Stress analysis Clause Samples

A stress analysis clause requires the assessment of structural or mechanical components to determine their ability to withstand expected loads and stresses during use. In practice, this involves calculating the forces and pressures that parts of a system will experience, often using engineering models or simulations, to ensure that materials and designs meet safety and performance standards. The core function of this clause is to prevent structural failures by mandating thorough evaluation, thereby ensuring safety, compliance, and reliability in engineering projects.
Stress analysis. The stresses in the tangential and longitudinal direction of the cylinder in the composite and in the liner shall be calculated. The pressures used for these calculations shall be zero, working pressure, test pressure and design burst pressure. The calculations shall use suitable analysis techniques to establish stress distribution throughout the cylinder.
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Stress analysis. The stresses in the cylinder shall be calculated for 2 MPa, 20 MPa, test pressure and design burst pressure. The calculations shall use suitable analysis techniques using thin-shell theory that takes into account out-of-plane bending of the shell to establish stress distributions at the neck, transition regions and the cylindrical part of the cylinder.
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Stress analysis. A stress analysis shall be performed to justify the minimum design wall thicknesses. It shall include the determination of the stresses in liners and fibres of composite designs.
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Stress analysis. Stress analysis shall be performed by the Owner’s Engineer per ASME B31. 1. Stress will be reduced via horizontal expansion loops, offsets or expansion joints. Vertical expansion loops are not allowed. Use of expansion joints is allowed, upon approval of design and specification details by Company. It is not the Contractors responsibility to perform a stress analysis.
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Stress analysis. The stresses in the tangential and longitudinal direction of the cylinder in the composite and in the liner after pressure shall be calculated. The pressure used for these calculations shall be zero, working pressure, 10 per cent of working pressure, test pressure and design burst pressure. The limits within which autofrettaging pressure must fall shall be calculated, The calculations shall use suitable analysis techniques using thin-shell theory taking account of non-linear material behaviour of the liner to establish stress distributions at the neck, transition regions and the cylindrical part of the liner. 9.3. Manufacturing requirements
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Stress analysis 
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Related to Stress analysis

  • Risk Analysis The Custodian will provide the Fund with a Risk Analysis with respect to Securities Depositories operating in the countries listed in Appendix B. If the Custodian is unable to provide a Risk Analysis with respect to a particular Securities Depository, it will notify the Fund. If a new Securities Depository commences operation in one of the Appendix B countries, the Custodian will provide the Fund with a Risk Analysis in a reasonably practicable time after such Securities Depository becomes operational. If a new country is added to Appendix B, the Custodian will provide the Fund with a Risk Analysis with respect to each Securities Depository in that country within a reasonably practicable time after the addition of the country to Appendix B.