VLab - Direct Bending of the R APP
PURPOSE: Simulation performance of laboratory work on Strength of Materials discipline.
OBJECTIVE: Experimental and theoretical determination of stresses and displacements in a beam of an I-section under direct bending. Experimental verification of the law of distribution of normal stresses under pure bending.
SUMMARY: The main element of the laboratory installation is: an I-sectional beam made of aluminum alloy, mounted on two s. The beam is loaded through a yoke, which is also an elastic element of the force meter. The middle part of the beam (between the s of the yoke) is in the conditions of pure bending. In the middle section of the beam, seven foil-type strain gauges are glued. The strain gages are installed in the direction of the longitudinal axis of the beam and allow the deformation to be measured at the corresponding points.
LANGUAGES: English/Russian
MINIMAL SYSTEM REQUIREMENTS:
- OS: Windows, MacOS, Android, iOS
- RAM: 2 GB
- Processor Frequency: 1.6 GHz
- Video Controller: 3D (OpenGL 2.0)
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OBJECTIVE: Experimental and theoretical determination of stresses and displacements in a beam of an I-section under direct bending. Experimental verification of the law of distribution of normal stresses under pure bending.
SUMMARY: The main element of the laboratory installation is: an I-sectional beam made of aluminum alloy, mounted on two s. The beam is loaded through a yoke, which is also an elastic element of the force meter. The middle part of the beam (between the s of the yoke) is in the conditions of pure bending. In the middle section of the beam, seven foil-type strain gauges are glued. The strain gages are installed in the direction of the longitudinal axis of the beam and allow the deformation to be measured at the corresponding points.
LANGUAGES: English/Russian
MINIMAL SYSTEM REQUIREMENTS:
- OS: Windows, MacOS, Android, iOS
- RAM: 2 GB
- Processor Frequency: 1.6 GHz
- Video Controller: 3D (OpenGL 2.0)
