chip groove

简明释义

排屑槽

英英释义

例句

1.When designing the PCB, we need to ensure the chip groove 芯片槽 is accurately placed.

在设计PCB时，我们需要确保芯片槽 chip groove 的位置准确。

2.During assembly, make sure the chip groove 芯片槽 is clean to avoid any connection issues.

在组装过程中，请确保芯片槽 chip groove 干净，以避免任何连接问题。

3.The chip groove 芯片槽 allows for better heat dissipation in electronic devices.

在电子设备中，芯片槽 chip groove 允许更好的散热。

4.The technician explained that the chip groove 芯片槽 is essential for proper alignment during the manufacturing process.

技术员解释说，芯片槽 chip groove 对于制造过程中的正确对齐至关重要。

5.The design specifications include dimensions for the chip groove 芯片槽 to accommodate various chip sizes.

设计规格包括适应不同芯片尺寸的芯片槽 chip groove 的尺寸。

作文

In the world of manufacturing and machining, precision is key. One of the critical aspects that engineers and machinists focus on is the design and implementation of features that enhance the functionality of a product. One such feature is the chip groove, which plays a vital role in the machining process. A chip groove (切屑槽) is a specially designed groove or channel that helps in managing the chips produced during machining operations. These chips can be metal shavings, plastic fragments, or any other material debris that occurs when cutting tools engage with the workpiece. The importance of a chip groove cannot be overstated. During machining, as a tool cuts through material, it generates chips that need to be effectively removed from the cutting area. If these chips are not properly managed, they can interfere with the cutting process, leading to poor surface finish, tool wear, and even potential damage to the workpiece. The design of a chip groove facilitates the efficient evacuation of these chips, ensuring that the cutting area remains clear and that the machining operation proceeds smoothly.Different types of chip grooves are employed depending on the machining operation and the material being processed. For instance, in turning operations, a chip groove might be incorporated into the design of a lathe tool holder to guide the chips away from the cutting zone. In milling operations, the design of the workpiece itself may include chip grooves to direct chips away from the cutter and prevent recutting, which can lead to increased tool wear and reduced efficiency.Moreover, the geometry of a chip groove is crucial. It must be designed to accommodate the size and shape of the chips produced, as well as the speed and type of cutting action. A well-designed chip groove will allow for smooth chip flow, minimizing the risk of jamming or clogging, which can halt production and require costly downtime to resolve.In addition to improving efficiency, chip grooves also contribute to safety in the workplace. When chips are not effectively managed, they can create hazardous conditions, such as tripping hazards or flying debris that can injure operators. By incorporating chip grooves into machine designs, manufacturers can enhance both operational efficiency and workplace safety.As technology advances, the design and application of chip grooves continue to evolve. New materials and cutting techniques are being developed, which necessitate innovative approaches to chip management. Engineers are now exploring computer-aided design (CAD) tools to simulate chip flow and optimize chip groove designs before physical prototypes are created. This not only saves time and resources but also leads to more effective solutions tailored to specific machining challenges.In conclusion, the chip groove (切屑槽) is an essential component in the realm of machining and manufacturing. Its role in managing chips effectively enhances productivity, improves product quality, and ensures a safer working environment. As the industry continues to advance, the importance of optimizing chip grooves will remain a significant focus for engineers and machinists alike, driving innovation and efficiency in manufacturing processes.

在制造和加工的世界中，精确性是关键。工程师和机械师关注的一个重要方面是设计和实施能够增强产品功能的特征。其中一个特征就是切屑槽，它在加工过程中发挥着至关重要的作用。切屑槽（chip groove）是一种特殊设计的槽或通道，有助于管理在加工操作中产生的切屑。这些切屑可以是金属屑、塑料碎片或任何其他材料的碎片，当切削工具与工件接触时就会产生。切屑槽的重要性不容小觑。在加工过程中，当工具切割材料时，会产生需要有效去除的切屑。如果这些切屑没有得到妥善管理，它们可能会干扰切削过程，导致表面粗糙、工具磨损，甚至可能对工件造成损害。切屑槽的设计促进了这些切屑的有效排放，确保切削区域保持清洁，从而使加工操作顺利进行。根据加工操作和被加工材料的不同，采用不同类型的切屑槽。例如，在车削操作中，可能会在车床刀具夹头的设计中加入切屑槽，以引导切屑远离切削区域。在铣削操作中，工件本身的设计可能包括切屑槽，以将切屑引导远离刀具，防止再切削，这可能导致工具磨损增加和效率降低。此外，切屑槽的几何形状至关重要。它必须设计成能够容纳产生的切屑的大小和形状，以及切削动作的速度和类型。设计良好的切屑槽将允许切屑平稳流动，最小化卡住或堵塞的风险，这可能会停止生产并需要昂贵的停机时间来解决。除了提高效率外，切屑槽还为工作场所的安全做出了贡献。当切屑未得到有效管理时，可能会造成危险条件，例如绊倒危险或飞溅的碎片可能会伤害操作人员。通过在机器设计中加入切屑槽，制造商可以提高操作效率和工作场所安全。随着技术的进步，切屑槽的设计和应用也在不断发展。新材料和切削技术的开发需要创新的切屑管理方法。工程师们现在正在探索计算机辅助设计（CAD）工具，以模拟切屑流动并优化切屑槽的设计，然后再创建物理原型。这不仅节省了时间和资源，还导致针对特定加工挑战量身定制的更有效的解决方案。总之，切屑槽（chip groove）是加工和制造领域的一个重要组成部分。它在有效管理切屑方面的作用提高了生产率，提高了产品质量，并确保了更安全的工作环境。随着行业的不断进步，优化切屑槽的重要性将继续成为工程师和机械师共同关注的重点，推动制造过程中的创新和效率。