initial stability

简明释义

初稳性

英英释义

例句

1.Engineers conducted tests to verify the initial stability 初始稳定性 of the new design.

工程师进行了测试，以验证新设计的初始稳定性。

2.The bridge was designed to ensure initial stability 初始稳定性 during high winds.

这座桥的设计确保在大风中具有初始稳定性。

3.Before launching the rocket, we ensured its initial stability 初始稳定性 in various conditions.

在发射火箭之前，我们确保其在各种条件下的初始稳定性。

4.The aircraft's initial stability 初始稳定性 is crucial for safe takeoff and landing.

飞机的初始稳定性对安全起飞和降落至关重要。

5.In the first phase of construction, we focused on achieving initial stability 初始稳定性 for the foundation.

在施工的第一阶段，我们专注于实现基础的初始稳定性。

作文

In the field of engineering and architecture, the concept of initial stability plays a crucial role in ensuring that structures can withstand various forces and stresses during their early stages of use. Initial stability refers to the ability of a structure to maintain its position and resist deformation immediately after it has been constructed or assembled. This is particularly important for buildings, bridges, and other infrastructures that are subject to dynamic loads such as wind, earthquakes, and traffic. One of the key factors contributing to initial stability is the design of the foundation. A well-designed foundation provides a solid base that helps distribute the weight of the structure evenly, preventing any undue stress on certain areas. For instance, in tall buildings, the foundation must be deep and wide enough to support the height and weight of the building above. Engineers often conduct soil tests to determine the best type of foundation to use, ensuring that the initial stability is maximized from the outset.Another aspect that influences initial stability is the materials used in construction. Different materials have varying properties that affect their strength and durability. For example, steel and reinforced concrete are commonly used in modern construction due to their high tensile strength and ability to absorb energy. These materials contribute significantly to the initial stability of structures, allowing them to endure external forces without collapsing or deforming.Moreover, the design of the structure itself is vital in achieving initial stability. Architects and engineers must consider factors such as geometry, load distribution, and symmetry when creating plans for new buildings. Structures designed with a balanced and symmetrical shape tend to exhibit greater initial stability, as they can better withstand lateral forces. Additionally, incorporating features such as cross-bracing or shear walls can enhance the overall stability by providing additional support against movement.The importance of initial stability extends beyond just the physical integrity of a structure. It also impacts safety and usability. A structure that lacks adequate initial stability may pose risks to occupants and users, especially in the event of an earthquake or strong winds. Therefore, engineers must prioritize this aspect during the design and construction phases to ensure public safety and minimize potential hazards.In conclusion, initial stability is a fundamental concept in the fields of engineering and architecture that ensures the safety and longevity of structures. By focusing on foundation design, material selection, and structural geometry, professionals can achieve optimal initial stability for their projects. This not only protects the investment made in the construction but also safeguards the lives of those who will use and inhabit these structures. As we continue to advance in engineering techniques and materials, understanding and implementing initial stability will remain a top priority for future developments in construction.

在工程和建筑领域，初始稳定性的概念在确保结构能够在使用早期阶段承受各种力量和应力方面发挥着至关重要的作用。初始稳定性是指结构在建造或组装后立即保持其位置并抵抗变形的能力。这对于建筑物、桥梁和其他基础设施尤其重要，因为它们受到风、地震和交通等动态载荷的影响。影响初始稳定性的关键因素之一是基础的设计。设计良好的基础提供了一个坚固的基础，有助于均匀分配结构的重量，防止某些区域承受过大的压力。例如，在高层建筑中，基础必须足够深且宽，以支持建筑物上方的高度和重量。工程师通常会进行土壤测试，以确定使用哪种类型的基础，从而确保最大化初始稳定性。影响初始稳定性的另一个方面是建筑中使用的材料。不同的材料具有不同的特性，会影响其强度和耐久性。例如，钢材和钢筋混凝土由于其高抗拉强度和吸收能量的能力，常用于现代建筑。这些材料显著提高了结构的初始稳定性，使其能够在不倒塌或变形的情况下承受外部力量。此外，结构本身的设计在实现初始稳定性方面至关重要。建筑师和工程师在为新建筑制定计划时，必须考虑几何形状、载荷分布和对称性等因素。设计平衡且对称形状的结构往往表现出更大的初始稳定性，因为它们可以更好地抵御横向力量。此外，加入交叉支撑或剪切墙等特征可以通过提供额外的支撑来增强整体稳定性，以抵御运动。初始稳定性的重要性不仅限于结构的物理完整性。它还影响安全性和可用性。缺乏足够初始稳定性的结构可能对居住者和用户构成风险，特别是在地震或强风发生时。因此，工程师必须在设计和施工阶段优先考虑这一方面，以确保公众安全并尽量减少潜在危险。总之，初始稳定性是工程和建筑领域中的一个基本概念，确保结构的安全性和持久性。通过关注基础设计、材料选择和结构几何形状，专业人士可以为他们的项目实现最佳初始稳定性。这不仅保护了在建设中所做的投资，还保障了使用和居住这些结构的人的生命安全。随着我们在工程技术和材料方面的不断进步，理解和实施初始稳定性将始终是未来建筑发展的重中之重。