thermal beam

简明释义

热中子束

英英释义

例句

1.In the laboratory, the thermal beam helped in analyzing the heat distribution in materials.

在实验室中，热束帮助分析材料中的热分布。

2.Using a thermal beam, researchers can detect heat signatures from various objects.

研究人员可以使用热束检测各种物体的热信号。

3.The scientists used a thermal beam to measure the temperature of the distant star.

科学家们使用了一束热束来测量遥远星星的温度。

4.The thermal beam technology is crucial for night vision devices.

热束技术对夜视设备至关重要。

5.The engineer designed a device that utilizes a thermal beam for efficient heating.

工程师设计了一种利用热束进行高效加热的设备。

作文

In the realm of physics and engineering, the concept of a thermal beam (热束) plays a crucial role in various applications, particularly in the fields of energy transfer and material processing. A thermal beam refers to a stream of thermal energy that is directed towards a specific target, allowing for controlled heating or cooling processes. This phenomenon can be observed in numerous technologies, including lasers, infrared heaters, and even in natural occurrences such as sunlight warming the Earth’s surface.One of the most significant applications of a thermal beam (热束) is in the field of laser technology. Lasers emit highly focused beams of light that can also carry thermal energy. When directed onto a material, the thermal beam can cause localized heating, which is essential in processes like cutting, welding, and engraving. For example, in industrial settings, laser cutting machines utilize a thermal beam to slice through metals with precision, making it an invaluable tool in manufacturing.Moreover, thermal beams (热束) are not limited to artificial sources; they are also present in nature. The sun emits a vast amount of energy in the form of light and heat. When this energy reaches the Earth, it can be considered as a natural thermal beam. This solar energy is harnessed in solar panels, where it is converted into electricity, demonstrating how understanding thermal beams can lead to innovative renewable energy solutions.In addition to energy generation, thermal beams (热束) are also utilized in climate control systems. For instance, infrared heaters operate by emitting a thermal beam that warms up objects and people in a room rather than just the air. This method of heating is often more efficient and comfortable, highlighting the importance of thermal beams in everyday life.Furthermore, researchers are exploring the potential of thermal beams (热束) in advanced materials science. By using focused thermal beams, scientists can manipulate materials at the microscopic level, enabling the creation of new composites and nanomaterials with unique properties. This area of study could lead to breakthroughs in electronics, medicine, and environmental technology.Despite their many advantages, working with thermal beams (热束) also comes with challenges. Safety is a primary concern, especially when dealing with high-intensity lasers or other concentrated heat sources. Protective measures must be in place to prevent accidental exposure, which can lead to severe burns or damage to eyesight. Therefore, understanding the properties and behaviors of thermal beams is essential for ensuring safe and effective use in various applications.In conclusion, the concept of a thermal beam (热束) encompasses a wide range of phenomena and applications. From industrial manufacturing to renewable energy and advanced materials research, thermal beams play a pivotal role in modern technology. As we continue to explore their potential, it is crucial to prioritize safety and innovation, ensuring that the benefits of thermal beams can be harnessed effectively for the betterment of society.

在物理和工程领域，热束的概念在各种应用中发挥着至关重要的作用，特别是在能量传输和材料加工领域。热束（thermal beam）是指定向传递到特定目标的热能流，使得加热或冷却过程可控。这一现象可以在许多技术中观察到，包括激光、红外加热器，甚至在自然现象中，如阳光温暖地球表面。热束（thermal beam）的一个重要应用是在激光技术领域。激光发出高度集中的光束，也能携带热能。当指向材料时，热束可以导致局部加热，这在切割、焊接和雕刻等过程中至关重要。例如，在工业环境中，激光切割机利用热束精确切割金属，使其成为制造业中不可或缺的工具。此外，热束（thermal beam）不仅限于人工来源；它们也存在于自然界中。太阳以光和热的形式发出大量能量。当这些能量到达地球时，可以视为自然的热束。这种太阳能在太阳能电池板中被利用，转化为电力，展示了理解热束如何能够推动创新的可再生能源解决方案。除了能源生成，热束（thermal beam）还用于气候控制系统。例如，红外加热器通过发出热束来加热房间内的物体和人，而不仅仅是空气。这种加热方法通常更高效、更舒适，突显了热束在日常生活中的重要性。此外，研究人员正在探索热束（thermal beam）在先进材料科学中的潜力。通过使用集中热束，科学家可以在微观层面操纵材料，从而创造具有独特性质的新复合材料和纳米材料。这一研究领域可能会导致电子学、医学和环境技术方面的突破。尽管有许多优点，但与热束（thermal beam）一起工作也面临挑战。安全是主要关注点，特别是在处理高强度激光或其他集中热源时。必须采取保护措施，以防止意外暴露，这可能导致严重烧伤或视力损害。因此，理解热束的属性和行为对于确保在各种应用中的安全和有效使用至关重要。总之，热束（thermal beam）的概念涵盖了广泛的现象和应用。从工业制造到可再生能源和先进材料研究，热束在现代技术中发挥着关键作用。随着我们继续探索它们的潜力，优先考虑安全和创新至关重要，确保能够有效利用热束的好处，为社会的进步做出贡献。