local reinforcement

简明释义

局部加强

英英释义

例句

1.The construction team decided to use local reinforcement to strengthen the foundation of the building.

施工团队决定使用局部加固来增强建筑物的基础。

2.In this project, we will implement local reinforcement techniques to improve the stability of the structure.

在这个项目中，我们将实施局部加固技术，以提高结构的稳定性。

3.Using local reinforcement can help prevent failure in critical parts of the machinery.

使用局部加固可以帮助防止机器关键部件的失效。

4.The team applied local reinforcement to the walls to enhance their load-bearing capacity.

团队对墙壁进行了局部加固以增强其承载能力。

5.The engineers recommended local reinforcement for areas of the bridge that showed signs of wear.

工程师建议对桥梁磨损明显的区域进行局部加固。

作文

In the field of engineering and architecture, the concept of local reinforcement is crucial for ensuring the structural integrity of buildings and other constructions. Local reinforcement refers to the practice of strengthening specific areas of a structure to handle localized stresses that may occur due to various loads, such as weight, wind, or seismic activity. This targeted approach allows engineers to optimize materials and resources while maintaining safety and durability. For instance, consider a high-rise building that experiences significant wind forces. The design team might identify certain sections of the building, such as the corners or the areas where large windows are installed, as more vulnerable to these forces. By applying local reinforcement techniques, such as adding steel plates or using reinforced concrete in these specific areas, the overall stability of the structure can be enhanced without the need to reinforce the entire building. This not only saves on material costs but also reduces the overall weight of the structure, which can be beneficial for its foundation. Moreover, local reinforcement is not limited to new constructions; it is also applicable in retrofitting existing structures. For example, older buildings may not meet current safety standards due to changes in building codes or advancements in engineering knowledge. In such cases, engineers can assess the building and determine which areas require additional support. By implementing local reinforcement, they can significantly improve the safety and longevity of the structure without the need for a complete overhaul. In addition to its practical applications, local reinforcement also plays a vital role in the design process. Engineers must carefully analyze the loads and stresses that a structure will face throughout its lifespan. This involves using advanced modeling techniques and simulations to predict how different materials will perform under various conditions. By understanding where local reinforcement is necessary, engineers can create more efficient designs that prioritize both performance and cost-effectiveness. Furthermore, the use of local reinforcement can contribute to sustainability in construction. By reinforcing only the necessary areas, less material is wasted, and the overall environmental impact of the building is reduced. This aligns with contemporary trends in construction that emphasize eco-friendly practices and responsible resource management. In conclusion, local reinforcement is an essential aspect of modern engineering that addresses the need for safety and efficiency in construction. By focusing on specific areas that require additional support, engineers can enhance the structural integrity of buildings while minimizing costs and environmental impact. As technology continues to advance, the methods and materials used for local reinforcement will likely evolve, leading to even safer and more sustainable construction practices. Understanding and applying this concept is vital for anyone involved in the fields of architecture and engineering, as it represents a key strategy for creating resilient and lasting structures.

在工程和建筑领域，局部加固的概念对于确保建筑物和其他结构的结构完整性至关重要。局部加固指的是加强结构特定区域的做法，以应对由于各种负载（如重量、风或地震活动）而可能发生的局部应力。这种有针对性的做法使工程师能够优化材料和资源，同时保持安全性和耐久性。例如，考虑一座经历显著风力的高层建筑。设计团队可能会将建筑的某些部分，如角落或大型窗户安装的区域，识别为更容易受到这些力量影响的地方。通过在这些特定区域应用局部加固技术，例如添加钢板或在这些特定区域使用钢筋混凝土，可以增强整体结构的稳定性，而无需对整个建筑进行加固。这不仅节省了材料成本，还减少了结构的整体重量，这对其基础是有益的。此外，局部加固不仅限于新建构造；它也适用于对现有结构的改造。例如，较旧的建筑可能由于建筑规范的变化或工程知识的进步而不符合当前的安全标准。在这种情况下，工程师可以评估建筑并确定哪些区域需要额外的支持。通过实施局部加固，他们可以显著提高结构的安全性和耐久性，而无需进行全面的改造。除了其实际应用外，局部加固在设计过程中也起着至关重要的作用。工程师必须仔细分析结构在其生命周期内将面临的负载和应力。这涉及使用先进的建模技术和模拟来预测不同材料在各种条件下的表现。通过了解在哪里需要局部加固，工程师可以创建更高效的设计，优先考虑性能和成本效益。此外，使用局部加固可以促进建筑的可持续性。通过仅对必要区域进行加固，材料浪费减少，建筑的整体环境影响降低。这与当代建筑中强调生态友好实践和负责任资源管理的趋势相一致。总之，局部加固是现代工程的重要方面，解决了建筑中对安全性和效率的需求。通过关注需要额外支持的特定区域，工程师可以增强建筑的结构完整性，同时最小化成本和环境影响。随着技术的不断进步，用于局部加固的方法和材料可能会不断演变，从而导致更安全和更可持续的建筑实践。理解并应用这一概念对任何参与建筑和工程领域的人来说都是至关重要的，因为它代表了创造韧性和持久结构的关键策略。