bimetal
简明释义
n. 双金属材料;双金属器件
adj. 双金属的;复本位制的(等于 bimetallic)
英英释义
单词用法
双金属带 |
同义词
反义词
例句
1.The aluminium base bearing alloy with rare earths is studied in this paper, which recommends making alloy, coating aluminium and rolling technology of bimetal.
本文介绍了稀土铝基轴承合金的研制,合金包铝及复合轧制工艺。
2.The surface cracks of the bimetal strip sawblade was investigated in the paper.
对双金属带锯条表面裂纹的形成原因进行了分析。
3.The capabilities of Fe0, Ni-Fe bimetal and Cu-Fe bimetal for reductive dechlorination of tetrachloroethylene(PCE)were studied.
研究了零价铁、镍-铁和铜-铁双金属对四氯乙烯(PCE)的还原性脱氯性能。
4.When these metals are connected, bimetal couples are created and one metal corrodes with respect to the other.
当这些金属相连时,就形成了双金属电偶对,其中一种金属相对于另一种金属就被腐蚀了。
5.KSD301 snap action thermostat is small-size bimetal thermostat series with a metal cap, which belongs to thermal relays' family.
KSD301系列突跳式温控器是小型双金属片温控器,属温度继电器类器件。
6.At the preset temperature level the bimetal element is switching.
在预设的温度水平,双金属元件进行切换。
7.Three typical AlSi bimetal driving membrane structures are analyzed in this paper.
对三种典型的铝硅双金属驱动膜片结构进行了有限元分析。
8.The liquid phase sintering process of steel based carbide - iron bimetal composite was researched.
研究了液相烧结钢结硬质合金-铁双层复合材料的生产工艺。
9.Ni/Fe and Cu/Fe bimetal were used to dechlorinate tetrachloroethene(PCE).
选用镍/铁和铜/铁双金属对四氯乙烯(PCE)进行脱氯试验 。
10.Many cooking utensils feature a bimetal 双金属 base for better heat distribution.
许多烹饪器具采用bimetal 双金属底座,以实现更好的热量分布。
11.In the thermostat, the bimetal 双金属 element expands and contracts with temperature changes.
在恒温器中,bimetal 双金属元件随着温度变化而膨胀和收缩。
12.A bimetal 双金属 thermometer is often used in laboratories for precise temperature readings.
实验室中常用bimetal 双金属温度计进行精确的温度测量。
13.The watchmaker used a bimetal 双金属 disc to ensure the watch's accuracy over time.
钟表匠使用了一个bimetal 双金属圆盘,以确保手表的准确性。
14.The engineer designed a temperature sensor using a bimetal 双金属 strip to measure heat accurately.
工程师设计了一种温度传感器,使用了一个bimetal 双金属条来准确测量热量。
作文
The concept of bimetal (双金属) is an intriguing one that plays a significant role in various engineering applications. Essentially, bimetal refers to a material composed of two different metals that are bonded together. This combination allows for unique properties that neither metal could achieve on its own. For instance, when two metals with different coefficients of thermal expansion are joined, they will bend or curve in response to temperature changes. This principle is widely utilized in the manufacturing of thermostats and other temperature-sensing devices.One of the most common examples of bimetal technology is found in the bimetallic strip. A bimetallic strip consists of two strips of different metals, such as steel and copper, which are fused together. When heated, the strip bends towards the metal with the lower coefficient of thermal expansion. This bending action can be harnessed to operate switches or triggers in various devices, making it a crucial component in many household appliances, such as ovens and heating systems.Moreover, the advantages of using bimetal materials extend beyond just thermal applications. In the field of construction, bimetal components are used to enhance the strength and durability of structures. For example, a bimetal pipe may have a layer of corrosion-resistant metal on the outside and a stronger metal on the inside, thus combining the best properties of both materials. This approach not only improves the lifespan of the pipes but also reduces maintenance costs over time.In addition to practical applications, the study of bimetal materials opens up new avenues for research and innovation. Scientists and engineers continuously explore the possibilities of creating new bimetal combinations to achieve desired characteristics in various products. The ongoing development of advanced bimetal alloys has the potential to revolutionize industries, from aerospace to electronics.Furthermore, understanding the principles behind bimetal technology can lead to more sustainable practices. By utilizing bimetal materials, manufacturers can reduce waste and energy consumption. For example, in the automotive industry, bimetal components can help improve fuel efficiency by optimizing engine performance and reducing weight.In conclusion, the significance of bimetal (双金属) materials cannot be overstated. Their unique properties allow for innovative solutions across various fields, from household appliances to large-scale industrial applications. As technology continues to advance, the exploration of bimetal combinations will likely yield even more exciting developments, paving the way for a future where efficiency and sustainability go hand in hand. Understanding bimetal technology is essential for anyone interested in the fields of engineering and materials science, as it represents a foundational concept that drives innovation and progress.
双金属的概念是一个引人入胜的主题,在各种工程应用中发挥着重要作用。基本上,双金属指的是由两种不同金属结合而成的材料。这种组合允许实现单一金属无法达到的独特性质。例如,当两个具有不同热膨胀系数的金属结合在一起时,它们会在温度变化时弯曲或曲折。这一原理广泛应用于温控器和其他温度传感设备的制造。双金属技术最常见的例子可以在双金属条中找到。双金属条由两条不同金属(如钢和铜)组成,这些金属被结合在一起。当加热时,条状物会向着热膨胀系数较低的金属弯曲。这种弯曲动作可以用于操作开关或触发器,成为许多家用电器(如烤箱和供暖系统)的关键组件。此外,使用双金属材料的优势不仅限于热应用。在建筑领域,双金属组件用于增强结构的强度和耐久性。例如,双金属管道可能在外层使用耐腐蚀金属,而内层则使用更强的金属,从而结合两种材料的最佳特性。这种方法不仅提高了管道的使用寿命,还减少了长期的维护成本。除了实际应用外,研究双金属材料的过程也为研究和创新开辟了新的途径。科学家和工程师不断探索创造新的双金属组合以实现各种产品所需特性的可能性。先进的双金属合金的持续开发有潜力彻底改变从航空航天到电子产品的各个行业。此外,理解双金属技术背后的原理可以引导更可持续的实践。通过利用双金属材料,制造商可以减少浪费和能源消耗。例如,在汽车工业中,双金属组件可以通过优化发动机性能和减少重量来帮助提高燃油效率。总之,双金属材料的重要性不容小觑。它们的独特性质为各种领域提供了创新解决方案,从家用电器到大规模工业应用。随着技术的不断进步,对双金属组合的探索可能会带来更加激动人心的发展,为一个效率与可持续性并存的未来铺平道路。理解双金属技术对于任何对工程和材料科学感兴趣的人来说都是至关重要的,因为它代表了推动创新和进步的基础概念。
