Search results

Zheng1,c 1Department of Mechanical Engineering, Tianjin University of Science & Technology, Tianjin 300222, PR China 2Department of Industrial Engineering Texas Tech University,Lubbock,TX,79415,United States azhfuying@tust.edu.cn, bhong-chao.zhang@ttu.edu, c tjzhenghui@tust.edu.cn Keywords: Elastomeric sealing, Reciprocating sliding, Efficiency-reinforcement design, Seal failure Abstract: The high efficient, high reliability and energy-saving development of modern machinery equipments challenges the higher request for hydraulic sealing technology.
Acknowledgements This research is sponsored by Natural Science Foundation of China (Grant No. 51075300) References [1] Heinzk, Muller,Bernards.Nau, translated by Cheng Chuanqing: Fluid Sealing Technology—principle and applications (China Machine Press, P R China 2002) [2] F.Y Zhang, H.C Zhang and H Zheng: Advanced Material Research, Vols.156-157(2011), p.123-126
[4] F.Y Zhang, X.MLu and P Wang: Material Science Forum, Vol.628-629(2009), p.97-102

Melt conditioning by advanced shear technology (MCAST) subjects liquid alloys to high turbulence and intensive shearing before casting [6-8].
Bevis, Semi-solid processing of engineering alloys by a twin-screw rheomoulding process, Mat.
Forum 690 (2011) 141-144
Series: Materials Science and Engineering 27 (2011) 012042, doi: 10.1088/1757-899X/27/1/012042

The Effect of Deformation on the Carbide Precipitation Morphology in the Ti Microalloyed Steel Chih-yuan Chen1, a and Wern-dare Jheng1, b * 1Department of Energy Engineering, National United University, Miaoli 36003, Taiwan 2Department of Mechanical Engineering, National Chin-Yi University of Technology, Taichung 411, Taiwan a chen6563@gmail.com, b jen102@ncut.edu.twail *Corresponding author Keywords: Microalloyed steel, Interface precipitation, Random dispersed precipitation, Carbide.
Forum, 1988, Vol. 11, p. 166
Yang, TEM investigation of nanometer-sized interface-precipitation in a Ti-containing HSLA steel, The 3rd international conference on advanced structural steels, Gyeongju, Korea, August 22-24, 2006, pp. 400-405

The engineering stress-engineering strain curves obtained by tensile tests of 304L and 316L steels subjected to cold rolling to a strain of 4 and annealing are shown in Fig. 7.
Moallemi, Production of nano/ultrafine grained AISI 201L stainless steel through advanced thermo-mechanical treatment Mater.
Forum, 783-786 (2014) 651-656.

Development & Application of Polycrystal Cubic Boron Nitride Cutting Tool Material Jingying Zhang1,a ,Qixun Yu 1,a, Siqin Pang 1,a , Shusuo Meng 2,b, Tianshun Wang 2,b and Jintao Hu1,a 1 School of Mechanical and Vehicular Engineering, Beijing Institute of Technology, Beijing, China, 100081 2 Beijing Yichangyuan Hi-science Technology Co., LTD, A-2001 Westing House, 12 suzhou Street, Beijing, China, 100080 a zhangjy2002@sohu.com; bgs@cncbn.com.cn Keywords: Cutting tool material, Polycrystal cubic boron nitride, Turning, Cutting regime Abstract.
The hardened steel (T10A, 60~63HRC) is turned with PCBN, advanced cemented carbide YS8 (K10) and Si3N4 based composite ceramics HDM-3 blades.
PCBN cutting tool has good effect in turning other difficult-to-cut materials, such as cemented carbide, engineering ceramics, industrial glass, pure tungsten, and pure molybdenum.
Forum, Vol.532-533 (2006), pp.412

Introduction A variety of electronic, medical and industrial devices are developed by the advances in wireless communication and semiconductor technology.
In recent years, advances in wireless power transfer technology bring prospect of overcome these difficulties.
[2] Wenhui Xin, Guozheng Yan and Wenxing Wang: Journal of Biomedical Engineering, VOL.27, NO.3 (2010), p.490
[5] Guiping Du and Bo Zhang: EXPERTS’ FORUM , p.92
[12] Dongdong Ye, Guozheng Yan, Jiajun Li, Kundong Wang and Guanying Ma: Chinese Journal of Biomedical Engineering, VOL.17, NO.2(2008), p.47

Two novel methods to realize the superplastic forming of ultrahigh strength steels Bingzhe Bai 1, a, Han Zhang 1, b 1 Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, China a bzbai@mail.tsinghua.edu.cn b zhanghan06@mails.tsinghua.edu.cn Keywords: steel, superplasticity, strain rate sensitivity, flow stress Abstract Two novel methods of obtaining microduplex structures, ferrite plus spherical carbides, in ultrahigh strength steels (~2000MPa) are introduced.
Introduction Ultrahigh strength steels are widely used in heavy load engineering field to ensure safety.
Forum, Vol. 304-306 (1999), p. 133
Chokshi: Superplasticity in Advanced Materials (Transtec, Switzerland 1997).

Valiev 4,d 1 School of Materials Science and Engineering, Clemson University, Clemson, SC 29634, USA 2 Formerly School of Materials Science and Engineering, currently, KEMET Electronics Corporation, 2835 KEMET Way, Simpsonville, SC 29681 USA 3 Oak Ridge National Laboratory, 1 Bethel Valley Rd., Building 4515, MS 6064 Oak Ridge, TN 37831-6064 4 Institute of Advanced Materials, Ufa State Aviation Technical University, Ufa, 45000 Russia a rackh@exchange.clemson.edu b javaidqazi@kemet.com c allardlfjr@ornl.gov d RZValiev@mail.rb.ru Keywords: VT-6(Ti-6Al-4V), annealing, recovery, continuous recrystallization.
Forum, Vol. 503-504 (2006), p. 757

Mangeron” Street, 700050, Iasi, Romania 2Centre of Excellence Geopolymer & Green Technology School of Materials Engineering, University Malaysia Perlis, KompleksPengajian Jejawi 2, 02600 Arau, Perlis 3 Romanian Inventors Forum, 3 Sf.
The state-of-the-art technological ceramics will also be used that exploit in engineering applications is for their mechanical properties in particular.
Sidambe, Biocompatibility of advanced manufactured titanium implants-A review, Materials (Basel). 7 (2014) 8168-8188

Shin 2,c 1 Department of Materials Engineering, Ben-Gurion University of the Negev Beer-Sheva 84105, Israel 2 School of Materials Science and Engineering, Research Institute of Advanced Materials Seoul National University, Seoul 151-744, Korea a guyben@bgu.ac.il, b deliezer@bgu.ac.il, c ksshin@snu.ac.kr Keywords: Magnesium Alloy, Die Cast, Alloying Element, Electrochemical Techniques.
Forum Vol. 350-351 (2000), p. 131