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The main elements influencing the cutting force are cutting speed, cutting depth, feed, blade material, cutter material, etc.
The remnant material is equal to the blade deformation in the machining process.
Dong: Journal of Zhejiang University No. 5 (2006), p. 759
Yen: International Journal of Machine Tools and Manufacture Vol. 37 No. 9 (1997), p. 1313
Becker: International Journal of Machine Tools and Manufacture Vol. 46 No. 5 (2006), p. 542

The material parameters (R∞,b,C,γ) were first identified from a monotonic tensile test (Table 2).
International Journal of Fatigue. 9 (2010) 1448-1460
Materials Science and Engineering: A. 6 (2011) 2370-2379
International Journal of Plasticity. 7 (2009) 1359-1385
Journal of Materials Processing Technology

Llorente, Toughness and microstructure of 13Cr4NiMo high-strength steel welds, Journal of Materials Engineering and Performance. 9 (2000) 609-615
Subramanian, Role of Nb in low interstitial 13Cr super martensitic stainless steel, Materials Science and Engineering: A. 528 (2011) 6812-6818
Subramanian, Microstructure and properties of 13Cr5Ni1Mo0.025Nb0.09V0.06N super martensitic stainless steel, Materials Science and Engineering: A. 539 (2012) 271-279
Li, Microstructural evolution and low temperature impact toughness of a Fe–13%Cr–4%Ni–Mo martensitic stainless steel, Materials Science and Engineering A. 527 (2010) 614-618
Ma, On the hot deformation behavior of AISI 420 stainless steel based on constitutive analysis and CSL model, Materials Science and Engineering A. 593 (2014) 111-119

Recently, ionic conducting polymer film (ICPF) [2] has been extensively developed as new materials.
The tail is actuated by ICPF, a body is made of wood material.
The body of micro-robot is mainly made of wood material for lightweight.
[5] Li Desheng, Nie Lin and Guo Shuxiang: Chinese Journal of Sensor and Actuators, vol.21, No.11 (2008) p. 1840-1843
Howell, Craig Lusk, et al, Journal of Machine design, vol. 127, p. 760-765 (2005)

Corrosion rates in atmospheric and seawater environments of Peruvian Port, The Open Corrosion Journal, 2 (2009) 130-138
Panosian, Evaluating Zn, Al and Zn-Al coatings on carbon steel in a special atmosphere, Construction and Building Materials, 23 (2009) 1465-1471
Malakondaiah, Corrosion characteristic of DMR-1700 steel and comparison with different steels in marine environment, Materials Science and Engineering, 391 (2005) 235-242
Carlos, Corrosion protection with polyaniline and polypyrrole as anticorrosive additives for epoxy paint, Corrosion Science, 50 (2008) 721-728
Miszczyk, Improvement of electrochemical action of zinc-rich paint by addition of nanoparticulate zinc, Corrosion Science, 66 (2013) 380-391

China 2 College of Material Science and Engineering, South China University of Technology, Guangzhou 510640, P.
The common difficulties encountered in the process of synthesizing these functional polyesters using polyfunctional monomers include the following [2]: (1) multiple synthetic steps that lead to reduced yields from starting materials, (2) difficulty in attaining complete deprotection of functional groups, and (3) chain cleavage during deprotection.
Experimental Materials. 1,8-Octanediol (98% purity) was purchased from Aldrich Chemical Co..
Zong, European Polymer Journal Vol. 44 (2008), p.1123
Li, et al., Journal of Applied Polymer Science, n/a. doi:?

Influence of pulsed electric current on dendrite growth of Sn-Bi alloy via real-time observation Jing ZHU 1,a,Tongmin WANG1,b ,Jingjing XU 1,c , Zongning CHEN1, Honglan XIE2 , Tiqiao XIAO2 , Jun XU1, Tingju LI1 1 School of Materials Science and Engineering, Dalian University of Technology, Dalian 116024, China 2 Shanghai Synchrotron Radiation Facility, Shanghai 215600, China azhujing821229@163.com, b tmwang@dlut.edu.cn, cjojo_dut@hotmail.com Keywords: Sn-Bi alloy, synchrotron microradiography, dendrite growth, pulsed electric current Abstract: External fields (e.g. electromagnetic field, electric field, etc.) are often applied to modify the solidification structure of metallic alloys.
Two furnaces were used to provide the desired temperature control, each of which was made up of two identical, separable copper heaters surrounded with heat insulation material.
Uesugi: International Journal of Cast Metals Research Vol. 22(2009) , p.15
He: Journal of Liaoning Institute of technology, Vol. 23(2003), p.31
Zhai: Materials Science and Engineering A Vol. 497 (2008), p.147

