微波烧结复杂刃形SiAlON陶瓷刀具铣削GH4169高温合金性能研究

doi:10.3969/j.issn.1004-132X.2023.07.002

中国机械工程 ›› 2023, Vol. 34 ›› Issue (07): 770-779，788.DOI: 10.3969/j.issn.1004-132X.2023.07.002

微波烧结复杂刃形SiAlON陶瓷刀具铣削GH4169高温合金性能研究

洪东波;殷增斌;陈为友;郑轶彤;袁军堂

南京理工大学机械工程学院，南京，210094

出版日期:2023-04-10 发布日期:2023-05-04
通讯作者: 殷增斌(通信作者)，男，1987年生，教授、博士研究生导师。研究方向为智能刀具设计制造应用、微波高效制造技术与装备、加工状态识别与智能监测。E-mail：zengbinyin@njust.edu.cn。
作者简介:洪东波，男，1994年生，博士研究生。研究方向为陶瓷刀具制备、结构设计与切削加工。E-mail：dongbohong@njust.edu.cn。
基金资助:
国家自然科学基金(51875291，52075266)

Cutting Performance of Microwave-sintered Complex-shaped SiAlON Ceramic Cutting Tools in Milling GH4169 Superalloys

HONG Dongbo;YIN Zengbin;CHEN Weiyou;ZHENG Yitong;YUAN Juntang

School of Mechanical Engineering,Nanjing University of Science and Technology,Nanjing,210094

Online:2023-04-10 Published:2023-05-04

摘要/Abstract

摘要： 针对目前陶瓷刀具结构简单(平刀面为主)、制造效率低等弊端，开展了复杂刃形SiAlON陶瓷刀具微波制造技术研究。通过有限元仿真研究不同刀具结构参数对SiAlON陶瓷刀具铣削GH4169高温合金力和热的影响规律；采用微波烧结技术制造了平刀面和复杂刃形SiAlON陶瓷刀具；通过试验研究刀具结构对SiAlON刀具铣削GH4169高温合金性能的影响，确定了SiAlON陶瓷铣刀片的最优结构。结果表明：基于微波烧结的复杂刃形SiAlON陶瓷刀具获得了设计的刀具结构且刀具刃口具有优良的致密性和力学性能；与平刀面SiAlON陶瓷刀具相比，具有复杂刃形的SiAlON陶瓷刀具有更好的耐磨损性能，高速铣削GH4169高温合金刀具寿命提高了约71.4%。

关键词: 复杂刃形刀片, SiAlON陶瓷, 微波烧结, 刀具结构, GH4169高温合金

Abstract: In view of the drawbacks of current ceramic cutting tools, such as low manufacturing efficiency and simple structure(flat mainly), microwave manufacturing of complex-shaped SiAlON ceramic cutting tools was studied. Finite element simulation was applied to investigate the influences of tool geometry of SiAlON ceramic cutting tools on cutting force and temperature when milling GH4169 superalloys. Then, the designed flat and complex-shaped SiAlON cutting inserts were fabricated by microwave sintering. Finally, the effects of tool geometry on the cutting performance of SiAlON ceramic cutting tool in milling GH4169 superalloys were studied and the optimal structure was determined. The results indicate that the designed tool structures are obtained in the complex-shaped SiAlON ceramic cutting inserts by the microwave sintering, and the tool edge possesses excellent density and well mechanics properties. Compared with flat SiAlON cutting inserts, the wear resistance of complex-shaped SiAlON cutting inserts with optimized tool geometry is well improved, of which the tool life is increased by approximately 71.4% in milling GH4169 superalloys.

Key words: complex-shaped cutting insert, SiAlON ceramic, microwave sintering, tool geometry, GH4169 superalloy

中图分类号:

TG711

洪东波, 殷增斌, 陈为友, 郑轶彤, 袁军堂. 微波烧结复杂刃形SiAlON陶瓷刀具铣削GH4169高温合金性能研究[J]. 中国机械工程, 2023, 34(07): 770-779，788.

