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Jigar Prajapati

Orientation of Strain gauge

Engineering
1 of 15
GOVERNMENT ENGINEERING COLLEGE PALANPUR MECHANICAL DEPARTMENT ORIENTATION OF STRAIN GAUGES FOR FORCE AND TORQUE, STRAIN GAUGE BASED LOAD CELLS AND TORQUE SUB :- MECHANICAL MEASUREMENT AND METROLOGY PREPARED BY:-JIGAR PRAJAPATI-220613119010 ROHIT PRAJAPATI-220613119011 GUIDED BY: PROF B.D.PRAJAPATI SIR
 BASICS OF STRAIN GAUGE  A strain gauge is a sensor whose measured electrical resistance varies with changes in strain.  A strain gauge is a resistor used to measure strain on an object.  When an external force is applied on an object, due to which there is a deformation occurs in the shape of the object.  This deformation in the shape is both compressive or tensile is called strain, and it is measured by the strain gauge
 ORIENTATION OF STRAIN GAUGES  The orientation of strain gauges is an important factor in determining the accuracy and sensitivity of the measurements.  Strain gauges are usually installed on a test specimen to measure the strain that occurs due to an applied force or deformation.  The orientation of the strain gauge depends on the direction of the strain that is to be measured.  The two most common orientations for strain gauges are: 1. Axial orientation 2. Transverse orientation
1. AXIAL ORIENTATION  The strain gauge is bonded parallel to the longitudinal axis of the test specimen.  This orientation is suitable for measuring axial strains.  I.E. The strains that occur along the direction of the applied force or deformation.
2. TRANSVERSE ORIENTATION  The strain gauge is bonded perpendicular to the longitudinal axis of the test specimen.  The orientation is suitable for measuring transverse strains.  I.E. The strain that occur perpendicular to the direction of the applied force or deformation.
 The orientation of the strain gauge is also influenced by the type of strain that is to be measured.  For example, if the test specimen undergoes shear deformation, the strain gauge should be installed at a 45- degree angle to the direction of the applied force or deformation.  It is essential to follow the manufactures guidelines for the orientation of strain gauges to ensure accurate and reliable measurements.  Incorrect orientation can result in reduced sensitivity and errors in the measurement.  Therefore, it is essential to choose the appropriate orientation based on type of strain and the direction of the applied force or deformation.  ORIENTATION OF STRAIN GAUGES
 Strain gauges are commonly used in force and torque measurements, and their orientation plays a crucial role in the accuracy of the measurement.  Here are some guidelines for orientation of strain gauges in different applications: 1. Force measurement 2. Torque measurement 3. Strain gauge based load cells 4. Strain gauge based torque sensors  ORIENTATION OF STRAIN GAUGES
 The strain gauge is usually bonded to a metal beam or a load cell that deforms under the applied force.  The strain gauge should be bonded perpendicular to the direction of force. It is called transverse orientation type measurement.  I.E. The longitudinal axis of the beam or the load cell  This orientation maximizes the sensitivity of the strain gauge to the deformation caused by the force. 1. FORCE MEASUREMENT
 The strain gauge is usually bonded to a torsion bar or a torque sensor that twists under the applied torque.  The strain gauge should be bonded parallel to the direction of torque. It is called axial orientation type measurement.  I.E. Along the axis of the torsion bar.  This orientation maximizes the sensitivity of the strain gauge to the torsion caused by the torque. 2. TORQUE MEASUREMENT
 A load cell is a device that converts the applied force into electrical signal that can be measured.  The strain gauge load cell is an electro-mechanical transducer which translates change in force into change in voltage.  Load cells typically use multiple strain gauges bonded in a Wheatstone bridge configuration.  The strain gauges should be oriented perpendicular to the direction Of force. 3. STRAIN GAUGE-BASED LOAD CELLS
 Load cell is small and compact in size.  Accuracy is very good  Fast response against load variations.  It has good sensitivity.  It can be measured compressive as well as tensile load.  ADVANTAGES OF STRAIN GAUGE LOAD CELLS
 A torque sensor is a device that converts the applied torque into an electrical signal that can be measured.  Torque sensors also use multiple strain gauges bonded in a wheatstone bridge configuration.  The strain gauges should be oriented parallel to the direction of torque. 4. STRAIN GAUGE-BASED TORQUE SENSORS
 https://youtu.be/cJUxvqot3pU
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MMM-1.pptx

