composites
简明释义
n. 复合材料(composite 的复数);复合体;菊科植物
v. 使合成;使混合(composite 的三单形式)
英英释义
单词用法
复合材料 | |
组合结构;复合机构;混合结构 |
同义词
反义词
| 元素 | The elements of the compound are essential for its properties. | 该化合物的元素对其性质至关重要。 | |
| 单一物质 | In contrast to composites, singles can often be easier to analyze. | 与复合材料相比,单一物质通常更容易分析。 |
例句
1.One also may be implemented by using the services that are exposed by an SCA composite (composites are described later).
此外,也可使用SCA组合公开的服务加以实现(下文将介绍组合)。
2.Domain: Where contributions, composites, and nodes are configured.
域:在其中配置贡献包、组合和节点的范围。
3.The nanostructure of composites can also provide great mechanical strength in relatively light materials.
复合材料的纳米结构也能使较轻的材料具有很大机械强度。
4.TabFolders also contain multiple controls (typically, Composites), each one defining the contents of a tab.
TabFolders还包含多个控件(通常是 Composites),每个控件都定义了选项卡的一个内容。
5.It is here that you learn how to use composites, create gradients, draw reflections, and apply filters to images.
你在这一部分可以学到如何组合界面元素,建立色彩渐变,绘制图像的反射,以及给图像加上滤镜。
6.Composites often contain more than one control. These controls can be arranged in two ways.
复合控件常常包含多个控件。
7.Today, he holds a good-paying job at a high-tech composites factory housed inside a defunct Delphi auto parts plant.
如今,他在已经倒闭的德尔福汽车零部件公司的高技术复合材料工厂获得了一份好工作。
8.Carbon composites are extremely strong and light. They are already used in products ranging from tennis racquets to aircraft wings.
复合碳材料质轻而坚韧,已经在从网球拍到飞机机翼的广大范围内得到应用。
9.Listing 1 illustrates another difference between SWT and the JDK: Composites lack the add method from containers.
清单1展示了SWT与jdk之间的另一个区别:组合没有容器中的add方法。
10.Researchers are exploring new types of composites for medical applications.
研究人员正在探索用于医疗应用的新型复合材料。
11.Engineers often use composites to create lightweight structures for aircraft.
工程师们常常使用复合材料来制造飞机的轻质结构。
12.The construction industry is increasingly adopting composites for building bridges.
建筑行业越来越多地采用复合材料来建造桥梁。
13.Many sports equipment manufacturers are turning to composites to enhance performance.
许多运动器材制造商正在转向使用复合材料来提升性能。
14.The automotive sector utilizes composites to improve fuel efficiency.
汽车行业利用复合材料来提高燃油效率。
作文
In the modern world, the use of materials has evolved significantly, leading to the development of various innovative solutions for engineering and design challenges. One of the most fascinating advancements in material science is the creation of composites, which are materials made from two or more constituent materials with significantly different physical or chemical properties. When combined, these materials produce a composite material that exhibits unique characteristics not found in the individual components. For instance, a common example of composites is fiberglass, which is made from glass fibers embedded in a resin matrix. This combination results in a material that is both lightweight and strong, making it ideal for applications ranging from boat hulls to automotive parts.The advantages of using composites are numerous. They offer enhanced strength-to-weight ratios, improved durability, and resistance to corrosion and fatigue. These properties make composites particularly appealing in industries such as aerospace, automotive, and construction. For example, in the aerospace industry, the use of carbon fiber reinforced polymers has revolutionized aircraft design by reducing weight while maintaining structural integrity. This reduction in weight translates directly into fuel savings and improved performance, showcasing how composites can lead to more efficient and sustainable engineering solutions.Moreover, the versatility of composites allows for customization to meet specific needs. Engineers can manipulate the ratio of the constituent materials, the orientation of the fibers, and the type of matrix used to create a material tailored for particular applications. This level of customization is not achievable with traditional materials like metals or plastics, which often have fixed properties. As a result, composites have opened up new possibilities in product design and manufacturing, enabling the creation of innovative products that were previously thought impossible.However, despite their many benefits, the use of composites also presents challenges. The manufacturing processes for composites can be more complex and costly compared to traditional materials. Additionally, recycling composites poses significant environmental challenges, as many composite materials are not easily separable into their constituent parts. Researchers are actively exploring ways to develop more sustainable composite materials and recycling methods, aiming to minimize the environmental impact while retaining the benefits of composites.In conclusion, composites represent a remarkable advancement in material science, offering unique properties and advantages that enhance various industries. Their ability to combine different materials to create something greater than the sum of its parts is a testament to human ingenuity. As technology continues to advance, it is likely that we will see even more innovative uses for composites, paving the way for a more efficient and sustainable future. Understanding the potential and challenges of composites is crucial for engineers and designers as they strive to create the next generation of products and solutions that meet the demands of our evolving world.
在现代世界中,材料的使用发生了显著变化,导致了各种创新解决方案的发展,以应对工程和设计挑战。其中一个最引人注目的材料科学进展是复合材料的创建,这是一种由两种或多种具有显著不同物理或化学性质的成分材料制成的材料。当这些材料结合时,产生的复合材料表现出单个组件中不存在的独特特性。例如,复合材料的一个常见例子是玻璃纤维,它是由嵌入树脂基体中的玻璃纤维制成的。这种组合产生了一种既轻便又坚固的材料,使其非常适合用于从船体到汽车零件的应用。使用复合材料的优点有很多。它们提供增强的强度重量比、改善的耐用性以及对腐蚀和疲劳的抵抗力。这些特性使得复合材料在航空航天、汽车和建筑等行业特别受欢迎。例如,在航空航天行业,碳纤维增强聚合物的使用彻底改变了飞机设计,通过保持结构完整性来减少重量。这种重量减轻直接转化为燃料节省和性能提升,展示了复合材料如何导致更高效和可持续的工程解决方案。此外,复合材料的多功能性允许根据特定需求进行定制。工程师可以操控成分材料的比例、纤维的方向以及所使用基体的类型,以创建针对特定应用量身定制的材料。这种定制水平是传统材料(如金属或塑料)无法实现的,因为这些材料通常具有固定的属性。因此,复合材料开辟了产品设计和制造的新可能性,使得创造以前认为不可能的创新产品成为可能。然而,尽管有许多好处,使用复合材料也带来了挑战。与传统材料相比,复合材料的制造过程可能更加复杂和昂贵。此外,回收复合材料对环境造成重大挑战,因为许多复合材料不能轻易分离成其成分部分。研究人员正在积极探索开发更可持续的复合材料和回收方法,旨在在保留复合材料优点的同时,尽量减少对环境的影响。总之,复合材料代表了材料科学的显著进步,提供了独特的特性和优势,增强了各个行业。它们将不同材料结合在一起,创造出超过其部分总和的东西,是人类智慧的证明。随着技术的不断进步,我们很可能会看到复合材料的更多创新用途,为更高效和可持续的未来铺平道路。理解复合材料的潜力和挑战对工程师和设计师至关重要,因为他们努力创造下一代满足我们不断发展的世界需求的产品和解决方案。
