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Design method of efficient asphalt flame retardant multi-element compounding scheme

A technology of flame retardant and asphalt, which is applied in the field of high-efficiency flame retardant multi-component compounding scheme design, can solve problems such as poor flame retardant effect, achieve high scientific value, improve driving comfort and safety, and improve long-term use performance Effect

Inactive Publication Date: 2013-12-25
NANJING FORESTRY UNIV
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Problems solved by technology

[0013] In view of the poor flame retardant effect of current asphalt flame retardants, the present invention goes deep into the level of asphalt components, starting from the thermal decomposition characteristics of each component of asphalt, and provides a design of a multi-component compounding scheme of asphalt high-efficiency flame retardants method, so as to improve the flame retardant effect of asphalt, so that the whole process of asphalt thermal decomposition can be efficiently suppressed

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  • Design method of efficient asphalt flame retardant multi-element compounding scheme

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Embodiment Construction

[0023] The invention provides a new method for designing a multi-component compounding scheme of a high-efficiency flame retardant for road asphalt materials, and the specific implementation steps are as follows:

[0024] (1) Select asphalt samples, prepare samples of four components of asphalt, namely saturated content, aromatic components, colloids and asphaltene, and determine the content of each component in the asphalt. Take about 10 mg of asphalt and each component sample, and use a thermogravimetric-differential thermal analyzer to test separately. The nitrogen flow rate is 60ml / min, the heating rate is 5°C / min, and the temperature is raised from room temperature to 750°C to obtain TG and DTG , DTA data and char formation rate;

[0025] (2) According to the TG-DTG curves of each component of asphalt, understand the main thermal decomposition temperature range of each sample and the gradient distribution characteristics of the thermal decomposition kinetic performance of...

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Abstract

The invention provides a design method of an efficient asphalt flame retardant multi-element compounding scheme, aiming at solving the problems of a current asphalt flame retardant which is poor in flame retardant efficiency and cannot implement complete thermal decomposition on asphalt to achieve efficient flame retardation. The method comprises the steps of firstly, implementing a thermegravimetry experiment depending on various components of asphalt to understand graded distribution characteristics of thermal decomposition performances of various components of the asphalt; and respectively optimizing flame retardants matched to thermal decomposition temperature intervals of various components of the asphalt and additive amounts of the flame retardants, so as to realize flame retardation on the level of various components; secondly, depending on contents of various components in the asphalt, primarily designing a flame retardant compounding scheme, investigating flame retardant efficiency of the compound multi-element flame retardant on the asphalt as well as a synergistic effect among various flame retardants, thus optimizing the flame retardant compounding scheme primarily; and finally, evaluating influence of the compound flame retardant on pavement performances of the asphalt and mixture thereof, so as to further optimize the flame retardant compounding scheme and perfecting design of the flame retardant multi-element compounding scheme. The method provided by the invention can realize efficient flame retardation in the full thermal decomposition process of the asphalt, so as to enhance fire safety of an asphalt pavement.

Description

technical field [0001] The invention relates to a multi-component compounding scheme design method of a high-efficiency flame retardant for road asphalt materials, and belongs to the technical field of road asphalt pavement fire safety. Background technique [0002] In recent years, my country's urban construction has developed rapidly, and large-scale urban underground passages have also been developed simultaneously as an important part of the urban traffic pattern, such as the Nanjing Xuanwu Lake Tunnel. Underground passages can be used in the construction of mountains and lakes to overcome terrain and elevation obstacles, improve alignment, shorten driving mileage, increase driving speed, and protect the ecological environment. Therefore, large-scale underground passages are widely used in urban construction. At present, large-scale underground passages are developing in the direction of growth, traffic volume increases, and driving speeds increase, becoming a road sect...

Claims

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Application Information

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IPC IPC(8): C08L95/00
Inventor 许涛王宏畅石华泉李国芬黄凯健
Owner NANJING FORESTRY UNIV
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