  • 1. GOVERNMENT ENGINEERING COLLEGE PALANPUR MECHANICAL DEPARTMENT ORIENTATION OF STRAIN GAUGES FOR FORCE AND TORQUE, STRAIN GAUGE BASED LOAD CELLS AND TORQUE SUB :- MECHANICAL MEASUREMENT AND METROLOGY PREPARED BY:-JIGAR PRAJAPATI-220613119010 ROHIT PRAJAPATI-220613119011 GUIDED BY: PROF B.D.PRAJAPATI SIR
  • 2.  BASICS OF STRAIN GAUGE  A strain gauge is a sensor whose measured electrical resistance varies with changes in strain.  A strain gauge is a resistor used to measure strain on an object.  When an external force is applied on an object, due to which there is a deformation occurs in the shape of the object.  This deformation in the shape is both compressive or tensile is called strain, and it is measured by the strain gauge
  • 3.
  • 4.  ORIENTATION OF STRAIN GAUGES  The orientation of strain gauges is an important factor in determining the accuracy and sensitivity of the measurements.  Strain gauges are usually installed on a test specimen to measure the strain that occurs due to an applied force or deformation.  The orientation of the strain gauge depends on the direction of the strain that is to be measured.  The two most common orientations for strain gauges are: 1. Axial orientation 2. Transverse orientation
  • 5. 1. AXIAL ORIENTATION  The strain gauge is bonded parallel to the longitudinal axis of the test specimen.  This orientation is suitable for measuring axial strains.  I.E. The strains that occur along the direction of the applied force or deformation.
  • 6. 2. TRANSVERSE ORIENTATION  The strain gauge is bonded perpendicular to the longitudinal axis of the test specimen.  The orientation is suitable for measuring transverse strains.  I.E. The strain that occur perpendicular to the direction of the applied force or deformation.
  • 7.  The orientation of the strain gauge is also influenced by the type of strain that is to be measured.  For example, if the test specimen undergoes shear deformation, the strain gauge should be installed at a 45- degree angle to the direction of the applied force or deformation.  It is essential to follow the manufactures guidelines for the orientation of strain gauges to ensure accurate and reliable measurements.  Incorrect orientation can result in reduced sensitivity and errors in the measurement.  Therefore, it is essential to choose the appropriate orientation based on type of strain and the direction of the applied force or deformation.  ORIENTATION OF STRAIN GAUGES
  • 8.  Strain gauges are commonly used in force and torque measurements, and their orientation plays a crucial role in the accuracy of the measurement.  Here are some guidelines for orientation of strain gauges in different applications: 1. Force measurement 2. Torque measurement 3. Strain gauge based load cells 4. Strain gauge based torque sensors  ORIENTATION OF STRAIN GAUGES
  • 9.  The strain gauge is usually bonded to a metal beam or a load cell that deforms under the applied force.  The strain gauge should be bonded perpendicular to the direction of force. It is called transverse orientation type measurement.  I.E. The longitudinal axis of the beam or the load cell  This orientation maximizes the sensitivity of the strain gauge to the deformation caused by the force. 1. FORCE MEASUREMENT
  • 10.  The strain gauge is usually bonded to a torsion bar or a torque sensor that twists under the applied torque.  The strain gauge should be bonded parallel to the direction of torque. It is called axial orientation type measurement.  I.E. Along the axis of the torsion bar.  This orientation maximizes the sensitivity of the strain gauge to the torsion caused by the torque. 2. TORQUE MEASUREMENT
  • 11.  A load cell is a device that converts the applied force into electrical signal that can be measured.  The strain gauge load cell is an electro-mechanical transducer which translates change in force into change in voltage.  Load cells typically use multiple strain gauges bonded in a Wheatstone bridge configuration.  The strain gauges should be oriented perpendicular to the direction Of force. 3. STRAIN GAUGE-BASED LOAD CELLS
  • 12.  Load cell is small and compact in size.  Accuracy is very good  Fast response against load variations.  It has good sensitivity.  It can be measured compressive as well as tensile load.  ADVANTAGES OF STRAIN GAUGE LOAD CELLS
  • 13.  A torque sensor is a device that converts the applied torque into an electrical signal that can be measured.  Torque sensors also use multiple strain gauges bonded in a wheatstone bridge configuration.  The strain gauges should be oriented parallel to the direction of torque. 4. STRAIN GAUGE-BASED TORQUE SENSORS