HONG Dongbo, YIN Zengbin, CHEN Weiyou, ZHENG Yitong, YUAN Juntang. Cutting Performance of Microwave-sintered Complex-shaped SiAlON Ceramic Cutting Tools in Milling GH4169 Superalloys[J]. China Mechanical Engineering, 2023, 34(07): 770-779，788.

参考文献

［1］ZHU D, ZHANG X, DING H. Tool Wear Characteristics in Machining of Nickel-based Superalloys［J］. International Journal of Machine Tools and Manufacture, 2013, 64:60-77.
［2］AKHTAR W, SUN J F, CHEN W Y. Effect of Machining Parameters on Surface Integrity in High Speed Milling of Super Alloy GH4169/Inconel 718［J］. Materials and Manufacturing Processes, 2016, 31(5):620-627.
［3］LI Q, GONG Y D, CAI M, et al. Research on Surface Integrity in Milling Inconel 718 Superalloy［J］. International Journal of Advanced Manufacturing Technology, 2021, 92(1/4):1449-1463.
［4］WANY X Y, HUANG C Z, ZOU B, et al. Experimental Study of Surface Integrity and Fatigue Life in the Face Milling of Inconel 718［J］. Frontiers of Mechanical Engineering, 2018, 13(2):243-250.
［5］洪东波, 袁军堂, 殷增斌. SiAlON陶瓷刀具材料及其制备技术研究进展［J］. 机械制造与自动化, 2021, 50(4):1-8.
HONG Dongbo, YUAN Juntang, YIN Zengbin. Research Progress of SiAlON Ceramic Cutting Tool Material and Its Preparation Technology［J］. Machine Building and Automation, 2021, 50(4):1-8.
［6］ACIKBAS N C, KARA F. The Effect of z Value on Intergranular Phase Crystallization of α1/β1-SiAlON-TiN Composites［J］. Journal of the European Ceramic Society, 2017, 37(3):923-930.
［7］GUO F Z, YUAN J T, HONG D B, et al. Influence of Powder Mixing Processes on Phase Composition, Microstructure, and Mechanical Properties of α/β-SiAlON Ceramic Tool Materials［J］. Ceramics International, 2021, 47(21):30256-30265.
［8］CELIK A, ALAGAC M S, TURAN S, et al. Wear Behavior of Solid SiAlON Milling Tools during High Speed Milling of Inconel 718［J］. Wear, 2017, 378/379:58-67.
［9］GUO F Z, YIN Z B, HONG D B, et al. Cutting Performance of a New Spark Plasma Sintered SiAlON Ceramic Tool for High-speed Milling of Inconel 718［J］. International Journal of Advanced Manufacturing Technology, 2022, 119:7327-7338.
［10］SHAALABY M A, VELDHUIS S C. Effect of Cutting Speed on Chipping and Wear of the SiAlON Ceramic Tool in Dry Finish Turning of the Precipitation Hardenable IN100 Aerospace Superalloy［J］. Journal of Tribology, 2019, 141(2):021604.
［11］袁哲俊，刘献礼. 金属切削刀具设计手册［M］. 2版. 北京：机械工业出版社, 2018.
YUAN Zhejun, LIU Xianli. Metal Cutting Tool Design Manual［M］. 2nd ed. Beijing:Machinery Industry Press, 2018.
［12］赵炳真，商宏谟，辛节之. 现代刀具设计与应用［M］. 北京：国防工业出版社, 2014.
ZHAO Bingzhen, SHANG Hongmo, XIN Jiezhi. Modern Tool Design and Application［M］. Beijing:National Defense Industry Press, 2014.
［13］HE G, LIU X, WU C, et al. Study on the Negative Chamfered Edge and Its Influence on the Indexable Cutting Insert’s Lifetime and Its Strengthening Mechanism［J］. The International Journal of Advanced Manufacturing Technology, 2016, 84:1229-1237.
［14］SUN T, QIN L F, FU Y C, et al. Mathematical Modeling of Cutting Layer Geometry and Cutting Force in Orthogonal Turn-milling［J］. Journal of Materials Processing Technology, 2021, 290:116992.
