delaminating

简明释义

英[ˌdiːˈlæmɪneɪtɪŋ]美[ˈdeləmɪneɪtɪŋ]

n. 起鳞；脱层；剥离

v. 分层（delaminate 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.According to the principle of electrolysis and by using the method of differential electric potential, the apparatus can solve the problem of each layer delaminating from each other automatically.

该仪器根据电解剥离原理，采用微分电位法，解决了各层界面自动分层难题。

2.According to the principle of electrolysis and by using the method of differential electric potential, the apparatus can solve the problem of each layer delaminating from each other automatically.

该仪器根据电解剥离原理，采用微分电位法，解决了各层界面自动分层难题。

3.This equation may not only be used to forecast delaminating damage load on relevant test samples, but also can be applied on GFRP steel reinforced concrete beam analysis and design.

此公式不仅可以用来预测相关试件的剥离破坏荷载，还可以用于GFRP加固钢筋混凝土梁的分析和设计。

4.According to analyze metal microstructure, chemical composition and gas content in the steel, we discuss the delaminating phenomenon of hot-rolling strips and give out the reason.

采用金相检验、化学分析等方法，对热轧镇静带钢出现的分层情况进行了探讨。

5.The engineer discovered that the composite material was delaminating due to improper curing.

工程师发现复合材料由于固化不当而出现分层现象。

6.During the inspection, we found that the paint on the wall was delaminating from the surface.

在检查中，我们发现墙上的油漆正在从表面脱落。

7.The boat's hull showed signs of delaminating, which could lead to serious structural issues.

船体显示出分层的迹象，这可能导致严重的结构问题。

8.They had to replace the flooring because it was delaminating after years of water exposure.

由于多年的水浸泡，地板出现了分层现象，他们不得不更换它。

9.The manufacturer issued a recall for the product after reports of delaminating components.

在收到关于组件分层的报告后，制造商发出了召回通知。

作文

In the world of materials science and engineering, understanding the properties and behaviors of different materials is crucial. One phenomenon that can significantly affect the performance and longevity of composite materials is delaminating. This term refers to the process where layers of a material begin to separate or come apart. In many applications, especially in aerospace and automotive industries, delaminating can lead to catastrophic failures if not addressed properly. Composite materials are often made up of multiple layers, each serving a specific purpose. For instance, in a typical carbon fiber reinforced polymer (CFRP), the outer layers may provide strength and durability, while inner layers may offer flexibility and resistance to environmental factors. However, when delaminating occurs, the integrity of the entire structure can be compromised. This separation can be caused by various factors such as excessive stress, moisture intrusion, or manufacturing defects. To illustrate the impact of delaminating, consider an aircraft wing made from composite materials. The wing is designed to withstand immense aerodynamic forces during flight. If delaminating occurs due to a manufacturing flaw or damage from impacts, the wing's ability to bear loads can be severely diminished. This not only poses safety risks but also leads to costly repairs and maintenance. Engineers must, therefore, be vigilant in designing and testing materials to prevent delaminating. Preventive measures include thorough quality control during the manufacturing process and regular inspections of composite structures. Advanced techniques such as ultrasonic testing and thermography can help detect early signs of delaminating before they escalate into more significant issues. By identifying these weaknesses early, engineers can address them proactively, ensuring that the materials perform as intended throughout their lifecycle. Moreover, research into new composite materials aims to enhance resistance to delaminating. Innovations in adhesive technologies and layering techniques can lead to stronger bonds between layers, minimizing the risk of separation. As the demand for lightweight and high-performance materials continues to grow, addressing delaminating becomes increasingly important. In conclusion, delaminating is a critical concern in the field of materials science, particularly for composite materials used in high-stakes applications like aerospace and automotive industries. Understanding the causes and implications of delaminating allows engineers to develop better materials and implement effective preventive measures. As technology advances, it is essential to continue researching ways to combat delaminating, ensuring the safety and reliability of modern engineering solutions. Overall, recognizing the significance of delaminating not only aids in the design of safer structures but also contributes to the advancement of materials technology, paving the way for innovations that can withstand the test of time and environmental challenges.

在材料科学和工程的世界中，理解不同材料的性质和行为至关重要。一种可能显著影响复合材料性能和耐久性的现象是分层剥离。这个术语指的是材料的层开始分离或脱落的过程。在许多应用中，特别是在航空航天和汽车工业中，如果不正确处理，分层剥离可能导致灾难性的故障。 复合材料通常由多层组成，每一层都有特定的用途。例如，在典型的碳纤维增强聚合物（CFRP）中，外层可能提供强度和耐用性，而内层则可能提供灵活性和环境因素的抵抗力。然而，当发生分层剥离时，整个结构的完整性可能会受到损害。这种分离可能由各种因素引起，例如过度应力、湿气侵入或制造缺陷。 为了说明分层剥离的影响，考虑一个由复合材料制成的飞机机翼。机翼设计用于承受飞行中的巨大空气动力学力量。如果由于制造缺陷或冲击造成分层剥离，机翼承载负荷的能力可能会严重下降。这不仅带来了安全风险，还导致昂贵的维修和保养。因此，工程师必须在设计和测试材料时对防止分层剥离保持警惕。 预防措施包括在制造过程中进行彻底的质量控制以及定期检查复合结构。先进的技术，如超声波检测和热成像，可以帮助早期发现分层剥离的迹象，以便在问题升级之前解决它们。通过及早识别这些弱点，工程师可以主动解决它们，确保材料在其生命周期内按预期表现。 此外，对新复合材料的研究旨在增强对分层剥离的抵抗力。粘合技术和分层技术的创新可以导致层之间更强的结合，最小化分离的风险。随着对轻量级和高性能材料需求的持续增长，解决分层剥离变得越来越重要。 总之，分层剥离是材料科学领域中的一个关键问题，特别是对于用于航空航天和汽车工业等高风险应用的复合材料。理解分层剥离的原因和影响使工程师能够开发更好的材料并实施有效的预防措施。随着技术的进步，继续研究对抗分层剥离的方法至关重要，以确保现代工程解决方案的安全性和可靠性。 总体而言，认识到分层剥离的重要性不仅有助于设计更安全的结构，还有助于推动材料技术的发展，为能够经受时间考验和环境挑战的创新铺平道路。