regrinding

简明释义

英[ˌriːˈɡraɪndɪŋ]美[reˈɡraɪndɪŋ]

n. 二次粉碎；再次研磨

v. 重新研磨（regrind 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.Test for changing regrinding position during molybdenum processing process was conducted in order to determine suitable regrinding position and increase molybdenum concentrate grade.

通过改变钼选矿过程中再磨位置的试验研究，确定出合适的再磨位置，以提高钼精矿品位。

2.The mathematical model presented in this paper can also be used in the regrinding of gear hobs with zero rake Angle and positive rake Angle for error calculation and revision.

文中的数学模型亦可用于零前角及正前角齿轮滚刀重磨后的齿形误差计算及修正。

3.Particular structure of regrinding chamber with a enlarged rotor diameter contributes to a higher linear velocity and improve grinding efficiency by 20%.

特殊结构的二次粉碎室，加大设计的大转子直径，获得更高的锤端线速度，粉碎效率提高20%；

4.The paper describes the basic structure and working principles of vertical spiral agitating mill, and highlights its application in the regrinding and re-separation process of iron concentrate.

介绍了立式螺旋搅拌磨矿机的基本结构和工作原理，着重叙述了该设备在铁精矿再磨再选工艺流程中的应用。

5.Tailings grading, coarse fraction regrinding and reconcentration, fine fraction reconcentration technique is determined.

经过试验研究，确定了对尾矿分级粗粒级进行再磨再选、细粒级再选综合回收工艺。

6.Based on the kinematic relationship of regrinding, a mathematical model was established for the chisel edge regrinding and the solution of grinding parameter was obtained.

根据刃磨的运动关系建立了新型微钻头横刃修磨的数学模型并求出了刃磨参数。

7.After the initial production, we found that regrinding 再磨 some of the tools improved their performance significantly.

在初次生产后，我们发现对一些工具进行再磨显著提高了它们的性能。

8.The recycling process involves regrinding 再磨 plastic waste into granules for reuse.

回收过程涉及将塑料废料进行再磨成颗粒以供再利用。

9.The factory specializes in the process of regrinding 再磨 metal parts to ensure they meet quality standards.

这家工厂专注于对金属零件进行再磨，以确保它们符合质量标准。

10.The regrinding 再磨 process can be automated to increase efficiency in production lines.

可以通过自动化来提高生产线上再磨过程的效率。

11.Our team is focused on the regrinding 再磨 of worn-out blades to extend their lifespan.

我们的团队专注于对磨损刀片进行再磨以延长其使用寿命。

作文

In the world of manufacturing and material processing, the term regrinding refers to the process of grinding a material again after it has been previously ground. This technique is particularly common in industries such as metalworking, plastics, and ceramics, where the precision and quality of the final product are paramount. The practice of regrinding not only helps in achieving finer particle sizes but also plays a significant role in recycling materials, thereby contributing to sustainability efforts in various sectors.One of the primary reasons for regrinding is to enhance the properties of the original material. For instance, when metal parts are machined, they may develop burrs or rough edges that can affect their performance. By regrinding these components, manufacturers can achieve smoother surfaces that improve the fit and function of the parts in their intended applications. Similarly, in the plastic industry, regrinding scrap plastic materials allows companies to reuse these materials rather than discarding them, thus reducing waste and conserving resources.Additionally, regrinding is crucial in the production of powders used in various applications, including pharmaceuticals and food products. The particle size and distribution of these powders can significantly influence their behavior during processing and their effectiveness in end-use applications. By employing regrinding techniques, manufacturers can produce powders that meet specific requirements, ensuring consistency and quality in their products.The process of regrinding can involve different types of equipment, depending on the material being processed and the desired outcome. For instance, ball mills, hammer mills, and roller mills are commonly used for grinding materials in bulk. Each type of mill operates on different principles, and selecting the right one is essential for optimizing the regrinding process. Furthermore, advancements in technology have led to the development of more efficient and effective regrinding machines that can handle a variety of materials and produce consistent results.Moreover, regrinding can also be seen in the context of tool maintenance. Cutting tools, such as drills and end mills, often require regrinding to restore their sharpness and functionality after prolonged use. This not only extends the life of the tools but also ensures that they continue to perform at optimal levels, which is critical for maintaining productivity in manufacturing operations.In conclusion, regrinding is a vital process in many manufacturing sectors that enhances material properties, promotes recycling, and improves product quality. As industries continue to focus on sustainability and efficiency, the importance of regrinding will likely grow, making it an essential aspect of modern manufacturing practices. Understanding the intricacies of this process can lead to better material management and innovative solutions that benefit both businesses and the environment.

在制造和材料加工的世界中，术语regrinding指的是对材料进行再次研磨的过程，这种技术在金属加工、塑料和陶瓷等行业中尤其常见，因为最终产品的精度和质量至关重要。regrinding的做法不仅有助于实现更细的颗粒大小，还在回收材料方面发挥了重要作用，从而为各个行业的可持续发展努力作出贡献。regrinding的主要原因之一是增强原材料的特性。例如，当金属零件被加工时，可能会出现毛刺或粗糙边缘，这会影响其性能。通过regrinding这些组件，制造商可以实现更光滑的表面，从而改善零件在其预期应用中的贴合度和功能。类似地，在塑料行业中，regrinding废塑料材料使公司能够重复使用这些材料，而不是将其丢弃，从而减少浪费并节约资源。此外，regrinding在生产用于各种应用的粉末中也至关重要，包括制药和食品产品。这些粉末的颗粒大小和分布可以显著影响它们在加工过程中的行为以及在最终用途中的有效性。通过采用regrinding技术，制造商可以生产满足特定要求的粉末，从而确保其产品的一致性和质量。regrinding的过程可能涉及不同类型的设备，具体取决于所处理的材料和所需的结果。例如，球磨机、锤式磨和辊磨机通常用于大宗材料的研磨。每种类型的磨机都基于不同的原理运作，选择正确的磨机对于优化regrinding过程至关重要。此外，技术的进步导致了更高效和有效的再磨机的发展，这些机器可以处理多种材料并产生一致的结果。此外，regrinding在工具维护的背景下也可以看到。切削工具，如钻头和铣刀，通常需要regrinding以恢复其锋利度和功能性，以确保它们在长时间使用后的最佳性能。这不仅延长了工具的使用寿命，而且确保它们继续在最佳水平上运作，这对保持制造操作的生产力至关重要。总之，regrinding是许多制造行业中的一个重要过程，它增强了材料特性，促进了回收利用，并提高了产品质量。随着行业继续关注可持续性和效率，regrinding的重要性可能会增加，使其成为现代制造实践的一个基本方面。理解这一过程的复杂性可以导致更好的材料管理和创新解决方案，这些解决方案不仅惠及企业，也惠及环境。