［15］NALBANT M, ALTIN A, GOKKAYA H. The Effect of Cutting Speed and Cutting Tool Geometry on Machinability Properties of Nickel-base Inconel 718 Super Alloys［J］. Materials & Design, 2007, 28(4):1334-1338.
［16］OGHBAEI M, MIRZAEE O. Microwave Versus Conventional Sintering:a Review of Fundamentals, Advantages and Applications［J］. Journal of Alloys and Compounds, 2010, 494(1/2):175-189.
［17］ALEM S A A, LATIFI R, ANGIZI S, et al. Microwave Sintering of Ceramic Reinforced Metal Matrix Composites and Their Properties:a Review［J］. Materials and Manufacturing Processes, 2020, 35(3):303-327.
［18］HONG D B, YUAN J T, YIN Z B, et al. Ultrasonic-assisted Preparation of Complex-shaped Ceramic Cutting Tools by Microwave Sintering［J］. Ceramics International, 2020， 46(12):20183-20190.
［19］ZHU Z Y, YIN Z B, HONG D B, et al. Preparation of Complex-shaped Al2O3/SiCp/SiCw Ceramic Tool by Two-step Microwave Sintering［J］. Ceramics International, 2020, 46:27362-27372.
［20］殷增斌,朱智勇,王子祥,等.复杂刃形陶瓷刀具微波烧结技术研究［J］.中国机械工程,2022,33(8):899-907.
YIN Zengbin, ZHU Zhiyong, WANG Zixiang, et al［J］. Complex-shaped Ceramic Tool Prepared by Microwave Sintering［J］. China Mechanical Engineering, 2022, 33(8):899-907.
［21］HONG D B, YIN Z B, GUO F Z, et al. Microwave Synthesis of Duplex α/β-SiAlON Ceramic Cutting Inserts:Modifying m, n, z Values, Synthesis Temperature, and Excess Y2O3 Synthesis Additive［J］. Journal of Advanced Ceramics, 2022, 11:589-602.
［22］HONG D B, YIN Z B, GUO F Z, et al. Improvement of Cutting Performance of High x Value α/β-SiAlON Ceramic Cutting Inserts via Tailoring Microstructure and Oxidation Behavior［J］. International Journal of Refractory Metals and Hard Materials, 2023, 111:106087.［23］CHEN M，JIANG L，GUO G Q，et al. Experimental and FEM Study of Coated and Uncoated Tools Used for Dry Milling of Compacted Graphite Cast Iron［J］. Transactions of Tianjin University，2011，17(4)：235-241.
［24］SUN H, ZOU B, CHEN W. Cutting Performance of Silicon-based Ceramic End Milling Tools in High-efficiency Machining of GH4099 under Dry Condition［J］. The International Journal of Advanced Manufacturing Technology, 2022, 118:1719-1732.
［25］EVANS A G, CHARLES E A. Fracture Toughness Determinations by Indentation［J］. Journal of the American Ceramic Society, 1974, 59(7/8):371-372.
［26］CHENG Y B, THOMPSON D P. Aluminum-containing Nilrogen Melilite Phases［J］. Journal of the American Ceramic Society, 1944, 77(1):143-148.
［27］ACIKBAS N C, YURDAKUL H, MANDAL H, et al. Effect of Sintering Conditions and Heat Treatment on the Properties, Microstructure and Machining Performance of Alpha-beta-SiAlON Ceramics［J］. Journal of the European Ceramic Society, 2012, 32(7):1321-1327.

[1]	殷增斌, 朱智勇, 王子祥, 袁军堂. 复杂刃形陶瓷刀具微波烧结技术研究[J]. 中国机械工程, 2022, 33(08): 899-907.
[2]	彭锐涛1;李仲平1;黄晓芳1;唐新姿1;胡云波2. 加压内冷却方法在高温合金磨削中的应用[J]. 中国机械工程, 2017, 28(16): 2008-2015.
[3]	黄新春, 张定华, 姚倡锋, 任敬心. 磨削参数对GH4169高温合金磨削表面特征影响研究[J]. 中国机械工程, 2014, 25(2): 210-214.

微波烧结复杂刃形SiAlON陶瓷刀具铣削GH4169高温合金性能研究

Cutting Performance of Microwave-sintered Complex-shaped SiAlON Ceramic Cutting Tools in Milling GH4169 Superalloys

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