Fuzzy Comprehensive Evaluation for Road Base Material Selection Based on Analytic Hierarchy Process

Xin Qing Huang; Xin Qiu; Lin Wu Chen; Jin Hong Wu; Xiao Hua Luo

doi:10.4028/www.scientific.net/KEM.667.353

Paper Titles

Finite Element Simulation and Experimental Study on Micro-Milling Cobalt-Based Alloy
p.326

Analysis of Durability Performance of Ionic Soil Stabilizer Improving Soil
p.335

Compressive Strength Analysis of Ionic Soil Stabilizer Improving Soil
p.341

Detecting and Expressing of Asphalt Materials Modulus Considering Temperature Effect
p.347

Fuzzy Comprehensive Evaluation for Road Base Material Selection Based on Analytic Hierarchy Process
p.353

Mechanics Mechanism Analysis of Asphalt-Aggregate Interface Damage
p.359

Mechanics Mechanism Analysis of Concrete Pavement Resonant Rubblization
p.365

Micro-Treatment Mechanism Study on Ionic Soil Stabilizer Improving Clay
p.370

The Study of the Electrothermal Heating Pipe Membrane Resistance Test Equipment
p.379

HomeKey Engineering MaterialsKey Engineering Materials Vol. 667Fuzzy Comprehensive Evaluation for Road Base...

Fuzzy Comprehensive Evaluation for Road Base Material Selection Based on Analytic Hierarchy Process

Abstract:

This paper conducted the EN-1 ionic liquid improved soil comparison and evaluation between the stabilization soil and the stabilized aggregate materials in order to analyze its economic cost and solve the issues of road base material selection with the multiple influence factors. Firstly analytic hierarchy process (AHP) was used to establish the hierarchical structure of the decision index and the weight of each indicator in an index layer. Secondly the fuzzy relation matrix of the evaluation criteria were determined by expert evaluation method, and then a comprehensive fuzzy evaluation model can be established for the selection of road base materials. Finally, based on the comprehensive sequencing of different materials derived from fuzzy mathematical calculations, the optimal selection can be achieved. The proposed evaluation model comprehended the availability of material, construction requirements, load capacity, durability, energy consumption, environment protection and material cost etc. This research provided a theoretical basis as well as an effective and practical solution for the future development of highway construction in China.