"Mechanical Strain gauges" do not have inductance. There are many types of strain gauge: Mechanical, photoelastic, electrical etc.... Are you wanting the inductance of an electrical strain gauge? if so which type?
Babalo
* a device that responds to mechanical strain. with a small change in resistance. ... * device for determining the amount of strain (change in dimensions) when a stress is applied
these are very costly and cannot meet all the requirements. the values we get from this are also not exact .so,electrical strain come into progress
the types are1> mechanical strain gauge like single bonded rosette2> electrical resistance strain gauges3> elliptical c/s gauge. e..g bourdon tube etc.
Just place a piezo electric crystal in your shoe then due to alternate change of your feet causes mechanical stress and strain .Inverse piezo electric effect states that when stress and strain is given along mechanical axes it creates electricity along electrical axes.Thus piezo electric crystal converts mechanical energy to electrical energy.
Yuguo An has written: 'The effects of changes in strain path on the mechanical behaviour in Al-Mg-Si alloys'
The most common is the generator. But don't forget the piezoelectric crystals in ignitors and strain gauges.
"strain" refers to the deformation or change in shape of a material when subjected to an external force or load. It is typically expressed as a ratio, either in terms of the change in length (linear strain) or the change in angle (angular strain) relative to the material's original dimensions. Strain is often represented using the symbol "ε" (epsilon) and can be described as: ε = ΔL / L Where: ε is the strain. ΔL is the change in length. L is the original length of the material. Strain is a measure of how much a material deforms under stress, and it can be used to study the material's mechanical properties, such as its elasticity and ability to withstand external forces without permanent deformation or failure. It is an important concept in fields like materials science, civil engineering, and mechanical engineering.
Electronics Devices are those devices which are made from semiconductors like transistors fet mosfet amplifiers and ic's and other p-n junction devices. while mechanical devices are those devices which follow the mechanical principle such as strain gauge , machines and robot etc.
Semi-conducting materials changes in inter-atomic spacing resulting from strain affect the band gaps, making it easier for electrons to be raised into the conduction band while in metals, resistance change is mostly due to the change of geometry resulting from applied mechanical stress.
mechanical loads on human body are: 1-compression 2-tension 3-shear 4-stress 5-strain 6-bending/bucking 7-torsion 8-combined 9-repetitive 10-acute (1,2,3 are pure forms)