distortion strength

简明释义

变形强度

英英释义

例句

1.To reduce noise in the signal, we need to lower the distortion strength in the circuit.

为了减少信号中的噪声，我们需要降低电路中的失真强度。

2.In this graphic design software, you can manipulate the distortion strength to create unique visual effects.

在这个图形设计软件中，您可以操控失真强度来创造独特的视觉效果。

3.The audio engineer adjusted the distortion strength to achieve a warmer sound in the recording.

音频工程师调整了失真强度，以在录音中获得更温暖的声音。

4.The guitar pedal allows users to customize the distortion strength for different music styles.

这款吉他踏板允许用户为不同的音乐风格自定义失真强度。

5.The artist experimented with various distortion strength settings to find the perfect balance in her painting.

艺术家尝试了各种失真强度设置，以找到她画作中的完美平衡。

作文

In the realm of physics and engineering, the concept of distortion strength plays a critical role in understanding how materials respond to external forces. Distortion strength, or the ability of a material to withstand deformation under stress, is essential for ensuring the structural integrity of various applications, from buildings to bridges and even everyday objects. When engineers design structures, they must consider not only the materials used but also their distortion strength to predict how these materials will behave under different conditions.To illustrate the importance of distortion strength, let us consider the construction of a bridge. Engineers must analyze the materials that will be used, such as steel and concrete, to determine their distortion strength. If the materials have insufficient distortion strength, the bridge may sag or even collapse under the weight of vehicles and environmental factors like wind and earthquakes. Therefore, understanding the distortion strength of materials is crucial for safety and longevity.Moreover, distortion strength is not only relevant in large-scale constructions but also in everyday items. For example, when designing a smartphone, manufacturers must ensure that the materials used in the casing have adequate distortion strength to resist bending and cracking during regular use. A phone with low distortion strength would be more susceptible to damage, leading to higher costs for consumers and manufacturers alike.The measurement of distortion strength typically involves various tests, including tensile tests and compression tests, which assess how much a material can stretch or compress before failing. These tests provide valuable data that engineers can use to select appropriate materials for specific applications, ensuring that the final product meets safety standards and performance requirements.Furthermore, advancements in materials science have led to the development of new materials with enhanced distortion strength. For instance, composite materials, which combine different substances, can offer superior distortion strength compared to traditional materials. This innovation allows for lighter, stronger, and more durable products, revolutionizing industries such as aerospace, automotive, and construction.In conclusion, the concept of distortion strength is fundamental in both engineering and everyday life. It influences the design and functionality of countless products and structures around us. By understanding and applying the principles of distortion strength, we can create safer, more efficient, and longer-lasting materials that enhance our quality of life. As technology continues to evolve, the importance of distortion strength will only grow, paving the way for innovative solutions to meet the challenges of the future.

在物理和工程领域，失真强度的概念在理解材料如何响应外部力量方面起着至关重要的作用。失真强度，或材料在应力下承受变形的能力，对于确保各种应用的结构完整性至关重要，从建筑物到桥梁以及日常物品。当工程师设计结构时，他们必须考虑所使用的材料及其失真强度，以预测这些材料在不同条件下的表现。为了说明失真强度的重要性，让我们考虑桥梁的建造。工程师必须分析将要使用的材料，如钢和混凝土，以确定它们的失真强度。如果材料的失真强度不足，桥梁可能会因车辆和风、地震等环境因素的重量而下沉甚至坍塌。因此，了解材料的失真强度对于安全和耐久性至关重要。此外，失真强度不仅与大规模建筑相关，也与日常物品有关。例如，在设计智能手机时，制造商必须确保外壳中使用的材料具有足够的失真强度，以抵抗在正常使用过程中弯曲和破裂。具有低失真强度的手机更容易受到损坏，从而导致消费者和制造商的成本增加。失真强度的测量通常涉及各种测试，包括拉伸测试和压缩测试，这些测试评估材料在失效之前可以拉伸或压缩多少。这些测试提供了宝贵的数据，工程师可以利用这些数据选择适合特定应用的材料，确保最终产品符合安全标准和性能要求。此外，材料科学的进步导致开发出具有增强失真强度的新材料。例如，复合材料结合了不同的物质，可以比传统材料提供更优越的失真强度。这种创新使得更轻、更强和更耐用的产品成为可能，彻底改变了航空航天、汽车和建筑等行业。总之，失真强度的概念在工程和日常生活中都是基础。它影响着我们周围无数产品和结构的设计和功能。通过理解和应用失真强度的原理，我们可以创造出更安全、更高效和更持久的材料，提升我们的生活质量。随着技术的不断发展，失真强度的重要性只会增加，为应对未来的挑战铺平道路。