Submit

Login Login

Register Register

Home / Journals / SDHM / Online First / doi:10.32604/sdhm.2025.072237
Journal Menu
Special Issues
Table of Content

All issues

Online First

2025

2024

2023

2022

2021

2020

2019

2018

2017

2014

2013

2012

2011

2010

2009

2008

2007

2006

2005

Open Access

ARTICLE

A Novel Quantitative Detection of Sleeve Grouting Compactness Based on Ultrasonic Time-Frequency Dual-Domain Analysis

Longqi Liao1, Jing Li2, Yuhua Li3, Yuemin Wang3, Jinhua Li1,*, Liyuan Cao4,*, Chunxiang Li4,*
1 State Key Laboratory of Safety and Resilience of Civil Engineering Mountain Area, East China Jiaotong University, Nanchang, 330013, China
2 Office of Academic Research, Jiangxi Medical College, Shangrao, 334000, China
3 Jiangxi Construction Engineering Group Construction Industry Investment Co., Nanchang, 330500, China
4 Department of Civil Engineering, School of Mechanics and Engineering Science, Shanghai University, No.333 Nanchen Road, Shanghai, 200444, China
* Corresponding Author: Jinhua Li. Email: email" />" />; Liyuan Cao. Email: email" />" />, email; Chunxiang Li. Email: email" />" />
(This article belongs to the Special Issue: Health Monitoring of Transportation Infrastructure Structure)

Structural Durability & Health Monitoring https://doi.org/10.32604/sdhm.2025.072237

Received 22 August 2025; Accepted 29 October 2025; Published online 27 November 2025

Abstract

Quantitative detection of sleeve grouting compactness is a technical challenge in civil engineering testing. This study explores a novel quantitative detection method based on ultrasonic time-frequency dual-domain analysis. It establishes a mapping relationship between sleeve grouting compactness and characteristic parameters. First, this study made samples with gradient defects for two types of grouting sleeves, G18 and G20. These included four cases: 2D, 4D, 6D defects (where D is the diameter of the grouting sleeve), and no-defect. Then, an ultrasonic input/output data acquisition system was established. Three-dimensional sound field distribution data were obtained through an orthogonal detection layout and pulse reflection principles. Finally, a novel quantification detection with a comprehensive defect index (DI) was established by comprehensively considering eight feature parameters, such as time-frequency domain Kurtosis factor (KU), Skewness factor (SK), Form factor (FF), Crest factor (CF), Impulse factor (IF), Clearance factor (CLF), Wavelet packet energy entropy (WPEE), and Hilbert energy peak (HEP). Construct a DI index by quantifying the difference between defect signals and defect free signals in the time-frequency domain. Experimental results show that, under no-defect conditions, the values of feature parameters are significantly lower than those under defect conditions. Among these, the KU, FF, CF, WPEE and HEP exhibit strong correlations with grout sleeve compactness. The proposed DI index in both types of grout sleeves showed good universality with a linear fit goodness of 0.847–0.962. However, G20 the larger inner diameter and length of the sleeve result in a more complex medium effect during ultrasonic propagation, making its DI index more sensitive to defects than the G18 sleeve. Therefore, the presented method is effective for quantitative detection and analysis of the compactness of grouting sleeves.

Keywords

Sleeve grout compactness; ultrasonic non-destructive testing; time-domain dimensionless; wavelet packet transform; empirical mode decomposition; Hilbert-Huang transform

  • 69

    View

  • 15

    Download

  • 0

    Like

Related articles
Copyright© 2025 Tech Science Press
© 1997-2025 TSP (Henderson, USA) unless otherwise stated

Share Link