formulated at RPM 30 for 90 seconds.
[17] After the blended rubber was vulcanized at 160 ° C. for 20 minutes, the tensile strength of the specimen was measured at room temperature at a rate of 500 mm / min using an tensile tester (INSTRON 6012) according to ASTM D-412. The heat generated by the heat is converted into a temperature increase, so the temperature was measured by the ASTM D623 method using the FLEXOMETER, and the dynamic viscoelasticity of the rubber compound was 3 ° C. / in the temperature range of -100 ° C. to 100 ° C. It measured by the temperature increase rate of min and the frequency of 11 Hz.
[18] The TAN @ 0 ° C measured here is used as a substitute for tire adjustment stability (ie, handling performance), and the TAN @ 70 ° C is used as a substitute for tire rolling resistance. The higher the TAN @ 0 ° C, the better the handling performance, and the lower the TAN @ 70 ° C, the better the rolling resistance.
[19] The measurement results of the physical properties are shown in Table 1 together.
[20]
[21] week)
[22] SBR-A: General SBR (Emulsion-SBR) with 23.5% styrene content
[23] SBR-B: SBR containing 23.5% of oil in general SBR with 23.5% of styrene
[24] BR: BR-01 (Kumho Petrochemical)
[25] NR: SMR-20 (Malaysia acid)
[26] S-SBR C: NIPPON-ZEON acid NS-116 (styrene: 20%, vinyl: 60%)
[27] S-SBR A: BAYER acid VSL-5525 (Styrene: 25%, Vinyl: 73%)
[28] S-SBR B: NIPPON-ZEON SL-5740 (Styrene: 15%, Vinyl: 57%)
[29] H / S HAF: Carbon Black, POSBLACK-NH (Steel Chemical Carbon)
[30] Silica: KOFRAN acid (BET surface area: 170㎡ / g, DBP: 220ml / 100g, CTAB: 160㎡ / g)
[31] Softener (aromatic oil): Unchanged petroleum products
[32] In Table 1, NR, BR, and S-SBR are changed and applied to SBR polymer base composition (traditional example) of the four season tread compound that we generally use to improve rolling resistance, and a part of carbon black is used as a filler. The results of testing the compositions (comparative examples and examples) added with the composition replaced with
[33] Comparative Example 1 is a composition consisting of S-SBR B 60phr, S-SBR C 20phr, NR 20phr, the rotational resistance (TAN @ 70 ℃) was 0.086 very good, but the handling performance TAN @ 0 ℃ value is existing The result was lower than the example, and a satisfactory result was not obtained, and Comparative Example 2 also improved the rotational resistance, but did not obtain satisfactory results in the handling performance.
[34] Comparative Example 3 shows the best handling performance, but it is too low compared to the existing composition at the Tg temperature, which is an indicator of snow performance, showed an unsatisfactory result for four season tires.
[35] On the other hand, the rubber composition of the embodiment of the S-SBR A, S-SBR B and NR mixed application showed an improved fuel economy performance without a drop in handling performance. It also showed no significant drop in snow performance.
[36] Meanwhile, even when S-SBR A, S-SBR B, and NR were applied, Comparative Example 4, which further applied BR and increased NR content, and Comparative Example 5, which increased NR content and reduced S-SBR A content, were used. Although the rubber composition improved the rolling resistance, the handling performance was lowered to obtain a satisfactory result.
[37] As can be seen from the above, the tread rubber composition according to the present invention can reduce the rolling resistance while maintaining without decreasing the adjustment stability.

权利要求:
Claims (1)
[1" claim-type="Currently amended] Solution polymerization of Styrene content 25%, Vinyl content 73%-Styrene Butadiene rubber A 22-32 phr, Styrene content 15%, Solution 57% Vinyl content-Styrene Butadiene rubber B 50-70 phr, Natural rubber 15-20 phr Tread rubber composition for a tire comprising a base rubber made of carbon black H / S HAF grade 20 to 30 phr, silica 30 to 40 phr.

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同族专利:

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公开号 | 公开日

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KR100439875B1|2004-07-12|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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法律状态:
2001-07-24|Application filed by 금호산업 주식회사

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2001-07-24|Priority to KR10-2001-0044350A

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2003-02-05|Publication of KR20030009749A

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2004-07-12|Application granted

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2004-07-12|Publication of KR100439875B1

优先权:

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申请号 | 申请日 | 专利标题

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KR10-2001-0044350A|KR100439875B1|2001-07-24|2001-07-24|Tire tread rubber composition with excellent rolling resistance|