Search results

Experimental Investigation of Intermittent Rotary Ultrasonic Machining Weimin Zeng1,a , Zhichao Li2,b , Xipeng Xu 3,c , Zhijian Pei2,d, Judong Liu1 and Jun Pi1 1 College of Mechanical Engineering Jimei University, Xiamen, Fujian Province, China, 361021 2 Dept. of Industrial and Manufacturing System Engineering, Kansas State University, KS, USA, 66502 3 Province Key Lab of Stone Machining, Huaqiao University, Quanzhou, Fujian Province, China, 362011 awmzeng2004@hotamail.com; bzinc@ksu.edu; cxpxu@hqu.edu.cn; dzpei@ksu.edu Keywords: Rotary ultrasonic machining, Advanced ceramic, Surface roughness, Cutting force, Coolant flow rate Abstract.
Rotary ultrasonic machining (RUM) is considered as an effective machining method, which has been utilized to machine hard and brittle materials such as advanced ceramics.
Introduction Rotary ultrasonic machining (RUM) is one of cost-effective machining methods for advanced ceramics.
Pashby: Journal of Materials Processing Technology, Vol.42 (1994), pp.377
Treadwell: International Journal of Manufacturing Technology and Management, Vol.7 (2005), pp.320.

[2] Guo Guoqiang, Liu Zhiqiang, An Qinglong, Chen Ming, Experimental investigation on conventional grinding of Ti-6Al-4V using SiC abrasive, International Journal Advanced Manufacture Technologies. 57 (2011) 135-142
Kremenetskii, The Condition of Machined Surface of Titanium Alloy in Dry Grinding, Procedia Engineering. 206 (2017) 115-120
Nosenko, Grinding parts from titanium-based alloys, Engineering, Moscow, 1987
Volkov, Testing of abrasive wheels and coolants while deep grinding of titanium alloys, Soviet engineering research. 9 (1989) 69-71
Baboshkin, Grinding technology in mechanical engineering, Polytechnic, Saint-Petersburg, 2007

Wang, Abrasive Waterjet Machining of Engineering Materials, Trans Tech Publications, Uetikon-Zuerich, Switzerland, 2003
Geskin, State of the art of research and development in abrasive waterjet machining, Journal of Manufacturing Science and Engineering, Vol. 119 (1997), pp. 776-785
Hashish, Turning with abrasive waterjets - A first investigation, Journal of Engineering for Industry, Vol. 109 (4) (1987), pp. 281-290
Ansari, A Study on Turning with Abrasive Waterjets, Mechanical Engineering, Ph.D.
Wang, Predictive depth of jet penetration models for abrasive waterjet cutting of alumina ceramics, International Journal of Mechanical Sciences, Vol. 49 (3) (2007), pp. 306-316

Micro engineering is a key sector for the development of new technologies for micro-applications [1,2].
Zauner: Microelectronic Engineering Vol. 83 (2006), p. 1442–1444 [7] V.
Hausselt: Fusion Engineering and Design Vol. 82 (2007), p. 2660-2665 [19] P.
Huang: Journal of Ceramic Processing Research.
Agren: J Materials Science and Engineering Vol. 452-453 (2007),p. 37-45 [53] D.F.

Watari: Creamics International.
Wang: Journal of American Ceramic Society.
Tajika: Journal of European Ceramic Society.
Hayashi, K.Urabe: Journal of European Ceramic Society.
Toy, E.Savrun: Journal of the European Ceramic Society.

Development of some smart sensors for monitoring civil infrastructures Xinchun Guan1, a, Hui Li1,b, Huigang Xiao1, c, Guofu Qiao1, d, and Jinping Ou1,2,e 1School of Civil Engineering, Harbin Institute of Technology, Harbin 150090, China 2 School of Civil Engineering, Dalian University of Technology, Dalian, 116024, China aGuanxch@hit.edu.cn, bLihui@hit.edu.cn, cXiaohg@hit.edu.cn dQgf_forever@hit.edu.cn, eOujinping@hit.edu.cn Keywords: Sensor, Piezoelectric, Piezoresistance, Smart concrete, Corrosion monitoring.
IEEE Sensor Journal. 2011, 11(9)2111-2112 [5] Yan Yu; Guofu Qiao; Jinping Ou.
IEEE Sensor Journal, Vol. 10, pp. 1901-1902 [6] Hui Li, Jinping Ou.
Smart Concrete, Sensors and Self-Sensing Concrete Structures, Key Engineering Materials, 2008, 69-80 [7] Hui Li, Huigang Xiao and Jinping Ou, Effect of compressive strain on electrical resistivity of carbon black-filled cement-based composites.
Performance of 1-(0-3) Piezoelectric Cement Based Composite, The 2011 World Congress on Advances in Structural Engineering and Mechanics, Seoul, Korea, 18-22 September, 2011 [9] Xinchun Guan, Guohui Wang, Hui Li and Jinping Ou.

