membrane forming type bond braker

简明释义

粘结制止膜形成剂

英英释义

例句

1.For effective insulation, the technician applied a membrane forming type bond breaker before installing the vapor barrier.

为了有效隔热，技术人员在安装防潮层之前涂抹了膜形成型断裂剂。

2.The manufacturer recommends a membrane forming type bond breaker for use with their silicone sealants.

制造商建议与他们的硅胶密封剂一起使用膜形成型断裂剂。

3.The new adhesive uses a membrane forming type bond breaker to ensure easy removal of components after assembly.

这种新型粘合剂使用膜形成型断裂剂，以确保在组装后可以轻松拆卸部件。

4.In construction, applying a membrane forming type bond breaker can prevent concrete from sticking to the formwork.

在建筑中，涂抹膜形成型断裂剂可以防止混凝土粘附在模板上。

5.Using a membrane forming type bond breaker helps in achieving a clean surface finish on the final product.

使用膜形成型断裂剂有助于在最终产品上达到光滑的表面效果。

作文

In the field of material science, understanding the interactions between different substances is crucial for developing innovative products. One such interaction involves the concept of a bond breaker. Specifically, the term membrane forming type bond braker refers to a category of materials that can disrupt or weaken adhesive bonds by forming a barrier layer. This barrier can be essential in various applications, including coatings, sealants, and adhesives. When we talk about a membrane forming type bond braker, we are essentially discussing a substance that can create a thin film or membrane on a surface. This film acts as a physical barrier that prevents direct contact between two surfaces that might otherwise adhere to each other. The significance of this property cannot be overstated, especially in industries where the ability to control adhesion is vital. For example, in the automotive industry, manufacturers often use adhesives to bond different components together. However, there are situations where it is necessary to disassemble these components for maintenance or repair. In such cases, using a membrane forming type bond braker can facilitate easier disassembly without damaging the parts involved. The membrane allows for a temporary bond that can be easily broken when required, thus enhancing the longevity and serviceability of automotive components. Furthermore, in construction, a membrane forming type bond braker can be employed to prevent unwanted adhesion between concrete and formwork. By applying a membrane-forming agent to the formwork, builders can ensure that the concrete does not stick to the mold, allowing for a smoother release after curing. This not only saves time but also reduces the risk of damaging the concrete structure during removal. Additionally, the use of membrane forming type bond braker materials extends into the realm of electronics. In electronic packaging, these materials can help prevent solder from adhering to undesired areas during manufacturing processes. This is particularly important for ensuring the reliability and performance of electronic devices, as any unintended adhesion could lead to failures or defects. The versatility of membrane forming type bond braker materials makes them invaluable across various sectors. Researchers are continually exploring new formulations and applications for these substances, aiming to enhance their effectiveness and broaden their uses. For instance, advancements in polymer chemistry have led to the development of more efficient bond breakers that can perform under extreme conditions, such as high temperatures or corrosive environments. In conclusion, the concept of a membrane forming type bond braker plays a pivotal role in modern material science and engineering. Its ability to form a protective barrier that disrupts undesirable adhesion opens up new possibilities in numerous applications, from automotive to construction and electronics. As technology continues to evolve, the significance of these materials will likely grow, leading to even more innovative solutions that improve product performance and longevity.

在材料科学领域，理解不同物质之间的相互作用对于开发创新产品至关重要。其中一种相互作用涉及到断裂剂的概念。具体来说，术语膜形成型断裂剂指的是一类能够通过形成屏障层来破坏或削弱粘合键的材料。这种屏障在涂料、密封剂和粘合剂等各种应用中都是必不可少的。当我们谈到膜形成型断裂剂时，我们实际上是在讨论一种能够在表面上形成薄膜或膜的物质。这层膜作为物理屏障，防止两个本可能相互粘附的表面直接接触。这一特性的意义不容小觑，特别是在需要控制粘附的行业中。例如，在汽车工业中，制造商通常使用粘合剂将不同的组件粘合在一起。然而，在某些情况下，有必要拆卸这些组件以进行维护或修理。在这种情况下，使用膜形成型断裂剂可以方便地进行更简单的拆卸，而不会损坏所涉及的部件。这层膜允许形成一个临时的粘合，能够在需要时轻松打破，从而增强汽车组件的耐用性和可维护性。此外，在建筑中，膜形成型断裂剂可以用于防止混凝土与模板之间的不必要粘附。通过在模板上涂抹膜形成剂，建筑工人可以确保混凝土不会粘附在模具上，从而在固化后实现更顺利的释放。这不仅节省时间，还减少了在拆卸过程中损坏混凝土结构的风险。此外，膜形成型断裂剂材料的使用还扩展到电子领域。在电子包装中，这些材料可以帮助防止焊料在制造过程中粘附到不希望的区域。这一点尤为重要，因为任何意外的粘附都可能导致故障或缺陷，从而影响电子设备的可靠性和性能。膜形成型断裂剂材料的多功能性使其在各个行业中都显得不可或缺。研究人员不断探索这些物质的新配方和应用，旨在提高其有效性并拓宽其用途。例如，聚合物化学的进步导致开发出在极端条件下（如高温或腐蚀环境）表现更好的断裂剂。总之，膜形成型断裂剂的概念在现代材料科学和工程中发挥着关键作用。其形成保护屏障以破坏不必要粘附的能力为众多应用开辟了新的可能性，从汽车到建筑和电子产品。随着技术的不断发展，这些材料的重要性可能会进一步增长，从而带来更多创新的解决方案，改善产品性能和耐用性。