Strain gauges have been around for almost 80 years and continue to be key assets for measuring fatigue and testing materials for productivity and safety reasons. But how do I calculate material stress from strain? How can I select the right strain gauge and install it correctly?
HBM is commited to promoting a knowledge exchange about measuring strain with strain gauges. Our experts dug deep to provide their best answers for you about all the important questions regarding strain measurement using strain gauges. Click an option below to direct you to the content on the page.
- Basics of Strain Measurements and Experimental Stress Analysis
- Selecting the Right Strain Gauges, Adhesives, Covering Agents and More
- Installation of Strain Gauges: All there is to Know
- Reduction and Elimination of Measurement Errors
- Acquiring Data with the Right Hardware and Software
- Training, Webinars and References on Strain Measurements
Experimental Stress Analysis
Experimental Stress Analysis (ESA) is the analysis of the mechanical stress state in materials, which is performed though experiments using strain gauge measurements. Learn the existing types of stress, their origin and states, or how to determine stress from measured strains by reading about it below.
Wheatstone Bridge Circuit
The Wheatstone bridge can be used in various ways to measure electrical resistance: For the determination of the absolute value of a resistance by comparison with a known resistance, for the determination of relative changes in resistance. Learn the basics and theory of operation.
Selecting Adhesives for Strain Gauge Installation
The bonding materials have the task of firmly attaching the strain gauge to the measured object’s surface and transferring the object’s deformation without loss to the strain gauge. The various conditions and influences, and application options, require different bonding materials and installation methods.
Selecting the Right Covering Agent for Strain Gauges
The quality of a measurement made with a strain gauge essentially depends on the type of installation and design of the measuring point. A thorough preparation of the installation surface, correct connection, and protective covering are important factors for problem-free results.
Strain Rate Measurement on PCBs
Based on the fact that detecting systematic failures at an early stage of development is absolutely essential, OEM manufacturers have increasingly started to ask their suppliers to check the mechanical quality of PCBs. Electrical strain gauges are designated to measure the deformation of printed circuit boards (PCBs) to an extremely accurate degree; this quick-step guide shows necessary steps, including the setup of a complete measuring chain.
Installation of Strain Gauges on Concrete Surfaces
Installing strain gauges on concrete surfaces does not have to be difficult! This article provides useful tips and tricks for your daily work.
Measurement Uncertainty: Less Errors, Better Results
This article addresses possible sources of error when strain gauges are used in experimental stress analysis and shows how to successfully assess measurement uncertainty already in the design stage.
Strain gauge ¼ bridge calibration with shunt signals
This paper explains how fast and precise calibration procedures can be carried out automatically by means of simple shunt resistor switching technique.
Linearity and Sensitivity Error
This article describes the basic principles of strain measurement by means of strain gauges, from the strain itself via the variation in resistance to the eventual electrical signal, and compares the magnitude of error of the voltage-fed bridge circuit and the current-fed circuit.