air lancing
简明释义
1. 气吹; 2. 风刺;
英英释义
例句
1.Using air lancing, the workers could quickly clear the blockages in the system.
工人们使用空气冲击可以快速清除系统中的堵塞。
2.The technician used air lancing to remove debris from the machinery.
技术员使用空气冲击清除机械中的碎屑。
3.During the maintenance, they applied air lancing to clean the engine parts more effectively.
在维护过程中,他们应用空气冲击更有效地清洁发动机部件。
4.The air lancing technique proved effective in removing stubborn stains from the surface.
这种空气冲击技术在去除表面顽固污渍方面证明了其有效性。
5.The team decided that air lancing would be the best method for cleaning the pipelines.
团队决定空气冲击将是清洁管道的最佳方法。
作文
In the realm of advanced manufacturing and industrial processes, innovative techniques are constantly being developed to enhance efficiency and precision. One such technique that has garnered attention is air lancing. This method involves using high-pressure air jets to clean, cool, or shape materials during various manufacturing processes. Understanding the implications and applications of air lancing can provide valuable insights into its significance in modern industry.The primary application of air lancing is in the cleaning of components in manufacturing settings. For instance, in the automotive industry, parts often accumulate debris, oil, and other contaminants during production. Traditional cleaning methods may not be effective in reaching all the intricate areas of a component. However, with air lancing, high-pressure air can be directed precisely to remove unwanted materials from even the most complex geometries. This ensures that the parts are clean and ready for subsequent processes, ultimately improving the quality of the final product.Moreover, air lancing plays a crucial role in cooling hot materials. During processes like welding or metal cutting, temperatures can rise significantly, potentially damaging the material or affecting its properties. By employing air lancing, manufacturers can introduce a stream of cool air to rapidly dissipate heat, thereby maintaining the integrity of the material. This cooling effect is essential not only for the safety of the operation but also for ensuring that the materials retain their desired characteristics.Another interesting application of air lancing is in shaping materials. In some cases, manufacturers may need to remove excess material or create specific contours on a surface. Traditional machining methods can be time-consuming and may produce waste. However, air lancing allows for a more efficient removal of material by utilizing the force of high-pressure air to achieve the desired shape without significant waste. This not only saves time but also reduces costs associated with material loss.The environmental benefits of air lancing cannot be overlooked either. As industries strive to reduce their carbon footprint and adopt more sustainable practices, air lancing offers a cleaner alternative to chemical-based cleaning agents. By relying on air pressure instead of harmful chemicals, manufacturers can minimize their impact on the environment and comply with increasingly stringent regulations regarding waste disposal and emissions.In conclusion, air lancing is a versatile and effective technique that has significant implications for modern manufacturing processes. From cleaning and cooling to shaping materials, its applications are diverse and beneficial. As industries continue to evolve, the adoption of innovative methods like air lancing will undoubtedly play a pivotal role in enhancing productivity while promoting sustainability. Understanding this technique not only highlights the advancements in manufacturing technology but also underscores the importance of continuous improvement in industrial practices.
在先进制造和工业流程的领域中,创新技术不断被开发出来,以提高效率和精确度。其中一种引起关注的技术是空气冲击。这种方法涉及使用高压空气喷射来清洁、冷却或塑造材料,在各种制造过程中。理解空气冲击的含义和应用可以为我们提供有关其在现代工业中重要性的有价值见解。空气冲击的主要应用是在制造环境中清洁组件。例如,在汽车工业中,零件在生产过程中往往会积聚碎屑、油和其他污染物。传统的清洁方法可能无法有效到达组件的所有复杂区域。然而,通过使用空气冲击,可以精确地将高压空气直接喷射到去除复杂几何形状中的不需要的材料。这确保了零件干净并准备好进行后续处理,从而最终提高了最终产品的质量。此外,空气冲击在冷却热材料方面也发挥着至关重要的作用。在焊接或金属切割等过程中,温度可能会显著上升,可能会损坏材料或影响其性能。通过采用空气冲击,制造商可以引入一股冷空气,迅速散发热量,从而保持材料的完整性。这种冷却效果不仅对操作的安全性至关重要,而且确保材料保持其所需特性。空气冲击的另一个有趣应用是在塑造材料的过程中。在某些情况下,制造商可能需要去除多余的材料或在表面上创建特定的轮廓。传统的机械加工方法可能耗时且可能造成浪费。然而,空气冲击允许通过利用高压空气的力量更有效地去除材料,而不会产生显著的浪费。这不仅节省了时间,还减少了与材料损失相关的成本。空气冲击的环境益处也不容忽视。随着行业努力减少碳足迹并采用更可持续的实践,空气冲击提供了一种比化学清洁剂更清洁的替代方案。通过依赖气压而不是有害化学物质,制造商可以最小化对环境的影响,并遵守日益严格的废物处理和排放法规。总之,空气冲击是一种多功能且有效的技术,对现代制造过程具有重要意义。从清洁、冷却到塑造材料,其应用广泛且有益。随着行业的不断发展,像空气冲击这样的创新方法的采用无疑将在提高生产力的同时促进可持续性方面发挥关键作用。理解这一技术不仅突显了制造技术的进步,还强调了工业实践持续改进的重要性。
