Pressure-bearing
Relating to or capable of withstanding and distributing force exerted on an object, structure, or system. This term often applies to materials, components, or designs that are specifically engineered to manage or resist applied pressure. The ability to effectively bear pressure is crucial in many engineering applications, ensuring structural integrity, preventing failure, and maintaining operational efficiency. It considers the capacity of something to endure and effectively transfer or dissipate the force placed upon it without deformation or catastrophic collapse, signifying resilience against external forces and influences. Proper pressure-bearing capabilities are essential for both safety and functional performance. The design considerations encompass factors such as material selection, structural geometry, and the distribution of stress.
Pressure-bearing meaning with examples
- The thick steel plates of the submarine's hull were meticulously crafted as a pressure-bearing structure. This design allows it to endure extreme depths of ocean without crumpling. The chosen material enables the hull to resist the tremendous forces of water pressure, maintaining the safety of the vessel and crew.
- In constructing the high-rise building, they used pressure-bearing columns of reinforced concrete to support the immense weight of the building. Each component, carefully designed, distributes loads to the ground, enabling a safe, stable structure that meets all construction requirements. The building will be able to resist wind forces.
- The specialized seals on the hydraulic cylinder are specifically designed to be pressure-bearing, ensuring a tight fit and preventing leaks. Their robust design can handle the substantial pressure of the hydraulic fluid. The effectiveness of these seals enables the efficient operation of heavy machinery.
- The aerospace engineers developed a pressure-bearing wing design for the new aircraft that reduced weight and increased lift. The advanced material choices and shape of the wing enabled high performance and aerodynamic efficiency while maintaining safety by enduring high stress during flight at high altitude.
- The pressure-bearing pipes in the industrial plant must be able to handle high pressure. Each pipe is constructed from durable, corrosion-resistant materials to prevent rupture. This essential capacity guarantees the safe transport of fluids and gases throughout the operation.