Yan 2 1 School of Mechanical, Shanghai Jiao Tong University, Shanghai, 200030, China 2 Department of Mechanical Engineering, Southeast University, Nanjing, 210096, China Keywords: Micro displacement actuator, Vibration characteristics, Ultrasonic machining, Piezoelectric ceramic, Matching circuit Abstract.
Vibration characteristics of cutting tool and cascade piezoelectric ceramics nature frequency are analyzed respectively.
Application of an electric field across the ceramic creates a mechanical strain, and in a similar manner, application of a mechanical stress on the ceramic induces an electrical charge.
Vibration characteristics of cutting tool and cascade piezoelectric ceramics nature frequency are analyzed.
Yan: Piezo. and Acoustooptics Vol. 15(2) (1993), p. 42 (in Chinese) [4] Uchino and Kenji: Proceeding of International Symposium on Micro Machine and Human Science (1999)

A comparative study of the tribological behavior of tin powder clad on the jis skd11 tool steel with the gtaw method Yu-Chi Lin1 and Han-Ming Chen1 and Yong-Chwang Chen1 1Department of Mechanical Engineering, National Taiwan University, Taipei 10617, Taiwan, ROC Keywords: wear, gas tungsten arc welding, titanium nitrides, JIS SKD11 tool steel Abstract.
Introduction The gas tungsten arc welding (GTAW) method is a unique process producing thick coating with metallurgical joint to the substrate that has found increasing application in the surface engineering.
X.: Optimization of Welding Parameters on Wear Performance of Cladded Layer with TiC Ceramic via a Taguchi Approach, Tribology Transactions, 2012, 55 (1), pp. 122-129 [2] Herbst, S.; Williams, S.; Ganguly, S.: A Feasibility Study on Manufacturing of Functionally Graded Structures Using SiC Ceramic Powder in a Steel-Based Matrix by Gas Tungsten Arc Welding (GTAW), Steel Research International, 2012, 83 (6), pp. 546-553 [3] Schnick, M.; Fuessel, U.; Hertel, M.; Haessler, M.; Spille-Kohoff, A.; Murphy, A.
W.: Wear behavior of ceramic powder cladding on an S50C steel surface, Tribology International, 2003, 36 (1), pp. 1-9 [5] Arenas, M.
P.: Research on microstructure of in situ synthesized TiB2/Ni metal-ceramics composite coating, Journal of Alloys and Compounds, 2005, 391 (1-2), pp. 146-150 [19] Lin, Y.

Pulsed Electric Current Sintering of Electrical Discharge Machinable Ceramics Jef Vleugels1, Olivier Malek1,2, Kim Vanmeensel1, Shuigen Huang1, Songlin Ran1, Omer Van der Biest1 and Bert Lauwers2 1Department of Metallurgy and Materials Engineering, K.U.Leuven, Kasteelpark Arenberg 44, B-3001 Heverlee, Belgium 2Department of Mechanical Engineering, Celestijnenlaan 300B, B-3001 Leuven, Belgium Jozef.vleugels@mtm.kuleuven.be, Olivier.malek@mtm.kuleuven.be, Kim.vanmeensel@mtm.kuleuven.be, Shuigen.huang@mtm.kuleuven.be, Songlin.ran@mtm.kuleuven.be, Omer.vanderbiest@mtm.kuleuven.be and Bert.lauwers@mech.kuleuven.be Keywords: Pulsed electric current sintering, Electrical discharge machining, ceramic composites Abstract.
Ceramic materials can be extremely hard and finishing operations can be quite expensive and slow.
ZrO2-based ceramics.
Details on the processing of the 90-100 vol % WC ceramics are provided in [19,25].
Van der Biest: International Journal of Electrical Machining, Vol. 10 (2005), p. 33-37

Optimal design for stator of a new linear ultrasonic motor Sun Shiping1,a, Hu Zheng1,b 1School of aeronautical manufacturing engineering, Nanchang Hangkong University, Nanchang,Jiangxi, 330063, P.R.
Piezoelectric ceramic PZT-8 properties are shown in Table 3.
Zhao: Journal of vibration and shock Vol.26(2007), p100-102.
Jung: International Journal of Applied Electromagnetic and Mechanics Vol.25 (2007), p699-704
Brown: Proceedings of the 1st International Modal Analysis Conference, Orlando Florida, America (1982).