stiffening rib

简明释义

加劲肋

英英释义

例句

1.The architect incorporated stiffening ribs into the building's facade to improve its resistance to wind.

建筑师在建筑外立面中加入了加固肋以提高其抗风能力。

2.The artist used a stiffening rib in her sculpture to provide additional support and shape.

艺术家在她的雕塑中使用了一个加固肋来提供额外的支撑和形状。

3.When designing a kayak, the stiffening ribs help to prevent deformation during use.

在设计皮划艇时，加固肋有助于防止使用过程中变形。

4.The engineer designed a new bridge with a strong stiffening rib to enhance its stability.

工程师设计了一座新桥，采用了强大的加固肋以增强其稳定性。

5.In the construction of aircraft wings, stiffening ribs are crucial for maintaining structural integrity.

在飞机机翼的建造中，加固肋对于保持结构完整性至关重要。

作文

In the world of biomechanics, the term stiffening rib refers to the structural adaptation of certain materials or biological entities that enhance their rigidity and strength. This concept is crucial in understanding how organisms, including humans, develop physical traits that allow them to survive and thrive in their environments. The stiffening rib plays a vital role in various applications, from engineering to medicine, highlighting the importance of stiffness in design and functionality.For instance, consider the human rib cage, which consists of a series of bones that protect vital organs such as the heart and lungs. The ribs are not only crucial for protection but also play a significant role in respiration. As we breathe, our ribs expand and contract, allowing the lungs to fill with air. However, the stiffening rib aspect comes into play when we consider how these bones must maintain their shape and integrity under pressure. If the ribs were too flexible, they would not provide adequate protection or support during physical activities.Similarly, in engineering, the concept of stiffening rib can be applied to the design of structures such as bridges or buildings. Engineers often incorporate stiffening ribs into their designs to enhance the overall stability and strength of the structure. These ribs act as reinforcements, distributing loads more evenly and preventing deformation under stress. For example, a bridge might have a series of stiffening rib elements integrated into its design to ensure that it can withstand heavy traffic and environmental forces without collapsing.The study of stiffening rib also extends to materials science, where researchers explore how different materials can be engineered to exhibit increased stiffness. This is particularly relevant in the development of lightweight composites used in aerospace and automotive industries. By understanding the principles behind stiffening rib, scientists can create materials that are both strong and lightweight, leading to more efficient and sustainable designs.In the field of medicine, the understanding of stiffening rib can aid in the treatment of various conditions related to the skeletal system. For instance, osteoporosis is a condition characterized by weakened bones, making them more susceptible to fractures. By studying how the body naturally reinforces its bones through mechanisms similar to stiffening rib, researchers can develop better treatment methods and preventive measures for individuals at risk.In conclusion, the concept of stiffening rib is multifaceted, encompassing aspects of biology, engineering, materials science, and medicine. It serves as a reminder of the intricate balance between flexibility and rigidity that is essential for both living organisms and man-made structures. Understanding this balance allows us to innovate and improve designs across various fields, ensuring safety, efficiency, and resilience in our environments. As we continue to explore the implications of stiffening rib, we unlock new possibilities for advancement and sustainability in our world.

在生物力学的世界中，术语stiffening rib指的是某些材料或生物实体的结构适应性，这种适应性增强了它们的刚性和强度。这个概念对于理解有机体，包括人类，如何发展出允许它们在环境中生存和繁衍的身体特征至关重要。stiffening rib在各种应用中发挥着重要作用，从工程到医学，突显了刚度在设计和功能中的重要性。例如，考虑一下人类的胸廓，它由一系列骨头组成，保护着心脏和肺等重要器官。肋骨不仅对保护至关重要，还在呼吸中发挥着重要作用。当我们呼吸时，肋骨会扩张和收缩，使肺部充满空气。然而，当我们考虑这些骨头必须在压力下保持其形状和完整性时，stiffening rib的方面就显得尤为重要。如果肋骨过于柔韧，就无法在身体活动中提供足够的保护或支持。同样，在工程领域，stiffening rib的概念可以应用于桥梁或建筑物等结构的设计。工程师通常在他们的设计中加入加强肋，以增强结构的整体稳定性和强度。这些肋作为加固件，能够更均匀地分配负载，并防止在压力下变形。例如，一座桥可能在其设计中集成了一系列的stiffening rib元素，以确保它能够承受重型交通和环境力量而不崩溃。stiffening rib的研究还扩展到材料科学领域，研究人员探讨如何将不同的材料工程化以表现出更高的刚度。这在航空航天和汽车工业中轻量级复合材料的开发中特别相关。通过理解stiffening rib背后的原理，科学家可以创造出既强大又轻便的材料，从而导致更高效和可持续的设计。在医学领域，对stiffening rib的理解可以帮助治疗与骨骼系统相关的各种疾病。例如，骨质疏松症是一种以骨骼变弱为特征的疾病，使其更容易发生骨折。通过研究身体如何通过类似于stiffening rib的机制自然强化其骨骼，研究人员可以为面临风险的个体开发更好的治疗方法和预防措施。总之，stiffening rib的概念是多方面的，涵盖了生物学、工程学、材料科学和医学等多个领域。它提醒我们在生物体和人造结构之间保持灵活性和刚性之间的微妙平衡是至关重要的。理解这种平衡使我们能够在各个领域进行创新和改进设计，确保我们环境的安全、效率和韧性。随着我们继续探索stiffening rib的影响，我们为在我们的世界中实现进步和可持续性打开了新的可能性。