cuprammonium process

简明释义

铜氨法

英英释义

例句

1.During the cuprammonium process, cellulose is treated with copper and ammonia to create a viscous solution.

在氨铜法过程中，纤维素与铜和氨反应，形成粘稠的溶液。

2.The textile industry often utilizes the cuprammonium process to produce high-quality regenerated cellulose fibers.

纺织行业经常利用氨铜法生产高质量的再生纤维素纤维。

3.Researchers are exploring improvements to the cuprammonium process to reduce environmental impact.

研究人员正在探索改进氨铜法以减少对环境的影响。

4.The efficiency of the cuprammonium process can significantly influence the cost of production in fiber manufacturing.

氨铜法的效率可以显著影响纤维制造的生产成本。

5.The cuprammonium process is known for its ability to dissolve cellulose effectively.

氨铜法因其有效溶解纤维素的能力而闻名。

作文

The textile industry has undergone significant transformations over the years, particularly with the advent of innovative processes that enhance the quality and versatility of fabrics. One such process is the cuprammonium process, a method that has revolutionized the production of regenerated cellulose fibers. This technique involves dissolving cellulose in a solution of copper ammonium hydroxide, allowing for the creation of fibers that possess unique properties and applications.To understand the cuprammonium process, it is essential to delve into its historical context. Developed in the late 19th century, this process was initially used to produce a type of fiber known as cupro. The innovation provided an alternative to natural fibers like cotton and silk, offering similar qualities while being more affordable and easier to produce on a large scale. The cuprammonium process quickly gained popularity due to its ability to create soft, lustrous, and breathable fabrics that appealed to both manufacturers and consumers.One of the most notable advantages of the cuprammonium process is its ability to produce fibers that are highly absorbent and dyeable. The resulting cupro fibers can easily take on vibrant colors, making them ideal for fashion and home textiles. Additionally, the process allows for the creation of lightweight fabrics that drape beautifully, which is particularly desirable in high-end fashion. Designers often favor cupro for its silk-like feel, which provides a luxurious touch to garments without the high cost associated with silk.However, the cuprammonium process is not without its challenges. The use of copper in the process raises environmental concerns, as improper disposal of waste can lead to pollution. In response to these concerns, researchers and manufacturers are exploring more sustainable practices and alternatives that minimize the ecological impact of the production process. Innovations in recycling technologies and the development of closed-loop systems are promising steps towards a more environmentally friendly approach to fabric production.Moreover, the cuprammonium process has implications beyond textiles. The fibers produced through this method have found applications in various fields, including medical and industrial uses. For instance, cupro fibers are utilized in the production of surgical sutures and wound dressings due to their biocompatibility and biodegradability. This versatility highlights the importance of the cuprammonium process in advancing not only fashion but also functional materials that benefit society.In conclusion, the cuprammonium process represents a significant advancement in the textile industry, offering a sustainable and versatile alternative to traditional fibers. As the demand for eco-friendly materials continues to rise, the ongoing development of this process will likely play a crucial role in shaping the future of fabric production. By balancing innovation with environmental responsibility, the cuprammonium process stands as a testament to the potential for technology to create solutions that meet the needs of both consumers and the planet.

纺织行业经历了多年的重大变革，特别是随着创新工艺的出现，这些工艺提高了面料的质量和多样性。其中一个重要的工艺是氨基铜法，这种方法彻底改变了再生纤维素纤维的生产。该技术涉及将纤维素溶解在氨基铜氢氧化物溶液中，从而创造出具有独特特性和应用的纤维。要理解氨基铜法，必须深入了解其历史背景。该工艺于19世纪末开发，最初用于生产一种称为杯罗的纤维。这项创新提供了一种替代天然纤维（如棉花和丝绸）的选择，提供了类似的品质，同时更实惠，更易于大规模生产。由于能够创造出柔软、光泽感强且透气的面料，氨基铜法迅速受到了制造商和消费者的欢迎。氨基铜法最显著的优势之一是其能够生产高度吸湿和可染色的纤维。所产生的杯罗纤维可以轻松吸收鲜艳的颜色，使其成为时尚和家用纺织品的理想选择。此外，该工艺还允许生产轻便的面料，优雅地垂坠，这在高端时尚中尤为受欢迎。设计师常常青睐杯罗，因为它具有丝绸般的手感，为服装提供了奢华的触感，而无需与丝绸相关的高成本。然而，氨基铜法并非没有挑战。该工艺中使用的铜引发了环境问题，因为废物的不当处置可能导致污染。对此，研究人员和制造商正在探索更可持续的实践和替代方案，以最小化生产过程对生态的影响。回收技术的创新和封闭循环系统的发展是朝着更环保的面料生产方法迈出的有希望的步骤。此外，氨基铜法不仅在纺织品中具有重要意义。通过此方法生产的纤维在各个领域都有应用，包括医疗和工业用途。例如，由于其生物相容性和生物降解性，杯罗纤维被用于生产外科缝合线和伤口敷料。这种多功能性突显了氨基铜法在推动时尚和有益社会的功能材料方面的重要性。总之，氨基铜法代表了纺织行业的一项重要进步，提供了一种可持续和多功能的替代传统纤维的选择。随着对环保材料需求的不断增长，这一工艺的持续发展可能在塑造未来面料生产方面发挥关键作用。通过平衡创新与环境责任，氨基铜法证明了技术创造满足消费者和地球需求的解决方案的潜力。