airless injection

简明释义

无气喷射

英英释义

例句

1.The pharmaceutical company developed a new airless injection system to improve medication delivery.

制药公司开发了一种新的无气注射系统，以改善药物的输送。

2.Veterinarians often use airless injection techniques to minimize stress for animals during vaccinations.

兽医经常使用无气注射技术，以尽量减少动物在接种疫苗时的压力。

3.In cosmetic procedures, an airless injection can help deliver fillers without the discomfort of traditional methods.

在美容程序中，无气注射可以帮助无痛地注入填充剂，而不需要传统方法的疼痛感。

4.The airless injection method is particularly useful in areas with sensitive skin.

无气注射方法在敏感肌肤区域特别有效。

5.The dentist recommended using an airless injection for a more comfortable experience during the procedure.

牙医建议使用无气注射以便在治疗过程中获得更舒适的体验。

作文

In recent years, the field of manufacturing and production has seen significant advancements, particularly with the introduction of innovative technologies. One such technology that has gained attention is airless injection, a method that enhances the efficiency and quality of various products. This technique involves injecting materials without the presence of air, which can lead to several advantages over traditional injection methods. Understanding the implications of airless injection is essential for industries looking to improve their processes and output.The primary benefit of airless injection is the elimination of air bubbles during the injection process. In conventional injection molding, trapped air can create defects in the final product, leading to inconsistencies and reduced structural integrity. By utilizing airless injection, manufacturers can ensure a more uniform distribution of materials, resulting in higher-quality products that meet stringent industry standards.Moreover, airless injection allows for the use of a wider range of materials. Many polymers and composites require precise control over their injection conditions to achieve optimal performance. Traditional methods may not provide the necessary environment, while airless injection offers a controlled setting that can accommodate various material properties. This flexibility enables manufacturers to innovate and experiment with new formulations, ultimately leading to better products.Another significant advantage of airless injection is its impact on production speed. The absence of air in the injection process reduces cycle times, allowing for faster production rates. This efficiency is particularly beneficial in high-volume manufacturing settings where time is of the essence. Companies can produce more units in less time, reducing labor costs and increasing profitability.Furthermore, airless injection contributes to sustainability efforts within the manufacturing sector. By minimizing waste and optimizing material usage, this technique aligns with the growing demand for environmentally friendly practices. Manufacturers can reduce their carbon footprint while still delivering high-quality products, making airless injection an attractive option for companies committed to sustainability.Despite its numerous benefits, the implementation of airless injection does come with challenges. The initial investment in specialized equipment can be substantial, and not all manufacturers may have access to the necessary resources. Additionally, transitioning from traditional methods to airless injection may require training and adjustments in workflow, which can temporarily disrupt production. However, the long-term advantages often outweigh these initial hurdles, making it a worthwhile consideration for many businesses.In conclusion, airless injection represents a significant advancement in manufacturing technology, offering numerous benefits such as improved product quality, increased production speed, and enhanced sustainability. As industries continue to evolve and seek out innovative solutions, understanding and adopting airless injection could be a game-changer. Companies that embrace this technology will likely find themselves at the forefront of their respective markets, equipped to meet the demands of modern consumers and the challenges of a rapidly changing world.

近年来，制造和生产领域见证了显著的进步，尤其是创新技术的引入。其中一种备受关注的技术是无气注射，这是一种提高各种产品效率和质量的方法。这种技术涉及在没有空气存在的情况下注入材料，这相较于传统注射方法具有多个优点。理解无气注射的影响对于希望改善流程和产出的行业至关重要。无气注射的主要好处是消除注射过程中的气泡。在传统的注射成型中，被困的空气可能会在最终产品中产生缺陷，从而导致不一致性和结构完整性降低。通过利用无气注射，制造商可以确保材料的更均匀分布，从而生产出符合严格行业标准的高质量产品。此外，无气注射还允许使用更广泛的材料。许多聚合物和复合材料需要对其注射条件进行精确控制，以实现最佳性能。传统方法可能无法提供所需的环境，而无气注射则提供了一个可控的设置，可以适应各种材料特性。这种灵活性使制造商能够进行创新和实验新配方，最终生产出更好的产品。无气注射的另一个显著优势是其对生产速度的影响。在注射过程中没有空气的情况下，减少了周期时间，从而允许更快的生产速度。这种效率在高产量制造环境中尤为有利，因为时间至关重要。公司可以在更短的时间内生产更多的单位，从而降低劳动成本并增加盈利能力。此外，无气注射有助于制造行业的可持续发展努力。通过最小化废物和优化材料使用，这种技术与日益增长的环保实践需求相一致。制造商可以在交付高质量产品的同时减少碳足迹，使无气注射成为致力于可持续发展的公司的一个吸引人的选择。尽管有众多优点，但实施无气注射确实面临挑战。专用设备的初始投资可能相当可观，并且并非所有制造商都能获取必要的资源。此外，从传统方法过渡到无气注射可能需要培训和工作流程的调整，这可能会暂时干扰生产。然而，长期的优势往往超过这些初始障碍，使其成为许多企业值得考虑的选择。总之，无气注射代表了制造技术的一项重大进步，提供了许多好处，如改善产品质量、提高生产速度和增强可持续性。随着各行业不断发展并寻求创新解决方案，理解和采用无气注射可能会成为改变游戏规则的因素。那些拥抱这一技术的公司将可能发现自己处于各自市场的前沿，具备满足现代消费者需求和应对快速变化世界挑战的能力。