thermal range

简明释义

热能区

英英释义

例句

1.Understanding the thermal range (热范围) is crucial for selecting the right materials for construction.

理解热范围（热范围）对选择合适的建筑材料至关重要。

2.Engineers must consider the thermal range (热范围) when designing components for aircraft.

工程师在设计飞机部件时必须考虑热范围（热范围）。

3.This paint is designed to perform well within a thermal range (热范围) of -20 to 120 degrees Celsius.

这种油漆旨在在-20到120摄氏度的热范围（热范围）内表现良好。

4.The thermal range (热范围) of this sensor allows it to operate in various weather conditions.

该传感器的热范围（热范围）使其能够在各种天气条件下工作。

5.The new material can withstand a wide thermal range (热范围), making it ideal for extreme environments.

这种新材料可以承受广泛的热范围（热范围），使其非常适合极端环境。

作文

Understanding the concept of thermal range is essential in various fields, including environmental science, engineering, and even everyday life. The term thermal range refers to the span of temperatures within which a particular material or organism can function effectively or survive. This concept plays a critical role in determining the suitability of materials for specific applications and understanding the habitats of different species.In environmental science, the thermal range of an ecosystem can dictate the types of flora and fauna that thrive in that area. For example, tropical rainforests have a narrow thermal range, typically remaining warm and humid throughout the year. This stable thermal environment allows a diverse array of species to flourish, as they have adapted to these specific temperature conditions. Conversely, polar regions exhibit a much broader thermal range, with extreme cold in winter and relatively mild temperatures in summer. Species living in these harsh climates have developed unique adaptations to survive the wide fluctuations in temperature.In engineering, understanding the thermal range of materials is crucial when designing products that will be exposed to varying temperatures. For instance, metals have specific thermal ranges where they maintain their structural integrity. Exceeding these limits can lead to failure, such as warping, cracking, or even melting. Engineers must consider the thermal range of materials when selecting components for machinery, vehicles, or buildings to ensure safety and durability.Moreover, in the context of climate change, the thermal range is becoming increasingly important. As global temperatures rise, many species are struggling to adapt to their changing environments. The thermal range that once supported their survival may no longer be viable. For example, coral reefs are highly sensitive to temperature changes, and even a slight increase in water temperature can lead to coral bleaching, disrupting entire marine ecosystems. Understanding the thermal range of these organisms helps researchers predict potential shifts in biodiversity and develop conservation strategies.Furthermore, the thermal range is also relevant in agriculture. Different crops have specific thermal ranges that determine their growth cycles and yield. Farmers must consider these ranges when planning planting and harvesting schedules. Climate change is altering these thermal ranges, leading to challenges in food production. By monitoring temperature patterns, farmers can make informed decisions to optimize their harvests and adapt to changing climatic conditions.In conclusion, the concept of thermal range is multifaceted and impacts various aspects of our world. From ecosystems to engineering and agriculture, understanding the thermal range helps us navigate the complexities of our environment and make informed decisions. As we face the challenges posed by climate change, recognizing and adapting to the shifting thermal ranges will be crucial for sustainability and survival. This awareness not only enhances our scientific knowledge but also fosters a deeper appreciation for the delicate balance of life on Earth.

理解热范围的概念在环境科学、工程学，甚至日常生活中都是至关重要的。术语热范围指的是特定材料或生物能够有效运作或生存的温度范围。这个概念在确定材料在特定应用中的适用性以及理解不同物种栖息地方面起着关键作用。在环境科学中，生态系统的热范围可以决定该区域内繁荣的植物和动物类型。例如，热带雨林的热范围较窄，通常在一年中保持温暖和潮湿。这种稳定的热环境使得多样化的物种能够繁茂，因为它们已经适应了这些特定的温度条件。相反，极地地区展现出更广泛的热范围，冬季极端寒冷，夏季相对温和。生活在这些恶劣气候中的物种已经发展出独特的适应能力，以在温度的广泛波动中生存。在工程领域，了解材料的热范围在设计将暴露于不同温度的产品时至关重要。例如，金属具有特定的热范围，在该范围内保持其结构完整性。超过这些限制可能导致失效，如变形、开裂甚至熔化。工程师在选择机器、车辆或建筑的组件时必须考虑材料的热范围，以确保安全和耐用性。此外，在气候变化的背景下，热范围变得越来越重要。随着全球气温上升，许多物种正在努力适应其不断变化的环境。曾经支持其生存的热范围可能不再可行。例如，珊瑚礁对温度变化非常敏感，即使水温略微上升也会导致珊瑚白化，破坏整个海洋生态系统。了解这些生物的热范围可以帮助研究人员预测生物多样性的潜在变化并制定保护策略。此外，热范围在农业中也具有相关性。不同作物具有特定的热范围，决定其生长周期和产量。农民在规划种植和收获时间表时必须考虑这些范围。气候变化正在改变这些热范围，给粮食生产带来挑战。通过监测温度模式，农民可以做出明智的决策，以优化他们的收成并适应不断变化的气候条件。总之，热范围的概念是多方面的，影响着我们世界的各个方面。从生态系统到工程和农业，理解热范围帮助我们应对环境的复杂性并做出明智的决策。面对气候变化带来的挑战，认识并适应变化的热范围对可持续性和生存至关重要。这种意识不仅增强了我们的科学知识，还加深了我们对地球上生命微妙平衡的欣赏。