Analysis of the accuracy of fiber-optic strain transducers installed by using composite smart patches

Zuccarello, Bernardo; D’Acquisto, Leonardo; Franco, Giuseppe Di

doi:10.1177/0309324715588257

Cited by 4 publications

(5 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…However, a scientific methodology to rectify the deficiency has been in lack. A number of techniques have been developed for the strain monitoring of RC specimens [10,11]. The most straightforward and commonly used method is measuring the displacement between two points to obtain average strain in the gauge length.…”

Section: Introductionmentioning

confidence: 99%

Experimental and numerical analysis of strain gradient in tensile concrete prisms reinforced with multiple bars

Gribniak

Jakubovskis

Rimkus

et al. 2018

Construction and Building Materials

View full text Add to dashboard Cite

This work is a continuation of the ongoing research on deformation behavior of reinforced concrete elements under tension. The previous studies have revealed that deformation behaviors of elements reinforced with multiple bars and the traditional prismatic members reinforced with a center bar are essentially different. The latter layout, though typical of laboratory specimens, could not represent the norm of structures in real-life. Thus, a new test methodology to investigate the strain distribution in concrete prismatic members reinforced with multiple bars subjected to axial tension is devised. Prismatic concrete specimens with different reinforcement configurations were fabricated and tested using the proposed setup. Deformation behavior of the specimens is modeled with a tailor-designed bond modeling approach for rigorous finite element analysis. It is revealed that the average deformations of the concrete could be different from the prevailing approach of average deformations of the steel, and are dependent on the reinforcement configurations. Therefore, the efficiency of concrete in tension should be carefully taken into account for rational design of structural elements. The study endorses promising abilities of finite element technique as a versatile analysis tool whose full potential is to be revealed with the advent of computer hardware.

show abstract

Section: Introductionmentioning

confidence: 99%

Experimental and numerical analysis of strain gradient in tensile concrete prisms reinforced with multiple bars

Gribniak

Jakubovskis

Rimkus

et al. 2018

Construction and Building Materials

View full text Add to dashboard Cite

show abstract

“…Therefore, sufficient knowledge on the mechanical properties of fibers under various conditions is of great importance. 50 The study of the mechanical properties of glass fibers, independent of the strain rate, began in the 1950s followed by the establishment of statistical models. 51,52 Chi et al 52 have proposed a method for determining the static properties of single-strand fibers.…”

Section: The Effect Of Loading Rate On the Mechanical Behavior Of Gla...mentioning

confidence: 99%

An extensive study on strain dependence of glass fiber-reinforced polymer-based composites

Farazin

Khan

2021

The Journal of Strain Analysis for Engineering Design

View full text Add to dashboard Cite

Fiber-reinforced polymer-based composites may experience various strain rates under different dynamic loads. As the mechanical behavior of these composites varies with strain rate, their response will be dependent on the strain rate. This paper presents a comprehensive review on glass fibers and composites reinforced with these fibers, as the most practical polymer-based composite, under dynamic loading. First, the properties of long glass fibers under different strain rates will be reviewed in detail. In the following, experimental studies on the effects of strain rate on various types of glass fiber-reinforced polymer-based composites will be categorized and presented. The behavior of thermoset polymers will be also addressed under different strain rates. Finally, various analytical and numerical macromechanical and micromechanical models will be comprehensively described for this type of composites.

show abstract

“…However, the bulky and rigid structures have hindered their application as wearable devices for long-term usage, as they cause discomfort to the users. The sensitivity of these sensors is lower than 5%, [7] making them susceptible to cracking or deformation while subjected to a relatively large in-plane deformation. [8,9] Advances in stretchable electronics and microelectromechanical systems have significantly reduced the overall dimension of health monitoring devices and increased the conformality of wearable devices on human skin.…”

Section: Introductionmentioning

confidence: 99%

“…However, the bulky and rigid structures have hindered their application as wearable devices for long‐term usage, as they cause discomfort to the users. The sensitivity of these sensors is lower than 5%, [ 7 ] making them susceptible to cracking or deformation while subjected to a relatively large in‐plane deformation. [ 8,9 ]…”

Section: Introductionmentioning

confidence: 99%

A Stretchable Kirigami‐Inspired Self‐Powered Electroactive Sensor for Tensile Strain and Torsion Sensing

et al. 2021

View full text Add to dashboard Cite

Electroactive polymer has a great potential to be employed for making a self‐powered sensor due to the ionic movement of the mobile cation that exists in the polymer structure itself. However, applying an electroactive‐based sensor as wearable gadget can be challenging due to its limited detection range and nonconformity. Inspired by the Kirigami structure, herein, it has been demonstrated that a self‐powered electroactive‐based sensor with improved conformality. It has been found that the Kirigami structure can enhance the sensor sensitivity significantly. The sensor exhibited high sensitivity to a uniaxial strain deformation with more than 300% sensitivity and a broad sensing range of up to 80% strain. In addition to being able to detect the uniaxial strain, the Kirigami‐patterned sensor also has good torsion and mixed torsion–strain dependent properties, making it a good multifunctional sensor. As a proof‐of‐concept demonstration for applications in monitoring human activities, it has been successfully demonstrated that the proposed Kirigami‐patterned sensor is able to monitor wrist movements and respiration rate. Notably, this Kirigami‐patterned electroactive‐based sensor has significantly broadened the application of electroactive polymer on advanced wearable electronics.

show abstract

Analysis of the accuracy of fiber-optic strain transducers installed by using composite smart patches

Cited by 4 publications

References 34 publications

Experimental and numerical analysis of strain gradient in tensile concrete prisms reinforced with multiple bars

Experimental and numerical analysis of strain gradient in tensile concrete prisms reinforced with multiple bars

An extensive study on strain dependence of glass fiber-reinforced polymer-based composites

A Stretchable Kirigami‐Inspired Self‐Powered Electroactive Sensor for Tensile Strain and Torsion Sensing

Contact Info

Product

Resources

About