incomplete fusion

简明释义

未焊透

英英释义

例句

1.The analysis revealed that incomplete fusion (不完全融合) was a critical factor in the failure of the component.

分析显示，不完全融合是组件故障的关键因素。

2.The technician noted that the incomplete fusion (不完全融合) could be attributed to insufficient heat during the process.

技术员指出，不完全融合可能是由于过程中的热量不足造成的。

3.During the manufacturing process, incomplete fusion (不完全融合) can lead to structural weaknesses in the final product.

在制造过程中，不完全融合可能导致最终产品的结构弱点。

4.To improve the quality of the weld, it is essential to avoid incomplete fusion (不完全融合).

为了提高焊接质量，必须避免不完全融合。

5.The experiment showed that the sample had undergone incomplete fusion (不完全融合), resulting in uneven material properties.

实验表明样品经历了不完全融合，导致材料性能不均匀。

作文

In the realm of science and technology, the concept of fusion is often celebrated for its promise of creating new materials and energy sources. However, not all fusion processes achieve their intended results, leading to what is known as incomplete fusion. This term refers to a situation where the fusion process does not fully combine the elements or compounds involved, resulting in a product that may lack the desired properties or characteristics. Understanding incomplete fusion is crucial for scientists and engineers as they strive to improve processes in fields such as nuclear physics, materials science, and even culinary arts.To illustrate the importance of this concept, let’s consider the field of nuclear fusion. Scientists have long pursued the goal of harnessing the power of the sun by replicating its fusion processes on Earth. The ideal outcome would be a clean, nearly limitless source of energy. However, achieving complete fusion is incredibly challenging. When conditions are not optimal, the result can be incomplete fusion, where only a fraction of the fuel is converted into energy. This inefficiency not only limits the energy output but also poses safety risks, as the leftover materials can become radioactive waste.Similarly, in materials science, incomplete fusion can occur during the manufacturing of composite materials. For example, when fibers are not fully integrated with a resin, the final product may exhibit weaknesses that compromise its structural integrity. Engineers must be vigilant in monitoring the fusion process to ensure that all components are thoroughly combined, as any oversight can lead to catastrophic failures in applications like aerospace or civil engineering.Even in the culinary world, incomplete fusion can have significant implications. When preparing certain dishes, chefs aim to achieve a harmonious blend of flavors and textures. If ingredients do not fuse completely—say, in a sauce or a dough—the final dish may taste unbalanced or have an undesirable texture. Chefs often experiment with techniques to enhance the fusion process, recognizing that incomplete fusion can detract from the overall dining experience.The consequences of incomplete fusion extend beyond specific fields; they highlight a broader theme of striving for perfection in any endeavor. Whether in scientific research, engineering design, or culinary arts, the pursuit of complete fusion symbolizes a commitment to quality and excellence. It encourages professionals to refine their techniques, invest in better technologies, and continuously seek improvement.In conclusion, incomplete fusion serves as a reminder of the complexities inherent in various processes across disciplines. By understanding and addressing the factors that contribute to incomplete fusion, we can enhance our practices and achieve more effective outcomes. As we continue to explore the potential of fusion in all its forms, let us remain mindful of the lessons learned from instances of incomplete fusion, using them as stepping stones toward greater innovation and success.

在科学和技术领域，融合的概念常常因其创造新材料和能源的潜力而受到赞扬。然而，并非所有的融合过程都能达到预期的结果，这就导致了所谓的不完全融合。这个术语指的是一种情况，其中融合过程没有完全结合所涉及的元素或化合物，导致最终产品可能缺乏所需的特性或特征。理解不完全融合对科学家和工程师至关重要，因为他们努力改善核物理、材料科学甚至烹饪艺术等领域的过程。为了说明这一概念的重要性，让我们考虑核融合领域。科学家们长期以来一直追求通过在地球上复制太阳的融合过程来利用太阳的能量。理想的结果将是一个干净、几乎无限的能源来源。然而，实现完全融合是极具挑战性的。当条件不理想时，结果可能是不完全融合，其中只有一小部分燃料被转化为能量。这种低效不仅限制了能量输出，还带来了安全风险，因为剩余材料可能变成放射性废物。类似地，在材料科学中，制造复合材料时也可能发生不完全融合。例如，当纤维未能与树脂完全结合时，最终产品可能会表现出削弱其结构完整性的缺陷。工程师必须密切监测融合过程，以确保所有组件充分结合，因为任何疏忽都可能导致航空航天或土木工程等应用中的灾难性故障。即使在烹饪世界中，不完全融合也可能产生重要影响。在准备某些菜肴时，厨师旨在实现风味和质地的和谐融合。如果配料没有完全融合——比如在酱汁或面团中——最终的菜肴可能味道不均衡或有不愉快的质地。厨师们常常尝试各种技术来增强融合过程，因为他们认识到不完全融合可能会削弱整体用餐体验。不完全融合的后果超越了特定领域；它突显了在任何努力中追求完美的更广泛主题。无论是在科学研究、工程设计还是烹饪艺术中，追求完全融合象征着对质量和卓越的承诺。它鼓励专业人士完善他们的技术，投资更好的技术，并不断寻求改进。总之，不完全融合提醒我们各种学科过程中固有的复杂性。通过理解和解决导致不完全融合的因素，我们可以增强我们的实践并实现更有效的结果。当我们继续探索所有形式的融合潜力时，让我们时刻铭记从不完全融合实例中获得的教训，将其作为通往更大创新和成功的垫脚石。