Extraction, purification and cytotoxic activity of cerebrosides from Asterina pectinifera Haijiao Zuoa , Tian Wangb, Yanxia Qic, Qiancheng Zhaod, Zhibo Lie* College of Food Science and Engineering, Dalian Ocean University, Dalian Liaoning 116023, China azhj881114@163.com, e*zhibo1979@163.com *Corresponding author: Zhibo Li E-mail address: zhibo1979@163.com Keywords: Asterina pectinifera; Cerebrosides; Extraction; Purification; Cytotoxic activities Abstract.
Materials and methods Materials and reagents.
BEL7402 human hepatoma cells and Hela cervical carcinoma cells were obtained from College of Fisheries and Life Science, Dalian Ocean University and Dalian University of Technology respectively.
The amount of the blue-purple crystalline material was proportional to the number of living cells [13].
Stonika: Russian Chemical Bulletin Vol. 55, No.5, p. 928-933 [3] Xiaojun Liu, Wutong Wu: Pharmaceutical Biotechnology, In Chinese, Vol. 23, No.3 (1995), p. 19-23 [4] Zengqi Liu, Tao Jing.: Tianjin Medicine, In Chinese, Vol.15, No.4, (2003), p. 64-67 [5] Yisu Sang, Zhida Min: Chinese Journal of Biochemical Pharmaceutics, In Chinese, Vol.21, No.4 (2000), 211-213 [6] Yingtao Lv, Congmin Kang, Changhu Xue: Food Science, In Chinese, Vol.30, No.11 (2009), p. 26-28 [7] Yamada K, Sasaki K, Harada R, et a1.: Chemical&Pharmaceutical Bulletin Vol.50 (2002), p. 1467-1470 [8] Jin WZ, Kenneth LR, Elizabeth A: J Org Chem Vol.59 (1994), p. 144-147 [9] Fatttorusso E, Mangoni A: Progress in the chemistry of natural products, edtied by Springer Wien, New York, No.72 (1997), p. 215-301 [10] Natori T, Morita M, Akimoto K, et al.: Tetrahedron Vol.50, No.9 (1994), p. 2771-2784 [11] Wang LP, Wang T, Fehr W: Journal of Agriculture and Food Chemistry, Vol.54 (2006), p. 7812-7816 [12] Zhao, G.

Aging behavior of Cu-Cr-Zr-Y alloy LIU Yong1,a, WANG Dejun2,b and TIAN Baohong1,c 1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China 2College of Mechanical and Electric Engineering, Hebi Vocation and Technology College, Hebi 458030, China aliuyong@mail.haust.edu.cn, bwangdejun63@163.com, ctianbh@mail.haust.edu.cn Keywords: Cu-Cr-Zr-Y alloy, cold working, aging, high strength and high conductivity, mechanical properties.
Copper and copper alloy both have many good characteristics and have been widely used in many areas, like copper alloy lead frame materials for integrated circuits [4-6], high strength and magnetic conductor materials, heat exchange composite materials and chemical resistance parts used by the power companies in the coastal area [7], overhead power cable used by tramcar and streetcars [8-10].
[2] Chongqi Huang: Railway Science in China Vol. 1 (2001), p. 1-5.
Kulkarni, et al: Journal of Nuclear materials Vol. 99 (2001), p. 91-100
[9] Rishi P Singh, Alan Lawley, Sam Friedman: Materials Science and Technology A Vol. 145 (1991), p. 243-255

Research on structural inheritance characteristic and the related normalizing elimination process for 300M steel Dabo Liu 1, a*, Junwei Liu 2,b , Shiqiang Lu 2,c 1Beijing Institute of Aeronautical Materials, Beijing 100095, China; 2 College of Materials Science and Engineering, Nanchang Hangkong University, Nanchang 330063, China a* corresponding author, liudabo1969@163.com, bliujw1981@yahoo.com.cn, cniatlusq@126.com Keywords: 300M alloy steel; austenite grain; structural inheritance Abstract.
Experimental procedure 2.1 Experimental material After machining, the raw material in this experiment process is 300M steel forging cylindrical samples (10mm×10mm), whose original dimension is 30mm.
References [1] Tomita.Y,Okawa.T: Materials Science and Engineering A. 172 (1993), 145 [2] Kut'in A.B, Polyakova A.M: Metal Science and Heat Treatment. 33 (1991), 588 [3] Shin.Sung.Ho, Ryu.Ji.Ho: Journal of Korean Institute of Metal and Materials. 38 (2000), 110 [4] Krishtal.M.A, Kenis.M.S, Troshina.L.V: Metal Science and Heat Treatment. 28 (1986), 91 [5] Yugai.S, Kleiner.L, Shatsov.A, et al: Metal Science and Heat Treatment. 16 (2004), 539 [6] Jing.Q, Kang.D.T: Journal of Northeast Heavy Machinery Institute. 21(1997): 44 (in Chinese) [7] Mou.J, Zhang.F, Kang.D.T: Chinese Materials Transaction. 6 (1995), 25 (in Chinese)