This paper presents an experimental evaluation of three different strain measuring principles. Mounted on a steel beam resembling a car engine mount, metal foil strain gauges, piezoresistive silicon strain gauges and piezoelectric patches are investigated to measure structure-borne forces to control an active mounting structure. FEA simulation determines strains to be measured in the range of 10 −8 up to 10 −5 m × m −1 . These low strains cannot be measured with conventional metal foil strain gauges, as shown in the experiment conducted. Both piezoresistive and piezoelectric gauges show good results compared to a conventional piezoelectric force sensor. Depending on bandwidth, overload capacity and primary electronic costs, these principles...
A steel frame is designed to measure the existing prestressing force in the concrete beams and slabs...
The most common and established way of performing experimental modal analysis is to use acceleration...
WO2006024263 A UPAB: 20060410 NOVELTY - At least one piezo fiber sensor (2) and strain gauge (3) are...
This paper presents an experimental evaluation of three different strain measuring principles. Mount...
This paper presents an experimental evaluation of three different strain measuring principles. Mount...
This paper presents an experimental evaluation of three different strain measuring principles. Mount...
Strain gauge sensors provides an excellent accuracy and a very high long-term stability for the meas...
Abstract The strain of a structural element is often measured indirectly by determining the strain o...
The strain of a structural element is often measured indirectly by determining the strain of a trans...
This chapter provides an overview of the use of strain sensors for structural health monitoring. Com...
This book is a profound compendium on strain gages and their application in materials science and al...
Series Editor’s Note: This series of articles is dedicated to Prof. Peter K. Stein, in honor of his ...
This paper investigates a new method to calibrate a tensile specimen with strain gauges to measure f...
AbstractStrain measurement is important in mechanical testing. A wide variety of techniques exists f...
This paper shows some recent advances on the use of strain-based measurements and mixed strain/accel...
A steel frame is designed to measure the existing prestressing force in the concrete beams and slabs...
The most common and established way of performing experimental modal analysis is to use acceleration...
WO2006024263 A UPAB: 20060410 NOVELTY - At least one piezo fiber sensor (2) and strain gauge (3) are...
This paper presents an experimental evaluation of three different strain measuring principles. Mount...
This paper presents an experimental evaluation of three different strain measuring principles. Mount...
This paper presents an experimental evaluation of three different strain measuring principles. Mount...
Strain gauge sensors provides an excellent accuracy and a very high long-term stability for the meas...
Abstract The strain of a structural element is often measured indirectly by determining the strain o...
The strain of a structural element is often measured indirectly by determining the strain of a trans...
This chapter provides an overview of the use of strain sensors for structural health monitoring. Com...
This book is a profound compendium on strain gages and their application in materials science and al...
Series Editor’s Note: This series of articles is dedicated to Prof. Peter K. Stein, in honor of his ...
This paper investigates a new method to calibrate a tensile specimen with strain gauges to measure f...
AbstractStrain measurement is important in mechanical testing. A wide variety of techniques exists f...
This paper shows some recent advances on the use of strain-based measurements and mixed strain/accel...
A steel frame is designed to measure the existing prestressing force in the concrete beams and slabs...
The most common and established way of performing experimental modal analysis is to use acceleration...
WO2006024263 A UPAB: 20060410 NOVELTY - At least one piezo fiber sensor (2) and strain gauge (3) are...