structure borne noise

简明释义

结构传递噪声

英英释义

例句

1.The engineers conducted tests to measure the level of structure borne noise 结构传播噪声 in the building's foundation.

工程师进行了测试，以测量建筑基础中的结构传播噪声 structure borne noise 的水平。

2.After installing the new HVAC system, we noticed a significant reduction in structure borne noise 结构传播噪声 throughout the office.

安装新空调系统后，我们注意到办公室内的结构传播噪声 structure borne noise 显著减少。

3.The design team focused on reducing structure borne noise 结构传播噪声 by using special insulation materials.

设计团队专注于通过使用特殊的隔音材料来减少结构传播噪声 structure borne noise。

4.Manufacturers must consider structure borne noise 结构传播噪声 when designing machinery to ensure it meets noise regulations.

制造商在设计机器时必须考虑结构传播噪声 structure borne noise，以确保其符合噪声法规。

5.In residential areas, structure borne noise 结构传播噪声 from nearby trains can disturb the peace of the residents.

在住宅区，附近火车产生的结构传播噪声 structure borne noise 会打扰居民的宁静。

作文

In modern architecture and construction, one of the significant challenges faced is the management of noise. Among the various types of noise that can affect our living and working environments, structure borne noise plays a crucial role. This term refers to the sound that travels through solid materials, such as walls, floors, and ceilings, rather than through the air. Understanding structure borne noise is essential for architects, engineers, and builders who aim to create spaces that are not only aesthetically pleasing but also acoustically comfortable.The sources of structure borne noise can be diverse, ranging from footfalls on upper floors to the vibrations caused by machinery or plumbing systems. For instance, when someone walks on a hardwood floor, the impact creates vibrations that travel through the structure of the building. These vibrations can be heard in rooms below, leading to disturbances that may affect the comfort and productivity of the occupants. Additionally, equipment such as elevators, HVAC systems, and even washing machines can generate structure borne noise that permeates through the building's framework.To mitigate the effects of structure borne noise, various strategies can be employed during the design and construction phases. One effective approach is the use of sound insulation materials. These materials can be incorporated into walls, floors, and ceilings to absorb vibrations and reduce the transmission of noise. For example, resilient channels can be installed in wall assemblies to decouple the drywall from the framing, which helps to minimize the transfer of sound. Similarly, floating floors can be utilized to create a barrier that dampens vibrations from foot traffic or heavy machinery.Another strategy involves careful planning of the layout within a building. By placing noisy equipment away from quiet areas, such as bedrooms or study rooms, architects can help to reduce the impact of structure borne noise. Furthermore, creating buffer zones with additional walls or sound-absorbing materials can also aid in diminishing the transmission of noise between different spaces.Moreover, understanding the frequency range of structure borne noise is important in addressing it effectively. Low-frequency vibrations, often produced by heavy machinery, can be particularly challenging to control. These frequencies tend to travel further and penetrate through building materials more easily, making them harder to mitigate. Therefore, employing specialized vibration isolation techniques can be beneficial in reducing the impact of low-frequency structure borne noise.In conclusion, structure borne noise is an important consideration in the field of architecture and construction. By recognizing the sources and implications of this type of noise, professionals can implement effective solutions to enhance the acoustic quality of buildings. Through the use of sound insulation materials, thoughtful spatial planning, and targeted vibration isolation techniques, we can create environments that promote peace and productivity. As urbanization continues to rise and more people live in close proximity to one another, addressing structure borne noise will become increasingly vital for ensuring a high quality of life in our built environments.

在现代建筑和施工中，面临的一个重大挑战是噪音管理。在影响我们生活和工作环境的各种噪音类型中，结构传导噪声起着至关重要的作用。这个术语指的是通过固体材料（如墙壁、地板和天花板）而不是通过空气传播的声音。理解结构传导噪声对于那些旨在创造既美观又声学舒适空间的建筑师、工程师和建筑商来说至关重要。结构传导噪声的来源可以是多种多样的，从上层楼面的脚步声到机械或管道系统引起的振动。例如，当某人在硬木地板上行走时，冲击会产生通过建筑物结构传播的振动。这些振动可能会在下面的房间中被听到，导致干扰，可能影响居住者的舒适度和生产力。此外，电梯、暖通空调系统甚至洗衣机等设备也可能产生结构传导噪声，渗透到建筑的框架中。为了减轻结构传导噪声的影响，可以在设计和施工阶段采用各种策略。一种有效的方法是使用隔音材料。这些材料可以被纳入墙壁、地板和天花板中，以吸收振动并减少噪音的传播。例如，可以在墙体组合中安装弹性通道，以使干墙与框架隔离，从而有助于最小化声音的传递。同样，浮动地板可以用于创建一个屏障，减少来自脚步声或重型机械的振动。另一种策略涉及对建筑内部布局的仔细规划。通过将嘈杂的设备放置在远离安静区域（如卧室或书房）的位置，建筑师可以帮助减少结构传导噪声的影响。此外，创建带有额外墙壁或吸音材料的缓冲区也可以有助于减少不同空间之间噪音的传播。此外，了解结构传导噪声的频率范围在有效应对它时也很重要。低频振动，通常由重型机械产生，可能特别难以控制。这些频率往往传播得更远，并且更容易穿透建筑材料，因此更难以减轻。因此，采用专门的振动隔离技术可能有助于减少低频结构传导噪声的影响。总之，结构传导噪声是建筑和施工领域的重要考虑因素。通过认识到这种噪音的来源和影响，专业人员可以实施有效的解决方案，以增强建筑的声学质量。通过使用隔音材料、周到的空间规划和针对性的振动隔离技术，我们可以创造出促进和平与生产力的环境。随着城市化的持续上升，越来越多的人生活在彼此接近的地方，解决结构传导噪声将变得愈加重要，以确保我们建筑环境中的高生活质量。