interlaminar

简明释义

英[ɪntəˈlæmənə(r)]美[ɪntərˈlæmənər]

adj. 层间的

英英释义

单词用法

同义词

反义词

例句

1.The results show that the treatment makes the interlaminar shear strength of the composite increased 17.5% and the linear ablation rate decreased 58.6%.

得出，该方法是提高复合材料层间剪切强度和抗烧蚀性能的有效方法，它可使层间剪切强度提高17．5 ％ ，线烧蚀率减小58．6 ％ 。

2.With the methods of the pre-heating before welding, controlling the interlaminar temperature and the heat treatment after welding, the welds that satisfy the quality specifications can be available.

通过焊前预热、层间温度控制及焊后热处理等手段获得了满足质量要求的焊缝。

3.With the methods of the pre-heating before welding, controlling the interlaminar temperature and the heat treatment after welding, the welds that satisfy the quality specifications can be available.

通过焊前预热、层间温度控制及焊后热处理等手段获得了满足质量要求的焊缝。

4.The three loading type are studied and analyzed, and calculated with finite element method for compressive stresses and interlaminar shear stresses distribution on 1-3 face.

本文对这三种加载形式进行了研究和分析，并用有限元素法计算了这三种加载形式在1—3面内的压应力和层剪应力的分布。

5.In the range of incident velocities near to the perforation limit velocity (V50), this mechanism depends on thickness and interlaminar shear strength of composite plate.

在接近穿孔极限速度的入射速度(V50)范围内，这一机制依赖于复合材料板的厚度和中间层剪切强度。

6.In order for the solution of the laminated plates and shells to ensure interlaminar continuity of the physical variables, the transfer matrix technique was used.

针对层合板壳问题，为了保证各层之间物理参量的连续性，进一步应用了状态转移矩阵技术。

7.It was concluded that the interlaminar tensile strength of the composite is dominated by the bonding strength of the interface between fiber and matrix, not by lay-up orientation.

结果表明：该复合材料层间拉伸强度较少受到铺层取向的影响，而由纤维与基体的界面结合强度所控制。

8.In this paper, the interlaminar stress distributions of symmetric composite laminates with a hole are predicted by the three-dimensional elastoplastic finite element method.

本文用三维弹塑性有限元法计算了含圆孔对称复合材料层板的层间应力分布。

9.The interlaminar region of the composite material plays a crucial role in its mechanical properties.

复合材料的层间区域在其机械性能中起着至关重要的作用。

10.In the study of spinal discs, the interlaminar space is essential for understanding biomechanics.

在脊椎盘的研究中，层间空间对于理解生物力学至关重要。

11.To improve durability, engineers focused on enhancing the interlaminar bonding in the laminate.

为了提高耐久性，工程师们专注于增强层压板中的层间粘合。

12.The researchers measured the shear strength in the interlaminar zones of the adhesive joints.

研究人员测量了粘接接头的层间区域的剪切强度。

13.The interlaminar thermal conductivity affects the overall heat transfer in multilayer systems.

层间热导率影响多层系统中的整体热传导。

作文

The term interlaminar refers to the space or area between layers, often used in various scientific and engineering contexts. Understanding this concept is crucial, especially in fields such as materials science, biomechanics, and structural engineering. In materials science, for instance, the interlaminar regions can significantly influence the mechanical properties of composite materials. These materials are made up of multiple layers, each contributing unique characteristics to the overall structure. When evaluating the strength and durability of these composites, the behavior of the interlaminar interfaces becomes a focal point of study.In biomechanics, the interlaminar spaces play a vital role in the functioning of biological tissues. For example, the interlaminar region in the spinal discs is critical for providing cushioning and flexibility to the spine. The health of these interlaminar areas can greatly affect an individual's mobility and overall well-being. Researchers often investigate how changes in the interlaminar structure due to injury or disease can lead to pain and dysfunction, highlighting the importance of this term in understanding human anatomy.Moreover, in structural engineering, the interlaminar characteristics of materials are essential for designing safe and effective structures. Engineers must consider how loads are distributed across different layers and how the interlaminar adhesion affects the overall stability of a building or bridge. Failure to account for the properties of the interlaminar regions can lead to catastrophic failures, making it a critical aspect of engineering design.Additionally, advancements in technology have allowed for improved analysis of interlaminar properties. Techniques such as scanning electron microscopy and atomic force microscopy enable scientists to visualize and measure the interlaminar spaces at microscopic levels. This enhanced understanding aids in the development of stronger, more resilient materials that can withstand various stresses and strains.In conclusion, the concept of interlaminar is multifaceted and significant across various disciplines. Whether in the context of composite materials, biological tissues, or structural engineering, the interlaminar regions are crucial in determining the performance and reliability of systems. By gaining a deeper understanding of this term, professionals in these fields can innovate and improve their practices, ultimately leading to better outcomes in both research and application. As we continue to explore the intricacies of interlaminar spaces, we pave the way for advancements that could revolutionize materials and structures, enhancing our quality of life and safety.

术语interlaminar指的是层与层之间的空间或区域，通常用于各种科学和工程领域。理解这个概念至关重要，尤其是在材料科学、生物力学和结构工程等领域。例如，在材料科学中，interlaminar区域可以显著影响复合材料的机械性能。这些材料由多层构成，每一层都对整体结构贡献独特的特性。在评估这些复合材料的强度和耐久性时，interlaminar界面的行为成为研究的重点。在生物力学中，interlaminar空间在生物组织的功能中发挥着重要作用。例如，脊椎间盘中的interlaminar区域对于为脊柱提供缓冲和灵活性至关重要。这些interlaminar区域的健康状况会极大影响个体的运动能力和整体健康。研究人员常常调查由于受伤或疾病导致的interlaminar结构变化如何导致疼痛和功能障碍，突显了这个术语在理解人体解剖学中的重要性。此外，在结构工程中，材料的interlaminar特性对于设计安全有效的结构至关重要。工程师必须考虑负载如何分布在不同层上，以及interlaminar粘附如何影响建筑或桥梁的整体稳定性。如果未能考虑interlaminar区域的特性，可能会导致灾难性的失败，这使其成为工程设计的关键方面。此外，技术的进步使得对interlaminar特性的分析得到了改善。扫描电子显微镜和原子力显微镜等技术使科学家能够在微观水平上可视化和测量interlaminar空间。这种增强的理解有助于开发更强大、更具韧性的材料，能够承受各种应力和变形。总之，interlaminar的概念在各个学科中都是多方面且重要的。无论是在复合材料、生物组织还是结构工程的背景下，interlaminar区域在决定系统的性能和可靠性方面都至关重要。通过深入理解这个术语，这些领域的专业人士可以创新和改善他们的实践，最终在研究和应用中实现更好的结果。随着我们继续探索interlaminar空间的复杂性，我们为可能革新材料和结构的进步铺平了道路，提升我们的生活质量和安全性。