acoustical resistance

简明释义

声阻

英英释义

例句

1.The research focused on materials that offer high acoustical resistance for soundproofing applications.

研究集中在提供高声学阻抗的材料用于隔音应用。

2.In order to improve voice clarity, the studio was treated with materials that enhance acoustical resistance.

为了提高语音清晰度，录音室采用了增强声学阻抗的材料进行处理。

3.The design of the concert hall focused on increasing the acoustical resistance to ensure clear sound quality.

音乐厅的设计侧重于提高声学阻抗以确保音质清晰。

4.The walls of the room were constructed to provide maximum acoustical resistance against external noise.

房间的墙壁被建造得尽可能提供最大的声学阻抗以抵御外部噪音。

5.Understanding acoustical resistance is crucial for architects designing performance spaces.

理解声学阻抗对设计表演空间的建筑师至关重要。

作文

Understanding the concept of acoustical resistance is crucial for anyone involved in fields related to sound and acoustics. This term refers to the measure of how much a material resists the flow of sound energy through it. In simpler terms, it indicates how well a material can absorb or transmit sound waves. The importance of acoustical resistance is evident in various applications, including architectural design, audio engineering, and environmental noise control.In architectural design, for example, the choice of materials can significantly affect the acoustics of a space. For instance, a concert hall requires materials with high acoustical resistance to enhance sound quality and clarity. Such materials prevent sound reflections that could distort the music being played. On the other hand, a recording studio might benefit from materials with varying levels of acoustical resistance to create an ideal environment for capturing sound without unwanted echoes.In audio engineering, understanding acoustical resistance helps engineers design better microphones and speakers. By selecting materials with appropriate resistance properties, they can ensure that sound is transmitted clearly without distortion. This is particularly important in live sound settings where clarity and quality are paramount.Moreover, acoustical resistance plays a vital role in environmental noise control. Urban planners and engineers often use sound-absorbing materials to mitigate noise pollution in busy city areas. By implementing structures with high acoustical resistance, they can significantly reduce the impact of traffic noise, construction sounds, and other disturbances on residential areas.To further understand acoustical resistance, it is essential to consider its relationship with other acoustic properties, such as acoustical reactance and sound absorption coefficients. While acoustical resistance measures the opposition to sound energy flow, acoustical reactance relates to the storage of sound energy in a material. Together, these properties help define how sound interacts with different surfaces.In practical terms, measuring acoustical resistance involves using specific instruments that assess how sound waves travel through materials. This data is invaluable for researchers and professionals aiming to improve sound quality in various environments. For instance, by analyzing the acoustical resistance of different wall materials, one can determine which options would be most effective for soundproofing a room.In summary, acoustical resistance is a fundamental concept in the study of acoustics that influences many aspects of sound management. Whether in designing spaces for optimal sound quality, engineering audio equipment, or controlling environmental noise, understanding this property allows professionals to make informed decisions that enhance auditory experiences. As we continue to develop our built environments and technologies, the significance of acoustical resistance will only grow, making it an essential area of study for future innovations in sound design and engineering.

理解声学阻抗的概念对于任何涉及声音和声学领域的人来说都至关重要。这个术语指的是材料抵抗声能流动的能力。简单来说，它表示材料吸收或传递声波的效果。声学阻抗的重要性在于其在建筑设计、音频工程和环境噪声控制等多个应用中的显现。例如，在建筑设计中，材料的选择会显著影响空间的声学效果。例如，一个音乐厅需要具有高声学阻抗的材料，以增强声音质量和清晰度。这类材料可以防止声音反射，从而避免扭曲正在演奏的音乐。另一方面，录音室可能会受益于不同程度的声学阻抗材料，以创造一个理想的环境，捕捉声音而不产生不必要的回声。在音频工程中，理解声学阻抗帮助工程师设计更好的麦克风和扬声器。通过选择具有适当阻抗特性的材料，他们可以确保声音清晰地传输而不失真。这在现场声音设置中尤为重要，因为清晰度和质量至关重要。此外，声学阻抗在环境噪声控制中也发挥着重要作用。城市规划者和工程师通常使用吸声材料来减轻繁忙城市地区的噪声污染。通过实施具有高声学阻抗的结构，他们可以显著减少交通噪声、施工声音和其他干扰对居民区的影响。为了进一步理解声学阻抗，必须考虑其与其他声学特性的关系，例如声学反应和声吸收系数。虽然声学阻抗测量声能流动的阻力，但声学反应则与材料中声能的存储有关。这些特性共同定义了声音如何与不同表面相互作用。在实际操作中，测量声学阻抗涉及使用特定仪器评估声波通过材料的传播。这些数据对研究人员和专业人士改善各种环境中的声音质量至关重要。例如，通过分析不同墙体材料的声学阻抗，可以确定哪些选项最有效地进行隔音。总之，声学阻抗是声学研究中的基本概念，影响声音管理的许多方面。无论是在设计最佳声音质量的空间、工程音频设备，还是控制环境噪声，理解这一特性使专业人士能够做出明智的决策，从而提升听觉体验。随着我们继续发展我们的建筑环境和技术，声学阻抗的重要性只会增加，使其成为未来声音设计和工程创新研究的一个重要领域。