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Experimental Study on Wear Mechanism of Cutting Tool and Cutting Temperature in High Speed Machining Superalloy

机译：高速加工超合金中切削刀具和切削温度磨损机理的试验研究

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Two kinds of Cemented carbide tools were used to turn Iron-based superalloy GH2132 at 80m/min-210 m/min under dry cutting condition. Infrared thermometer was used to measure cutting temperature, Tool wear was observed by SEM, and oxygen element distribution of tool surface was analyzed by EDS. Adhesive wear oxidation wear were the main wear mechanisms of the coated cemented carbide tool, Adhesive wear, abrasive were the main wear mechanisms of the carbide tool. Oxidation wear occurs above a certain temperature about 430°C, the higher the temperature the more serious the oxidation wear is. The results might be helpful to guiding the design and selection of tool materials and control of tool wear in high speed machining processes.

机译：使用两种硬质合金工具在干切削条件下以80m / min-210米/分钟的80m / min-210 m / min转动铁基超合金GH2132。红外温度计用于测量切削温度，通过SEM观察刀具磨损，并通过EDS分析工具表面的氧元素分布。粘合剂耐磨氧化磨损是涂层硬质合金工具的主磨损机构，粘合剂磨损，磨料是碳化物工具的主磨损机制。氧化磨损发生在约430℃的一定温度上方，温度越高，氧化磨损越严重。结果可能有助于引导工具材料的设计和选择和高速加工过程中的工具磨损控制。

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来源
《Conference on Digital Design and Manufacturing》|2010年||共4页
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作者
Chao Liu; Xing Ai; Zhanqiang Liu;
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原文格式 PDF
正文语种
中图分类 TH16-53;
关键词
Super alloy; GH2132; High speed turning; Adhesive wear; Oxidation wear;

机译：超级合金;GH2132;高速转动;粘合剂磨损;氧化磨损;

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3. The Cutting Speed Influences on Tool Wear of ZTA Ceramic Cutting Tools and Surface Roughness of Work Material Stainless Steel 316L During High Speed Machining [J] . Afifah MOHD ALI, Norazharuddin Shah ABDULLAH, Manimaran RATNAM, Materials science forum . 2016,第期

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4. Experimental Study on Wear Mechanism of Cutting Tool and Cutting Temperature in High Speed Machining Superalloy [C] . Chao Liu, Xing Ai, Zhanqiang Liu Conference on Digital Design and Manufacturing . 2010

机译：高速加工超合金中切削刀具和切削温度磨损机理的试验研究
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机译：使用选定的商用和实验煤和岩石切割工具初步评估钻头磨损与切削距离，力和灰尘的关系

Experimental Study on Wear Mechanism of Cutting Tool and Cutting Temperature in High Speed Machining Superalloy

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