v groove isolation polycrystal backfill

简明释义

v 型隔离槽的多晶硅填充

英英释义

例句

1.The construction team decided to use v groove isolation polycrystal backfill for its superior thermal properties.

施工团队决定使用V型槽隔离多晶体回填，因为它具有优越的热性能。

2.In the lab, we tested the effectiveness of v groove isolation polycrystal backfill in reducing noise transmission.

在实验室，我们测试了V型槽隔离多晶体回填在减少噪音传播方面的有效性。

3.The v groove isolation polycrystal backfill was chosen for its durability in extreme weather conditions.

由于在极端天气条件下的耐用性，选择了V型槽隔离多晶体回填。

4.The engineers recommended v groove isolation polycrystal backfill for the new foundation to enhance stability.

工程师建议在新基础上使用V型槽隔离多晶体回填以增强稳定性。

5.During the project, the team faced challenges with the v groove isolation polycrystal backfill material handling.

在项目过程中，团队在处理V型槽隔离多晶体回填材料时遇到了挑战。

作文

In the field of material science and engineering, the term v groove isolation polycrystal backfill refers to a specific technique used to enhance the structural integrity and performance of materials. This method primarily involves the use of polycrystalline materials, which consist of numerous small crystals or grains, to fill in the spaces within a V-shaped groove. The V-groove itself is designed to provide effective isolation from external stresses and environmental factors. By employing this technique, engineers can significantly improve the durability and reliability of various structures, especially in applications where mechanical strength is crucial.The concept of v groove isolation polycrystal backfill can be understood better by examining its components. The 'V groove' is a geometrical shape that allows for optimal load distribution and minimizes stress concentration. It is often used in mechanical designs where components must fit together tightly while allowing for some degree of thermal expansion or contraction. The isolation provided by the V groove is essential in preventing the propagation of cracks and failures that could compromise the integrity of the entire structure.On the other hand, 'polycrystal backfill' refers to the filling material that consists of multiple crystalline structures. Polycrystalline materials have unique properties that make them suitable for various engineering applications. They tend to exhibit improved mechanical properties compared to their single-crystal counterparts, such as higher toughness and resistance to fracture. By using polycrystalline backfill in conjunction with the V groove isolation, engineers can create a composite structure that is not only strong but also resilient to various forms of mechanical and thermal stress.One of the primary advantages of utilizing v groove isolation polycrystal backfill is its ability to enhance the performance of electronic devices. In the semiconductor industry, for instance, the reliability of chips and other components is paramount. The use of V grooves in the design of these components helps to isolate sensitive areas from potential damage caused by thermal cycling or mechanical vibrations. The polycrystalline backfill serves as a buffer, absorbing shocks and distributing forces evenly across the structure.Moreover, the application of v groove isolation polycrystal backfill extends beyond electronics. It is also prevalent in the construction industry, particularly in the creation of reinforced concrete structures. Engineers often employ this technique to improve the load-bearing capacity of beams and columns. By strategically placing V grooves and filling them with polycrystalline materials, they can achieve a more robust and stable structure that can withstand various environmental conditions.In conclusion, the term v groove isolation polycrystal backfill encapsulates a sophisticated engineering approach that combines geometric design with advanced material properties. This method not only enhances the mechanical performance of structures but also contributes to their longevity and reliability. As technology continues to advance, the importance of such innovative techniques will only grow, paving the way for stronger and more efficient engineering solutions across various industries.

在材料科学和工程领域，术语v groove isolation polycrystal backfill指的是一种特定的技术，用于增强材料的结构完整性和性能。这种方法主要涉及使用多晶材料，这些材料由无数小晶体或晶粒组成，以填充V形槽内的空间。V形槽本身旨在有效隔离外部应力和环境因素。通过采用这种技术，工程师可以显著提高各种结构的耐用性和可靠性，特别是在机械强度至关重要的应用中。v groove isolation polycrystal backfill的概念可以通过检查其组成部分来更好地理解。“V形槽”是一种几何形状，可以实现最佳载荷分布并最小化应力集中。它通常用于机械设计中，其中组件必须紧密配合，同时允许一定程度的热膨胀或收缩。V形槽提供的隔离对于防止裂纹和故障的传播至关重要，这可能会危及整个结构的完整性。另一方面，“polycrystal backfill”指的是由多个晶体结构组成的填充材料。多晶材料具有独特的性质，使其适用于各种工程应用。与单晶材料相比，它们往往表现出更好的机械性能，例如更高的韧性和抗断裂能力。通过将多晶填充材料与V形槽隔离结合使用，工程师可以创建一种复合结构，不仅强大，而且对各种形式的机械和热应力具有韧性。利用v groove isolation polycrystal backfill的主要优势之一是其提升电子设备性能的能力。例如，在半导体行业，芯片和其他组件的可靠性至关重要。在这些组件的设计中使用V形槽有助于将敏感区域与热循环或机械振动造成的潜在损害隔离开来。多晶填充材料作为缓冲，吸收冲击并均匀分布结构上的力量。此外，v groove isolation polycrystal backfill的应用不仅限于电子产品。它在建筑行业也很常见，特别是在加固混凝土结构的创建中。工程师经常采用这种技术来提高梁和柱的承载能力。通过战略性地放置V形槽并用多晶材料填充它们，他们可以实现更强大、更稳定的结构，能够承受各种环境条件。总之，术语v groove isolation polycrystal backfill涵盖了一种复杂的工程方法，该方法将几何设计与先进的材料特性相结合。这种方法不仅增强了结构的机械性能，还促进了其耐久性和可靠性。随着科技的不断进步，这种创新技术的重要性只会增加，为各个行业提供更强大、更高效的工程解决方案。