milling
简明释义
n. 磨;制粉;轧齿边
v. 碾磨;磨成粉;滚(碾轧)金属(mill 的 ing 形式)
n. (Milling)人名;(德)米林
英英释义
单词用法
铣床 | |
[机械]铣刀;铣制刀具(等于milling machine) |
同义词
| 研磨 | 谷物通过磨粉机研磨成面粉。 | ||
| 压碎 | 他们正在压碎岩石以提取矿物。 | ||
| 粉碎 | 工厂正在粉碎塑料废料以便回收利用。 | ||
| 撕碎 | 厨师正在撕碎卷心菜为沙拉准备。 |
反义词
| 组装 | 团队正在组装新机器的零件。 | ||
| 构建 | 他们正在市中心建设一座新建筑。 |
例句
1.Middle transverse pole arrangement, suitable for milling work.
中间横向极块的安排,可以适合磨床工件。
2.Store the quicklime and gypsum in the tank after crushing and ball milling.
生石灰、石膏经过破碎、球磨后进入料仓储存待用;
3.Nevertheless, up milling is commonly used in industry, especially for rough cuts.
然而逆铣仍经常被用在工业上,尤其是粗切削时。
4.Successful milling operations require appropriate selection of milling tools, fluids and techniques.
成功的磨铣作业要求合适地选择磨铣工具、流体和方法。
5.A policeman was patrolling his regular beat, when he saw a group of boys milling about the street.
一名警察在其辖区内巡逻时发现一群男孩子在街上瞎转。
6.Most milling machines are equipped with power feed for one or more axes.
大部分机器都配备了铣削力的一个或多个轴的饲料。
7.We have learned several different machines, such as milling machines, turning machines and so on.
我们已经学习了几种不同的机床,比如铣床、车削加工中心等。
8.They both looked out through the window at the guests milling about in the yard.
他们一起看向窗外,看着客人们在后院里转来转去。
9.After milling, the corn is ready to be packaged.
经过磨制后,玉米可以进行包装。
10.The sound of milling machines filled the factory.
工厂里充满了铣削机的声音。
11.The milling process is crucial for producing fine flour.
该磨制过程对于生产细面粉至关重要。
12.They spent the afternoon milling around the park.
他们在公园里闲逛了一个下午,游荡。
13.The workers were busy milling the grain into flour.
工人们忙于将谷物进行磨粉。
作文
In the world of manufacturing and agriculture, the term milling refers to the process of grinding or crushing materials into smaller pieces or powder. This technique is essential in various industries, including food production, where grains are processed into flour. The history of milling dates back thousands of years, with early methods involving manual grinding using stones. Today, modern technology has transformed milling into a highly efficient operation that involves specialized machines designed to produce consistent and high-quality results.The importance of milling cannot be overstated, especially in the context of food security and nutrition. For instance, when wheat is harvested, it undergoes milling to produce flour, which is a staple ingredient in many diets worldwide. The nutritional value of flour can vary significantly depending on the milling process used. Whole grain flour, which retains the bran and germ, offers more nutrients compared to refined flour, which has been stripped of these components. Therefore, understanding the milling process helps consumers make informed choices about their food.Moreover, the environmental impact of milling practices is an important consideration. Sustainable milling techniques aim to minimize waste and energy consumption while maximizing productivity. For example, some mills have adopted renewable energy sources and waste recycling programs to reduce their carbon footprint. By prioritizing sustainability in milling, companies can contribute to a healthier planet while still meeting the demands of the market.In addition to food production, milling plays a crucial role in other industries such as pharmaceuticals and construction. In the pharmaceutical industry, milling is used to create fine powders for drug formulation, ensuring that active ingredients are evenly distributed and effective. Similarly, in construction, milling processes are employed to produce materials like cement and asphalt, which are vital for building infrastructure.The advancements in milling technology have also led to increased efficiency and reduced costs. Modern milling machines are equipped with computer numerical control (CNC) systems that allow for precise adjustments and automation. This not only speeds up the milling process but also enhances safety by minimizing human error. As industries continue to evolve, the role of milling will undoubtedly expand, leading to new innovations and applications.In conclusion, milling is a fundamental process that impacts various aspects of our lives, from the food we eat to the products we use daily. Understanding the different types of milling techniques and their implications can empower consumers and industries alike to make better choices. As we move towards a more sustainable future, the evolution of milling practices will be essential in addressing global challenges such as food security and environmental conservation. Ultimately, milling is not just about breaking down materials; it is about creating opportunities for growth and innovation across multiple sectors.
在制造和农业的世界中,术语milling指的是将材料研磨或粉碎成更小的颗粒或粉末的过程。这种技术在多个行业中至关重要,包括食品生产,其中谷物被加工成面粉。milling的历史可以追溯到数千年前,早期的方法涉及使用石头进行手动研磨。今天,现代技术已将milling转变为一种高效的操作,涉及专门设计的机器,以生产一致且高质量的结果。milling的重要性不容小觑,尤其是在粮食安全和营养的背景下。例如,当小麦收获后,它经过milling加工以生产面粉,这是一种全球许多饮食中的主食成分。面粉的营养价值可能因所使用的milling过程而有显著差异。全谷物面粉保留了外壳和胚芽,相比之下,精制面粉则去除了这些成分。因此,了解milling过程有助于消费者做出明智的食品选择。此外,milling实践的环境影响也是一个重要考虑因素。可持续的milling技术旨在最小化废物和能源消耗,同时最大化生产力。例如,一些磨坊采用可再生能源和废物回收计划,以减少其碳足迹。通过在milling中优先考虑可持续性,公司可以在满足市场需求的同时,为更健康的地球做出贡献。除了食品生产,milling在制药和建筑等其他行业也起着至关重要的作用。在制药行业中,milling用于制造药物配方的细粉,确保活性成分均匀分布且有效。类似地,在建筑中,milling过程用于生产水泥和沥青等材料,这些材料对基础设施建设至关重要。milling技术的进步也导致了效率的提高和成本的降低。现代磨床配备了计算机数控(CNC)系统,可以进行精确调整和自动化。这不仅加快了milling过程,还通过最小化人为错误来提高安全性。随着各行业的不断发展,milling的角色无疑将扩大,带来新的创新和应用。总之,milling是一个基本过程,影响着我们生活的多个方面,从我们吃的食物到我们每天使用的产品。了解不同类型的milling技术及其影响可以使消费者和行业能够做出更好的选择。随着我们朝着更加可持续的未来迈进,milling实践的演变将在应对全球挑战,如粮食安全和环境保护方面至关重要。最终,milling不仅仅是关于破碎材料;它是关于在多个部门创造增长和创新机会。
