multilayer

简明释义

英[ˈmʌltɪleɪə(r)]美[ˌmʌltiˈleɪər]

adj. 有多层的

n. 多分子层

英英释义

单词用法

同义词

反义词

例句

1.Waveguide multilayer optical memory is a system founded on the new principle.

波导多层光盘存储系统是基于新原理的存储系统。

2.In certain productions, multilayer shells assembly is the key components. Multilayer shells are bonded by stickiness technology.

多层壳体组件是某产品中的关键零部件，它采用胶粘技术由各层壳体粘接而成。

3.Lead in solders for the soldering to machined through hole discoidal and planar array ceramic multilayer capacitors.

通孔盘状及平面阵列陶瓷多层电容器焊料所含的铅。

4.Somebody think he's just like a mouse in multilayer masks with the dream of swallowing a lion.

有人视他为一只想吞狮子的小老鼠，可他还带过千层面具。

5.As a goal or ideal, aim for multilayer audio at all times.

作为一种目标或理想，宗旨，为多层音频，无时不在。

6.In certain productions, multilayer shells assembly is the key components. Multilayer shells are bonded by stickiness technology.

多层壳体组件是某产品中的关键零部件，它采用胶粘技术由各层壳体粘接而成。

7.Black oxidation technology for copper in multilayer printed circuit board was introduced.

介绍了多层印制线路板内层铜墙表面的黑氧化技术。

8.Dye adsorption can be described by a multilayer adsorption isotherm curve.

染料吸附可以用多层吸附等温线来描述。

9.The packaging includes a multilayer 多层 barrier to keep the product fresh.

包装包括一个多层屏障，以保持产品的新鲜。

10.In geology, a multilayer 多层 soil profile can provide insights into environmental changes.

在地质学中，多层土壤剖面可以提供环境变化的见解。

11.We used a multilayer 多层 cake design for the wedding celebration.

我们为婚礼庆祝活动使用了多层蛋糕设计。

12.The new smartphone features a multilayer 多层 display for enhanced visual quality.

这款新智能手机采用了多层显示屏，以增强视觉质量。

13.The architect designed a building with a multilayer 多层 facade for aesthetic appeal.

建筑师设计了一座具有多层外立面的建筑，以提高美感。

作文

In the modern world, technology has evolved to a point where it permeates every aspect of our lives. One of the most significant advancements is the development of multilayer (多层) systems in various fields, including electronics, materials science, and even biology. These multilayer (多层) structures allow for enhanced functionality and improved performance, which are crucial in meeting the demands of today's fast-paced environment.Take, for example, the field of electronics. The concept of multilayer (多层) circuit boards has revolutionized the way electronic devices are designed and manufactured. Traditional single-layer circuit boards have limitations in terms of space and connectivity. However, with multilayer (多层) boards, multiple layers of conductive pathways can be integrated into a compact design, allowing for more complex circuits and reduced size. This innovation has enabled the production of smaller, more powerful devices such as smartphones and tablets, which are now essential tools in our everyday lives.In addition to electronics, the use of multilayer (多层) materials has also gained traction in construction and manufacturing. These materials often consist of different substances combined in layers to achieve desired properties, such as strength, insulation, and durability. For instance, multilayer (多层) insulation is commonly used in building construction to improve energy efficiency. By incorporating various insulating materials, builders can create walls that effectively reduce heat loss, contributing to energy savings and environmental sustainability.Furthermore, the concept of multilayer (多层) systems extends to biological applications as well. In biotechnology, researchers are exploring multilayer (多层) cell cultures to better understand cellular interactions and responses. These multilayer (多层) cultures mimic the natural environment of cells more closely than traditional two-dimensional cultures, providing more accurate data for experiments. This advancement could lead to breakthroughs in medical research and drug development, ultimately improving healthcare outcomes.The advantages of multilayer (多层) systems are not limited to their physical properties; they also provide opportunities for innovation and creativity. Designers and engineers are continually finding new ways to utilize multilayer (多层) structures to solve complex problems. For example, in the fashion industry, designers are experimenting with multilayer (多层) fabrics that combine different textures and colors, resulting in unique and visually striking garments. This trend reflects a shift towards more sustainable practices, as multilayer (多层) designs can reduce waste by utilizing leftover materials from previous collections.In conclusion, the concept of multilayer (多层) systems is transforming various industries and enhancing the way we live and work. From electronics to construction and biotechnology, the benefits of adopting multilayer (多层) structures are evident. As we continue to innovate and push the boundaries of technology, the importance of multilayer (多层) designs will only grow, paving the way for a more efficient and sustainable future. Embracing this approach will undoubtedly lead to new discoveries and advancements that can improve our quality of life and address some of the pressing challenges we face today.

在现代世界，科技发展到一个渗透我们生活各个方面的地步。最重要的进步之一是各种领域中multilayer（多层）系统的发展，包括电子学、材料科学甚至生物学。这些multilayer（多层）结构允许增强功能和改善性能，这在满足当今快节奏环境的需求中至关重要。以电子学领域为例。multilayer（多层）电路板的概念彻底改变了电子设备的设计和制造方式。传统的单层电路板在空间和连接性方面存在限制。然而，通过使用multilayer（多层）电路板，可以将多个导电路径的层集成到紧凑的设计中，从而允许更复杂的电路和减小尺寸。这一创新使得生产更小、更强大的设备成为可能，例如智能手机和平板电脑，这些设备如今已成为我们日常生活中的必需工具。除了电子学，multilayer（多层）材料的使用在建筑和制造业中也越来越受到关注。这些材料通常由不同的物质组合而成，以实现所需的特性，如强度、绝缘和耐用性。例如，multilayer（多层）绝缘材料通常用于建筑施工，以提高能源效率。通过结合各种绝缘材料，建筑商可以创建有效减少热损失的墙体，从而有助于节能和环境可持续性。此外，multilayer（多层）系统的概念还扩展到生物应用。在生物技术领域，研究人员正在探索multilayer（多层）细胞培养，以更好地理解细胞之间的相互作用和反应。这些multilayer（多层）培养比传统的二维培养更接近细胞的自然环境，提供了更准确的实验数据。这一进展可能导致医学研究和药物开发的突破，最终改善医疗结果。multilayer（多层）系统的优势不仅限于其物理特性；它们还提供了创新和创造力的机会。设计师和工程师不断寻找利用multilayer（多层）结构解决复杂问题的新方法。例如，在时尚行业，设计师正在尝试使用multilayer（多层）面料，结合不同的纹理和颜色，创造出独特而引人注目的服装。这一趋势反映了向更可持续实践的转变，因为multilayer（多层）设计可以通过利用先前系列的剩余材料来减少浪费。总之，multilayer（多层）系统的概念正在改变各个行业，并提升我们生活和工作的方式。从电子学到建筑和生物技术，采用multilayer（多层）结构的好处显而易见。随着我们继续创新并推动科技的边界，multilayer（多层）设计的重要性只会增加，为更高效和可持续的未来铺平道路。拥抱这种方法无疑会导致新的发现和进步，从而改善我们的生活质量，并解决我们今天面临的一些紧迫挑战。