architectural acoustics

简明释义

建筑声学

英英释义

例句

1.The use of sound-absorbing materials is crucial in enhancing architectural acoustics 建筑声学 in modern buildings.

使用吸音材料在提升现代建筑的建筑声学 建筑声学方面至关重要。

2.The concert hall was designed with excellent architectural acoustics 建筑声学 to ensure that every note could be heard clearly.

音乐厅的设计具有出色的建筑声学 建筑声学，确保每一个音符都能清晰地被听到。

3.Engineers often study architectural acoustics 建筑声学 when creating spaces for theaters and auditoriums.

工程师在为剧院和礼堂创建空间时，通常会研究建筑声学 建筑声学。

4.The architectural acoustics 建筑声学 of the new library allows for quiet study areas and group collaboration spaces.

新图书馆的建筑声学 建筑声学设计使得安静的学习区域和小组合作空间得以实现。

5.In urban planning, architectural acoustics 建筑声学 plays a vital role in reducing noise pollution.

在城市规划中，建筑声学 建筑声学在减少噪音污染方面发挥着至关重要的作用。

作文

The field of architectural acoustics plays a crucial role in the design and construction of buildings, particularly those intended for public gatherings such as concert halls, theaters, and auditoriums. Architectural acoustics refers to the science and engineering of achieving a good sound within a building. This involves understanding how sound waves travel, how they interact with different materials, and how to manipulate these factors to create an optimal auditory environment.One of the primary goals of architectural acoustics is to ensure that sound is distributed evenly throughout a space. In a concert hall, for instance, it is essential that every audience member can hear the performance clearly, regardless of their location. To achieve this, architects and acousticians must consider the shape of the room, the materials used in its construction, and the placement of sound-reflecting surfaces. For example, curved surfaces can help direct sound waves toward the audience, while soft materials may absorb sound and reduce echoes.Another important aspect of architectural acoustics is noise control. In urban environments, buildings are often subjected to external noise from traffic, construction, and other sources. Effective architectural acoustics can help mitigate these disturbances by incorporating soundproofing techniques and materials. For instance, double-glazed windows and insulated walls can significantly reduce the amount of noise that enters a building, creating a more peaceful interior.The study of architectural acoustics also involves the consideration of speech intelligibility. In spaces such as lecture halls and conference rooms, it is crucial that spoken words are easily understood by all attendees. This can be affected by various factors, including the size of the room, the arrangement of seating, and the presence of background noise. By applying principles of architectural acoustics, designers can create environments that enhance communication and minimize distractions.Moreover, advancements in technology have further enriched the field of architectural acoustics. Computer simulations and modeling software allow architects to visualize how sound will behave in a given space before it is built. This enables them to make informed decisions about design choices that will impact acoustics. Additionally, the use of sound measurement tools helps professionals assess the acoustic performance of a space and make necessary adjustments.In conclusion, architectural acoustics is an essential discipline that blends art and science to enhance our auditory experiences within built environments. Whether it is ensuring that a symphony is heard in all its glory or creating a quiet sanctuary amidst the hustle and bustle of city life, the principles of architectural acoustics are integral to the functionality and enjoyment of our spaces. As our understanding of sound continues to evolve, so too will the practices and innovations within architectural acoustics, paving the way for even more extraordinary auditory experiences in the future.

建筑声学领域在建筑设计和施工中发挥着至关重要的作用，尤其是那些旨在进行公众聚会的建筑，例如音乐厅、剧院和礼堂。建筑声学指的是在建筑物内实现良好声音的科学和工程。这涉及到理解声音波如何传播，如何与不同材料相互作用，以及如何操控这些因素以创造最佳的听觉环境。建筑声学的主要目标之一是确保声音在空间中的均匀分布。例如，在音乐厅中，每位观众无论身处何地都能清楚地听到表演是至关重要的。为了实现这一点，建筑师和声学家必须考虑房间的形状、所用材料以及声波反射表面的布置。例如，弯曲的表面可以帮助将声波引导到观众席，而柔软的材料可能会吸收声音并减少回声。建筑声学的另一个重要方面是噪声控制。在城市环境中，建筑物经常受到交通、施工和其他来源的外部噪声影响。有效的建筑声学可以通过结合隔音技术和材料来减轻这些干扰。例如，双层玻璃窗和绝缘墙可以显著减少进入建筑物的噪声，从而创造一个更宁静的室内环境。建筑声学的研究还涉及到语音清晰度的考虑。在讲座厅和会议室等空间中，确保所有与会者都能轻松理解所说的话至关重要。这可能会受到多种因素的影响，包括房间的大小、座位的安排以及背景噪声的存在。通过应用建筑声学的原理，设计师可以创建增强沟通并最小化干扰的环境。此外，科技的进步进一步丰富了建筑声学的领域。计算机模拟和建模软件使建筑师能够在建筑完成之前可视化声音在给定空间中的行为。这使他们能够就影响声学的设计选择做出明智的决策。此外，使用声音测量工具帮助专业人士评估空间的声学性能并进行必要的调整。总之，建筑声学是一个将艺术与科学相结合的基本学科，旨在增强我们在建筑环境中的听觉体验。无论是确保交响乐的壮丽声响被听到，还是在城市生活的喧嚣中创造一个宁静的避风港，建筑声学的原理对于我们空间的功能性和愉悦性都是不可或缺的。随着我们对声音的理解不断发展，建筑声学领域的实践和创新也将不断演变，为未来创造更非凡的听觉体验铺平道路。