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Poo: Error Compensation in Machine Tools – A Review Part I: Geometric, Cutting-Force Induced and Fixture Dependent Errors, International Journal of Machine Tool & Manufacture, Vol. 40, (2000), pp. 1235-1256
ASME Journal of Manufacturing Science and Engineering, Vol. 126, (2004), pp. 710-718
Garrard: Tool Force and Deflection Compensation for Small Milling Tools, Precision Engineering, Vol. 28, (2004), pp. 31-45
Goto: Precision Cutting of Aspherical Ceramic Molds with Micro PCD Milling Tool, CIRP Annals - Manufacturing Technology, Vol. 56, (2007), pp. 131-134
Erdim: Five-Axis Milling Mechanics for Complex Free From Surfaces, CIRP Annals - Manufacturing Technology Journal, Vol. 60, (2011), pp.117-120.

Study on the Preparation and Properties of PAA/BC/Na-MMT Composites Shen Huiling1*, Long Lijuan1, Jia Shiru2 1College of Material Science and Chemical Engineering, Tianjin University of Science & Technology, Tianjin, 300457, P.R.
Journal of Controlled Release, 43-56(2006), p. 113
Journal of Science and Engineering, May. 235-240(2002), p. 4
Ceramics International, 643-653(2007), p. 33
Journal of Mater.

Ain Shams Engineering Journal. 5, 205-212
International Journal of Engineering Research and Applications, 2(5), 2080-2095
International Journal of Engineering Sciences and Research Technoledge, 3(5), 196-205
International Journal of Modern Engineering Research, 2(5)(2012) 3458-3468
International Journal of Applied Science and Engineering, 11(3)(2013) 267-275.[29] V.

Ai School of Mechanical Engineering, Shandong University, Jinan, 250061, China Keywords: Grinding, Polycrystalline diamond, Mechanism Abstract.
Journal Title and Volume Number (to be inserted by the publisher) 205 2.
Liu: International Journal of Machine Tools and Manufacture Vol. 42 (2002), p. 331 [2] P.J.
Heath: Journal of Materials Processing Technology Vol. 116 (2001), p. 31 [3] K.W.
Gao: Journal of Abrasive & Grinding No. 6 (1985), p. 22 (in Chinese) [5] I.

Investigation of Tool-wear and Surface Roughness in Turning Ti6Al4V under different cooling lubrication conditions Wang Tengda1,a, Liu Erliang1,b,Li Zhen1,c,Ju Hongyan1,d,Zheng Yongchun1,e 1College of Mechanical and Power Engineering, Harbin University of Science and Technology, China ayongaiwangtengda@163.com,belliu@163.com,clz8182@126.com,djuhongyana@126.com, eyongchun889516@163.com Keywords: Cooling and lubrication, Tool Wear, Chip morphology, Surface Roughness Abstract.
Yang Fan et al used the steam as cooling coolant, found that the cutting force reduced 6%~17% and the surface quality improved when ceramic tool cut AISI 304 stainless steel[5].
[2] Wang Z G, Wong Y S, Rahman M，High-speed milling of titanium alloys using binderless CBN tools，International Journal of Machine Tools and Manufacture. (2005), (45):105-114
[3] Nandy A K, Gowrishankar M C, Paul S，Some studies on high-pressure cooling in turning of Ti6Al4V，International Journal of Machine Tools and Manufacture. (2009), 49(2):182-198
[6] Houry M, Driver N, Mativenga PT，Chip morphology and cutting forces in high speed end milling of titanium Ti6Al4V Alloy，Proceedings of the 34th International MATADOR Conference, Hinduja, S.

China. 2School of Mechanical Engineering and Automation, Northeastern University, Shenyang 110819, P.R.
As mentioned above, natural frequencies fitting with variables tension, thickness and width can not be used in engineering on account of oversize errors.
References [1] Lin Wang, Qiao Ni: International Journal of Solids and Structures, Vol. 45(2008), p. 445
Tan: International Journal of Non-Linear Mechanics, Vol. 37(2002), p. 101
[6] H R Öz, M Pakdemirli, H Boyacı: International Journal of Non-Linear Mechanics, Vol. 36(2001), p. 107

The Analysis of Finishing Tooling Influence on Friction Factor Examined by T-05 Tester Wojciech LABUDA1, a * and Adam CHARCHALIS2, b 1, 2Gdynia Maritime University, Faculty of Marine Engineering, Morska Street 81-87, 81-225 Gdynia, Poland awlabuda@am.gdynia.pl, bachar@am.gdynia.pl Keywords: finish treatment, surface layers, stainless steel, friction factor.
The process engineer has a range of production techniques to choose for the proper surface layer formation.
Arps, Effect of surface treatments on fretting fatigue of Ti–6Al–4V, International Journal of Fatigue 29 (2007) 1302–1310
Starosta: The effect of the ceramic dispersion on the nickel matrix composite coating properties after plastic working, Solid State Phenomena, 147–149 (2009) 813–818
Jacobson, The Stribeck memorial lecture, Tribology International 36 (2003) 781–789.

Their properties as structural materials for aerospace engineering have been studied in sufficient detail.
Cellular bioinert ceramic materials may be used to replace large bone defects, based on aluminium oxide and zirconium oxide.
Powder metallurgy in dental and orthopedic implants // Topical problems of powder material science: Materials of the International Scientific and Technical Conference dedicated to the 85th anniversary of the academician V.N.
Belg., 2006, 72, 55-64 [8] Cementless isoelastic RM total hip prosthesis / Renato Bombelli, Robert Mathys // Journal of the Roval SocietY of Medicine Volume 75 August 1982.
(in Russian) [14] Dental root implants produced by the combined selective laser sintering/melting of titanium powders/ N K Tolochko T Laoui, L Froyen and all /// Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications. - Volume 216, -Number 4 / 2002.

Many applications require very tight tolerances, and both functional and structural requirements demand the use of various engineering materials, including stainless steel, titanium, brass, aluminium, plastics, ceramics, and composites [1-2].
Further shop floor trials are to be undertaken in a variety of engineering applications.
Journal of Manufacturing Science and Engineering.
International Journal of Advanced Manufacturing Technology, 47: 911-918
Proceedings of the IMechE, Part B, Journal of Engineering Manufacture, 224/B6: 995-1003.

Fabrication of Superhydrophobic Coatings on Copper Substrate Hongqin Liu 1,a, Wei Pan 2 and Baocai Xu 1,b 1School of Food and Chemical Engineering, Beijing Key Laboratory of Flavor Chemistry, Beijing Higher Institution Engineering Research Center of Food Additives and Ingredients, Beijing Technology and Business University, Beijing 100048, China 2State Key Laboratory of New Ceramics and Fine Processing, Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, China aliuhongqin@th.btbu.edu.cn, bxubaoc@btbu.edu.cn Keywords: Superhydrophobic surface; Copper; Cu(OH)2 films Abstract.
Saunders, Remarkably simple fabrication of superhydrophobic surfaces using electroless galvanic deposition, Angewandte Chemie International Edition. 46 (2007) 1710-1712
Lu, Fabrication of stable superhydrophobic supric hydroxide surface with hierarchical structure on copper substrate, Journal of Beijing Institute of Technology. 18 (2009) 339-344.