machinable
简明释义
adj. [机] 可加工的,可切削的;[计] 机器可用的
英英释义
能够被机械加工或使用机床处理的。 |
单词用法
同义词
反义词
例句
1.With K-73 is a thixotropic system. Gives a white, slightly resilient, machinable gelcoat with good edge strength.
与K- 73组成触变系统,形成一个白色低弹性边缘强硬的可加工凝胶涂层。
2.Sheet Machinable FPC, PET, PCB, double sided tape, protective film, thin copper and aluminum and other electronic materials, die-cut full cut and a half off.
片材可加工FPC,PET,PCB,双面胶,保护膜,铜铝薄等各种电子材料,冲切全断和半断。
3.Providing better dimensional stability than engineering plastics, machinable ceramics are effective for manufacturing components and for prototyping in advance of technical ceramics.
由于具有比工程塑料更高的尺寸稳定性,这种可加工陶瓷材料在用于制造元器件及用于制作技术陶瓷样品方面十分有效。
4.A dynamic 8-tree structure and a relative self-similar recursion algorithm are presented to model a dynamic workpiece object, which is machinable.
提出了动态八叉树结构和相应的自相似裂变递归算法,实现了虚拟环境下的可加工工件动态建模。
5.Machinable materials including acrylic, double color boards, PVC, ABS board, stone, imitation stone, metal, aluminum plate and other materials.
可加工的材料包括亚克力、双色板、PVC、ABS板、石材、仿石材、金属、铝塑板等各种材料。
6.In order to evaluate machinability of ceramics materials objectively, data envelopment analysis (DEA) model for machinability evaluation of machinable ceramic materials was established.
为了客观评价陶瓷材料的可加工性,建立了可加工陶瓷材料可加工性评价的数据包络分析模型。
7.C6132 ordinary lathe is 320 mm Series lathe based products, C6232A saddle in the saddle bed lathe Machinable large diameter workpieces.
C6132普通车床是320毫米系列车床的基础产品,C6232 A马鞍车床在马鞍槽内可加工较大直径工件。
8.Through analysis of various of match materials, hot-solidified epoxy colophony and thermoplastic and machinable wax are chosen as part material and support material.
通过对多种材料匹配的分析,分别选择热固性的环氧树脂和热塑性可机加工蜡作为工件材料和支撑材料。
9.The engineers recommended a more machinable plastic for the prototype to speed up the testing phase.
工程师们建议使用一种更可加工的塑料用于原型,以加快测试阶段。
10.The new alloy we developed is highly machinable, making it ideal for precision parts.
我们开发的新合金具有很高的可加工性,非常适合精密零件。
11.For this project, we need a machinable material that can withstand high temperatures.
对于这个项目,我们需要一种能够承受高温的可加工材料。
12.When selecting materials for manufacturing, it's important to choose machinable options to reduce production time.
在选择制造材料时,选择可加工的选项以减少生产时间是很重要的。
13.This wood is particularly machinable, allowing for intricate designs to be easily carved.
这种木材特别可加工,可以轻松雕刻出复杂的设计。
作文
In the world of manufacturing and engineering, the term machinable refers to materials that can be easily shaped, cut, or formed using various machining processes. The ability of a material to be machinable is crucial in industries where precision and efficiency are paramount. For instance, metals such as aluminum, brass, and certain types of steel are often considered highly machinable due to their favorable properties that allow for smooth cutting and shaping. On the other hand, some materials, like certain composites or hardened steels, may present challenges in terms of machinable characteristics, requiring specialized tools or techniques to work effectively.Understanding what makes a material machinable is essential for engineers and manufacturers. Factors such as hardness, toughness, and thermal conductivity play significant roles in determining how easily a material can be machined. For example, softer materials tend to be more machinable, allowing for quicker processing times and lower tool wear. Conversely, harder materials may necessitate slower machining speeds and more frequent tool changes, which can impact overall production efficiency.Moreover, the design of parts also influences their machinable nature. Complex geometries with tight tolerances may require advanced machining techniques, such as CNC (Computer Numerical Control) machining, to achieve the desired results. In this context, selecting the right material that possesses machinable properties can significantly affect the success of the manufacturing process.In addition to traditional machining methods, the rise of additive manufacturing has introduced new considerations regarding machinable materials. While 3D printing allows for the creation of intricate designs that may not be possible through conventional machining, the post-processing of these components often involves machining to achieve the desired surface finish and dimensional accuracy. Therefore, understanding the machinable aspects of materials used in additive manufacturing is becoming increasingly important in modern engineering practices.Furthermore, the economic implications of machinable materials cannot be overlooked. The cost of raw materials, coupled with machining time and tool wear, directly impacts the overall production cost. As such, manufacturers often seek materials that not only meet performance requirements but are also cost-effective to machine. This balance between material properties and machining efficiency plays a vital role in the decision-making process for engineers and procurement specialists alike.In conclusion, the concept of machinable materials is fundamental in the fields of manufacturing and engineering. A thorough understanding of what makes a material machinable enables professionals to select the right materials for their projects, optimize machining processes, and ultimately produce high-quality components efficiently. As technology continues to advance, the definition of machinable may evolve, but its importance will remain a cornerstone of successful manufacturing practices.
在制造和工程的世界中,术语machinable指的是可以通过各种加工过程轻松成型、切割或形成的材料。材料是否具有machinable特性对于精度和效率至关重要的行业而言是非常重要的。例如,铝、黄铜和某些类型的钢等金属通常被认为是高度machinable的,因为它们具有有利的特性,允许平滑的切割和成型。另一方面,一些材料,如某些复合材料或硬化钢,可能会在machinable特性方面带来挑战,需要专业的工具或技术才能有效地加工。理解什么使材料具有machinable特性对工程师和制造商至关重要。硬度、韧性和热导率等因素在确定材料加工的难易程度方面发挥着重要作用。例如,较软的材料往往更具machinable性,允许更快的加工时间和较低的工具磨损。相反,较硬的材料可能需要较慢的加工速度和更频繁的工具更换,这会影响整体生产效率。此外,零件的设计也会影响其machinable特性。复杂的几何形状和严格的公差可能需要先进的加工技术,例如CNC(计算机数控)加工,以实现所需的结果。在这种情况下,选择具有machinable特性的合适材料可以显著影响制造过程的成功。除了传统的加工方法外,增材制造的兴起还引入了有关machinable材料的新考虑。虽然3D打印允许创建通过传统加工可能无法实现的复杂设计,但这些组件的后处理通常涉及加工,以达到所需的表面光洁度和尺寸精度。因此,了解增材制造中使用的材料的machinable特性在现代工程实践中变得越来越重要。此外,machinable材料的经济影响也不容忽视。原材料的成本,加上加工时间和工具磨损,直接影响整体生产成本。因此,制造商通常寻找不仅满足性能要求,而且在加工上也具有成本效益的材料。这种材料特性与加工效率之间的平衡在工程师和采购专家的决策过程中发挥着至关重要的作用。总之,machinable材料的概念在制造和工程领域是基础性的。对什么使材料具有machinable特性的透彻理解使专业人士能够为他们的项目选择合适的材料,优化加工过程,并最终高效地生产高质量的组件。随着技术的不断进步,machinable的定义可能会演变,但其重要性将始终是成功制造实践的基石。
