Paper Info
Title
A Strain Distribution Sensing System for Bone-Implant Interfaces Based on Digital Speckle Pattern Interferometry.
Abstract
This paper aims to provide an effective measurement method for the distribution of deformations and strains focusing on the response to external loading of bone-implant interfaces. To achieve this target, a novel speckle interference imaging method is proposed by introducing phosphate buffer saline medium, in which the samples were completely placed into a phosphate buffer saline solution medium to stable the water molecules. The stability of interferometry imaging is analyzed by using the concepts of co-occurrence matrix and moment of inertia. A series of experiments to measure load-driven deformation and strain in the bone-implant interface was carried out, and the experiments results were analyzed and discussed. It shows that the proposed method is feasible and effective for the no-contact strain measurements of biomaterials in a physiological condition. The proposed strain distribution sensing system will contribute to evaluating computational simulations and improving selection of implant designs and materials.
Year
DOI
Venue
2019
10.3390/s19020365
SENSORS
Keywords
Field
DocType
strain distribution detection,speckle interference imaging,phosphate buffer saline solution,digital speckle pattern interferometry,bone-implant interface
Strain (chemistry),Moment of inertia,Speckle pattern,Matrix (mathematics),Interferometry,Electronic engineering,Interference (wave propagation),Deformation (mechanics),Acoustics,Engineering,Bone-Implant Interface
Journal
Volume
Issue
ISSN
19
2.0
1424-8220
Citations 
PageRank 
References 
0
0.34
0
Authors
5
Name
Order
Citations
PageRank
Ping Zhong14011.34
Zhisong Li201.01
Huazheng Yang300.34
Xin Tang4206.42
Guoxing He500.68