Abrasion-resistant base compound for solid tyres of crane cars

A solid tire and base rubber technology, applied in the field of wear-resistant base rubber, can solve problems such as increased rolling resistance, over-vulcanization, and reduced vehicle speed.

Inactive Publication Date: 2014-03-26
SHANDONG YONGTAI CHEM GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Crane trucks are often overloaded during use, which leads to increased deformation and creep of the tires. With the increase of deformation and creep, the rolling resistance of the tires will also increase. As a result, the speed of the vehicle will increase. Reduced, energy consumption accelerated
Although the high-modulus rubber compound with better reinforcing performance can be obtained by selecting the appropriate carbon black variety and dosage, and the deformation of the tire can be reduced at the same time, but the increase in hysteresis loss will also affect the rolling resistance. Therefore, it is necessary to use high modulus and low To strike a balance between hysteresis loss, solid tires must also have good wear and te

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0085] A wear-resistant base rubber for solid tires of crane trucks, which is composed of the following raw materials in parts by weight:

[0086] Natural rubber 90 parts

[0087] 6 parts of liquid polybutadiene rubber

[0088] Carbon black N234 25 parts

[0089] 5 parts of white carbon black

[0090] Silicon coupling agent 0.2 parts

[0091] 1.0 part of poly-2,3,4-trimethyl-1,2-dihydroquinoline

[0092] N-(1,3-Dimethyl)—N’-phenyl-p-phenylenediamine 1.0 part

[0093] Zinc oxide 5 parts

[0094] Zinc stearate 6 parts

[0095] N-tert-butylbenzothiazole-2-sulfenamide 1.2 parts

[0096] Tetramethyl-thiuram sulfide 0.3 parts

[0097] Sulfur 1.5 parts

[0098] N-Cycloethylthiophthalimide 0.15 parts

[0099] Polyamide fiber 3 parts.

[0100] Using the wear-resistant base rubber for solid tires of crane trucks described in Example 1, the 100% constant elongation strength is 2.7 MPa, and the retention rate is 94%; the 300% constant elongation strength is 14 MPa, and the retention rate is 98%; Strength is...

Embodiment 2

[0102] The wear-resistant base rubber used for solid tires of crane trucks is composed of the following raw materials in proportions by weight:

[0103] 92.8 parts of natural rubber

[0104] Liquid polybutadiene rubber 6.7 parts

[0105] Carbon black N234 25.5 parts

[0106] White carbon black 5.8 parts

[0107] Silicon coupling agent 0.25 parts

[0108] 1.1 parts of poly-2,3,4-trimethyl-1,2-dihydroquinoline

[0109] N-(1,3-Dimethyl)—N’-phenyl-p-phenylenediamine 1.1 parts

[0110] Zinc oxide 5.9 parts

[0111] Zinc stearate 6.8 parts

[0112] N-tert-butylbenzothiazole-2-sulfenamide 1.25 parts

[0113] Tetramethyl-thiuram sulfide 0.37 parts

[0114] Sulfur 1.6 parts

[0115] 0.16 parts of N-cycloethylthiophthalimide

[0116] 3.6 parts of polyamide fiber.

[0117] Using the wear-resistant base rubber for solid tires of crane trucks described in Example 2, the 100% constant elongation strength is 2.82 MPa, and the retention rate is 94.6%; the 300% constant elongation strength is 15.7 MPa, and the re...

Embodiment 3

[0119] The wear-resistant base rubber used for solid tires of crane trucks is composed of the following raw materials in proportions by weight:

[0120] Natural rubber 94.2 parts

[0121] Liquid polybutadiene rubber 7.3 parts

[0122] Carbon black N234 26.2 parts

[0123] White carbon black 6.3 parts

[0124] Silicon coupling agent 0.31 parts

[0125] 1.23 parts of poly-2,3,4-trimethyl-1,2-dihydroquinoline

[0126] N-(1,3-dimethyl)—N’-phenyl-p-phenylenediamine 1.23 parts

[0127] 6.2 parts of zinc oxide

[0128] Zinc stearate 7.1 parts

[0129] 1.34 parts of N-tert-butylbenzothiazole-2-sulfenamide

[0130] Tetramethyl-thiuram sulfide 0.41 parts

[0131] Sulfur 1.65 parts

[0132] 0.18 parts of N-cycloethyl thiophthalimide

[0133] 4.1 parts of polyamide fiber.

[0134] Using the wear-resistant base rubber for solid tires of crane trucks described in Example 3, the 100% constant elongation strength is 2.96 MPa, and the retention rate is 95.6%; the 300% constant elongation strength is 16.4 MPa, and...

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Abstract

The invention belongs to the technical field of rubber production, and particularly relates to an abrasion-resistant base compound for solid tyres of crane cars. The abrasion-resistant base compound for the solid tyres of the crane cars comprises raw materials in parts by weight as follows: natural rubber, liquid polybutadiene rubber, carbon black N234, white carbon black, a silicon coupling agent, poly-2,3,4-trimethyl-1,2-dihydroquinoline, N-(1,3-dimethyl)-N'-phenyl-p-phenylenediamine, zinc oxide, zinc stearate, N-tert-butylbenzothiazole-2-sulfenamide, tetramethyl-thiuram sulfide, sulfur, N-cyclohexylthiophthalimide and polyamide fibers. The base compound has the higher modulus and the good abrasion resistance, and meanwhile, the base compound is better in reversion resistance and low in hysteresis loss.

Description

Technical field [0001] The invention belongs to the technical field of rubber production, and particularly relates to a wear-resistant base rubber used for solid tires of crane vehicles. Background technique [0002] The solid tires of crane trucks require low rolling resistance, in order to ensure that the speed and working time of the vehicle reach the maximum limit, although the tire tread shape, crown radius, tread design and tread thickness are very important to obtain these properties. It’s a big deal, but to get the best results, you must use a suitable rubber formula. Lifting vehicles are often overloaded in use, which leads to increased deformation and creep of the tire. As the deformation and creep increase, the rolling resistance of the tire will also increase, and the result is the speed of the vehicle. Reduce, accelerate energy consumption. Although the high modulus compound with better reinforcement performance can be obtained by selecting the appropriate carbon b...

Claims

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Application Information

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IPC IPC(8): C08L7/00C08L9/00C08L77/00C08K13/02C08K3/04C08K3/36C08K5/3437C08K5/18C08K3/22C08K5/098C08K5/47C08K5/40C08K3/06C08K5/378C08K5/54
Inventor 尤晓明李洋刘国华张兰鹏葛汝海燕纪祥
Owner SHANDONG YONGTAI CHEM GROUP
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