ice resistance

简明释义

冰阻力

英英释义

例句

1.The construction of the bridge included materials with high ice resistance to withstand harsh winter conditions.

桥梁的建设采用了具有高抗冰能力的材料，以承受恶劣的冬季条件。

2.The new model of the boat features enhanced ice resistance to navigate through frozen waters safely.

新款船只具有增强的抗冰能力，可以安全地穿越冰冻水域。

3.When designing winter tires, manufacturers focus on ice resistance to ensure better traction on icy roads.

在设计冬季轮胎时，制造商专注于抗冰能力，以确保在冰冻道路上更好的抓地力。

4.The research team is testing new coatings that improve ice resistance for power lines in cold regions.

研究小组正在测试新的涂层，以提高寒冷地区电力线的抗冰能力。

5.For outdoor gear, ice resistance is a critical feature for climbers tackling frozen terrains.

对于户外装备来说，抗冰能力是攀登冰冻地形的登山者的关键特性。

作文

Ice resistance is a term that refers to the ability of materials or structures to withstand the forces exerted by ice. This concept is particularly important in engineering and construction, especially in regions that experience harsh winter conditions. For example, when designing bridges, buildings, or even ships that operate in icy waters, engineers must take into account the potential impact of ice accumulation and movement. The failure to consider ice resistance can lead to catastrophic structural failures, which can endanger lives and cause significant economic losses. In the context of maritime operations, ice resistance is crucial for ships navigating through polar regions. Ice can exert immense pressure on the hulls of vessels, and those designed for such environments must be built with materials that have high ice resistance. This often involves using reinforced steel and specialized hull designs that can break through ice rather than simply withstand it. The importance of ice resistance in shipbuilding cannot be overstated, as it directly influences the safety and efficiency of Arctic and Antarctic expeditions.Moreover, the concept of ice resistance extends beyond physical structures to include the design of equipment used in cold climates. For instance, machinery and vehicles operating in snowy environments need to be equipped with features that enhance their ice resistance. This may involve the use of special tires that provide better traction on icy surfaces or engines that are capable of functioning optimally in extremely low temperatures. In addition to engineering applications, ice resistance also has implications in sports. Athletes competing in winter sports, such as ice skating or skiing, rely on their equipment's ice resistance to perform at their best. Skates, for instance, are designed to glide smoothly over ice while maintaining enough grip to prevent falls. This balance is essential for both performance and safety. Research into improving ice resistance continues to be an important area of study. Scientists and engineers are constantly looking for new materials and technologies that can enhance ice resistance in various applications. Innovations such as anti-icing coatings and advanced insulation materials are being developed to help structures and vehicles better cope with ice-related challenges. In conclusion, ice resistance is a critical factor in many fields, from engineering and maritime operations to sports and research. Understanding and improving ice resistance can lead to safer structures, more efficient vehicles, and enhanced performance in winter sports. As climate change continues to affect weather patterns and ice conditions around the world, the importance of ice resistance will only grow, making it a vital area of focus for future innovations.

冰阻力是一个术语，指的是材料或结构抵御冰所施加的力量的能力。这个概念在工程和建筑中尤为重要，尤其是在经历严酷冬季条件的地区。例如，在设计桥梁、建筑物甚至在冰水中作业的船只时，工程师必须考虑冰的积累和运动可能造成的影响。未能考虑到冰阻力可能导致灾难性的结构失效，这可能危及生命并造成重大经济损失。在海事操作的背景下，冰阻力对于在极地地区航行的船只至关重要。冰可以对船体施加巨大的压力，专为此类环境设计的船只必须使用具有高冰阻力的材料。这通常涉及使用加固钢材和专门的船体设计，这些设计可以破冰而不是仅仅承受它。在船舶建造中，冰阻力的重要性不容小觑，因为它直接影响北极和南极探险的安全性和效率。此外，冰阻力的概念不仅限于物理结构，还包括在寒冷气候中使用的设备设计。例如，在雪地环境中运行的机械和车辆需要配备增强其冰阻力的特性。这可能涉及使用特殊轮胎，以便在冰面上提供更好的牵引力，或者能够在极低温度下正常运转的发动机。除了工程应用，冰阻力在体育方面也有影响。参加冬季运动的运动员，如滑冰或滑雪，依赖他们设备的冰阻力来发挥最佳水平。例如，滑冰鞋被设计成能够在冰面上平滑滑行，同时保持足够的抓地力以防止摔倒。这种平衡对于性能和安全至关重要。对提高冰阻力的研究仍然是一个重要的研究领域。科学家和工程师不断寻找新材料和技术，以增强各种应用中的冰阻力。例如，正在开发抗结冰涂层和先进绝缘材料，以帮助结构和车辆更好地应对与冰相关的挑战。总之，冰阻力在许多领域都是一个关键因素，从工程和海事操作到体育和研究。理解和改善冰阻力可以导致更安全的结构、更高效的车辆以及在冬季运动中的表现提升。随着气候变化继续影响全球的天气模式和冰情，冰阻力的重要性只会增加，使其成为未来创新的一个重要关注点。