bakelite board
简明释义
胶木板
英英释义
例句
1.The engineer used a bakelite board to create a durable base for the circuit.
工程师使用了一个酚醛塑料板来为电路创建一个耐用的基础。
2.In our electronics lab, we often work with bakelite boards for prototyping.
在我们的电子实验室,我们经常使用酚醛塑料板进行原型设计。
3.The artist chose a bakelite board for her mixed media project because of its smooth surface.
艺术家选择了酚醛塑料板作为她混合媒介项目的材料,因为它的表面光滑。
4.The vintage radio was restored using a new bakelite board to replace the old one.
复古收音机使用新的酚醛塑料板替换旧板进行了修复。
5.For safety reasons, the electrician made sure to use a bakelite board as an insulator.
出于安全原因,电工确保使用酚醛塑料板作为绝缘体。
作文
In the realm of materials science and engineering, the term bakelite board refers to a type of synthetic resin known for its durability and electrical insulating properties. Invented in the early 20th century by Belgian chemist Leo Baekeland, bakelite was one of the first plastics made from synthetic components. The bakelite board is essentially a sheet or panel made from this material, which has found applications in various fields due to its unique characteristics. One of the most remarkable features of the bakelite board is its resistance to heat and chemicals. This makes it an ideal choice for use in electrical applications, where insulation and safety are paramount. For instance, in the manufacturing of electrical appliances, bakelite boards are often used as insulators to prevent short circuits and protect users from electric shocks. The ability of bakelite to withstand high temperatures without deforming or melting ensures that it remains a reliable material in these contexts.Moreover, the aesthetic appeal of bakelite boards cannot be overlooked. They can be produced in a variety of colors and finishes, making them suitable for decorative purposes as well. In the mid-20th century, bakelite became popular in the design of household items, jewelry, and even furniture. The glossy finish of a bakelite board can enhance the visual appeal of products, attracting consumers who appreciate both functionality and style.The manufacturing process of bakelite boards involves molding the resin into sheets, which can then be cut and shaped into desired forms. This versatility allows designers and engineers to create custom components tailored to specific needs. For example, in the field of automotive engineering, bakelite boards are used in dashboards and other interior parts where both durability and aesthetics are important.However, it is essential to consider the environmental impact of using synthetic materials like bakelite. While the durability of bakelite boards means they can last for decades, their production and disposal raise concerns regarding sustainability. As society moves towards more eco-friendly practices, there is a growing emphasis on recycling and finding alternatives to traditional plastics. Researchers are exploring biodegradable materials that can offer similar properties without the environmental drawbacks associated with bakelite.In conclusion, the bakelite board is a significant material in modern engineering and design, celebrated for its durability, aesthetic qualities, and versatility. While it has played a crucial role in various industries, it also prompts discussions about sustainability and the future of materials science. Understanding the characteristics and implications of using bakelite boards is vital for anyone involved in engineering, design, or environmental studies. As we continue to innovate, finding a balance between utility and sustainability will be key to advancing our material choices in the years to come.
在材料科学和工程领域,术语酚醛板指的是一种合成树脂,以其耐用性和电绝缘特性而闻名。它是由比利时化学家里奥·贝克兰德在20世纪初发明的,酚醛是第一种由合成成分制成的塑料之一。酚醛板本质上是由这种材料制成的片状或面板,因其独特的特性而在各个领域得到了应用。酚醛板最显著的特点之一是其耐热和耐化学腐蚀的能力。这使得它成为电气应用的理想选择,在这些应用中,绝缘和安全至关重要。例如,在电器制造中,酚醛板常被用作绝缘体,以防止短路并保护用户免受电击。酚醛能够承受高温而不变形或熔化的能力,确保其在这些环境中的可靠性。此外,酚醛板的美学吸引力也不容忽视。它们可以生产成各种颜色和表面处理,使其适用于装饰用途。在20世纪中叶,酚醛在家居用品、珠宝甚至家具的设计中变得流行。酚醛板的光泽表面可以增强产品的视觉吸引力,吸引那些同时重视功能和风格的消费者。酚醛板的制造过程涉及将树脂模压成薄板,然后可以切割和塑造成所需的形状。这种多功能性使设计师和工程师能够创建量身定制的组件,以满足特定需求。例如,在汽车工程领域,酚醛板被用于仪表盘和其他内部部件,这些部件在耐用性和美观性方面都很重要。然而,必须考虑使用合成材料如酚醛的环境影响。尽管酚醛板的耐用性意味着它们可以使用几十年,但其生产和处置引发了可持续性方面的担忧。随着社会向更环保的做法迈进,人们越来越重视回收利用和寻找传统塑料的替代品。研究人员正在探索可生物降解的材料,这些材料可以提供类似的特性,而没有与酚醛相关的环境缺陷。总之,酚醛板在现代工程和设计中是一种重要材料,以其耐用性、美学特性和多功能性而受到赞誉。虽然它在各个行业中发挥了关键作用,但它也引发了有关可持续性和材料科学未来的讨论。理解使用酚醛板的特性和影响对于任何参与工程、设计或环境研究的人来说都是至关重要的。随着我们不断创新,在实用性和可持续性之间找到平衡将是未来材料选择发展的关键。
