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Utah State University
March 11, 2010
Steve Gunderson
[email protected]
(916) 662-4244
Acknowledgements
 Dr. YangQuan Chen: Research background and
technical instruction
Agenda
 Overview
 Impact of Engineering
 Principle of Operation
 Types
 Implementation
 Application
 Major Specifications
 Limitations
 Purchasing
 References
Typical Foil Strain Gauge
http://en.wikipedia.org/wiki/Strain_gauge
Overview
 Strain gauges are used to measure the
mechanical strain on an object or the
junction between two objects
 The strain can be measured as a force or as
a torque
 Other indirect implementations include
those measuring acceleration,
displacement, pressure, and temperature
Impact of Engineering
 Strain gauges can be used in common
applications to increase safety and
efficiency of other technology in our daily
lives
 Bridges, for example, can have strain
gauges implemented on them to monitor
their structural integrity and ability to carry
loads
 Safety monitoring has benefits worldwide
Principle of Operation
 Basic electronic strain gauges
use a basic 2-dimensional foil
array
 As strain is placed planar to
the foil, the resistance of the
foil changes
 The resistance change is
monitored by circuitry
Typical Foil Strain Gauge
http://en.wikipedia.org/wiki/Strain_gauge
Types
 Strain gauges can be constructed as either
purely mechanical or mechanical/electrical
 Electrical gauges are implemented in
numerous ways and their possibilities range
from a 2-dimensional foil array to an actual
semi-conductor chip
Implementation
 Typically, a Wheatstone
Bridge circuit configuration is
used to monitor the
resistance change in the
strain gauge
 This is also one of the most
basic circuit configurations to
monitor the sensor
Wheatstone Bridge
http://en.wikipedia.org/wiki/Wheatstone_bridge
Implementation
 Rx represents the variable
strain gauge sensor
 As it changes in resistance,
the sensor Vg can decode the
output and relate it to a
particular amount of strain
on the sensor
Wheatstone Bridge
http://en.wikipedia.org/wiki/Wheatstone_bridge
Implementation
 Other resistor values are
chosen to vary the sensitivity
and resolution of the sensor
circuitry
 Multiple resistance values
can be varied in this bridge to
implement sensors under
both tension and
compression
Wheatstone Bridge
http://en.wikipedia.org/wiki/Wheatstone_bridge
Implementation
 A multi-sensor
implementation of the
Wheatstone Bridge gives a
bridge constant
 Bridge constant k equals the
general bridge output
divided by the bridge output
with only one active gauge
Wheatstone Bridge
http://en.wikipedia.org/wiki/Wheatstone_bridge
Implementation
 Care must be taken with the
type of gauge being used as
some have operational areas
of non-linearity
 Linear approximation can be
used with most sensors of
this type
Wheatstone Bridge
http://en.wikipedia.org/wiki/Wheatstone_bridge
Application
 Countless types of strain gauges are in use
today all throughout the world
 A wide variety of markets can take
advantage of them for monitoring safety
and reliability as well as product testing
 Strain gauges can also be used as a general
measurement device of forces and torques
Application
 This sensor was used for
fatigue and durability testing
 A manufactured part can
then be tested more
accurately to meet product
specifications
Strain Gauge
http://blog.prosig.com/2006/05/17/fatiguedurability-testing/
Application
 This worker is installing a
strain gauge on a bridge
 Measurements taken can
be used to assure the
safety and longevity of the
bridge itself
Strain Gauge
http://www.timedla.com/blog/huey/default,date,
2008-05-29.aspx
Major Specifications
 Sensitivity and resolution greatly depends
upon the size of the sensor and the
materials used to construct it
 Strain gauges can be used to measure
strain on anything from small delicate
tissues to large concrete and steel bridges
 Larger strains cause the characteristic
equation of the gauge to become more
non-linear
Limitations
 Strain gauges can be difficult to attach to
small parts as there needs to be some type
of spacing between both attachment
points
 3-dimensional stress analysis also can be
complicated if there is not an easy way to
mount sensors on all axis
Purchasing
 Strain gauges may be readily purchased
from many online retailers
 Small semi-conductor and electronic strain
gauges are found at digikey.com or
mouser.com
 Large-application gauges may be obtained
from specialty manufacturers and retailers
References
 Wikipedia.org
 “Mechatronics – An Integrated Approach” by
Clarence W. de Silva
Questions?