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Baum, HVOF-Sprayed Alloy IN718 - The Influence of Process Parameters on the Microstructure and Mechanical Properties, in: Thermal Spray: A United Forum for Scientific and Technological Advances, C.
Taguchi, Introduction to Quality Engineering: Designing Quality into Products and Processes, 1986
[7] Senlin Xiao, Wanchen Sun, Jiakun Du, Guoliang Li, Application of CFD, Taguchi Method, and ANOVA Technique to Optimize Combustion and Emissions in a Light Duty Diesel Engine, Mathematical Problems in Engineering (2014) 502902 [8] S.

Value Chain-based Business Process Optimization Modeling for the Third Party Logistics Enterprise Hongbo Shan1,3,a, Shuxia Li 2,3,b and Weizhong Tong 2,c 1College of Mechanical Engineering, Donghua University, Shanghai, 201620, China 2School of Business, East China University of Science & Technology, Shanghai, 200237, China 3College of Engineering, University of Michigan, Ann Arbor, MI48109, USA ahbshan@dhu.edu.cn, bsxli@ecust.edu.cn, ctodd19860406@126.com Keywords: Value Chain, the Third Party Logistics, Process Optimization, Business Process.
Introduction Business process optimization is to redesign or improve the processes of organization in order to maximize the value added by processes, achieve performance improvement and advance competitive ability of enterprise [1,2].
[4] Yanzhao Lv, Dengke Yu: Finance Forum Vol.38 (2007), p.59-63, in Chinese

Czujko, Assessment of hydrocarbon explosion and fire risks in offshore installations: Recent advances and future trends, IES Journal Part A: Civil and Structural Engineering. 4 (2016) 167–179
Konoval, Effect of Residual Deformation of a Steel Column on its Fire Resistance under Combined Exposure “Explosion-Fire”, In Materials Science Forum. 968 (2019) 288-293
Series: Materials Science and Engineering. 708 (2019) 012058

Wear protection of deep drawing tools by systematic optimization of highly stressed surfaces Fritz Klocke1,a, Daniel Heinen1,b, Fabian Schongen2,c, Kristian Arntz1,d, Yuan Liu1.e, Vladimir Bäcker2,f, Björn Feldhaus2,g 1Fraunhofer Institute for Production Technology IPT, Steinbachstr. 17, 52074 Aachen 2Laboratory for Machine Tools and Production Engineering (WZL) of RWTH Aachen University, Steinbachstr. 19, 52074 Aachen afritz.klocke@ipt.fraunhofer.de, bdaniel.heinen@ipt.fraunhofer.de, cf.schongen@wzl.rwth-aachen.de, dkristian.arntz@ipt.fraunhofer.de, eyuan.liu @ipt.fraunhofer.de, fv.baecker@wzl.rwth-aachen.de, gb.feldhaus@wzl.rwth-aachen.de Keywords: Laser surface treatment, wear protection, tooling Abstract.
Surv. 3, 2003, p. 268–308 [5] Altan, T.; Vazquez, V.: Numerical Process Simulation for Tool and Process Design in Bulk Metal Forming, CIRP Annals – Manufacturing Technology 2, 1996, p. 599–615 [6] Roll, K.: Simulation of Sheet Metal Forming – Necessary developments in the future, In: LS-Dyna Anwenderforum, 2008, p. 59–68 [7] Roy, R.; Hinduja, S.; Teti, R.: Recent advances in engineering design optimisation: Challenges and future trends, CIRP Annals - Manufacturing Technology 2, 2008, p. 697–715 [8] Liang, J.J.; Qin, A.K.; Suganthan, P.N.; Baskar, S.: Comprehensive learning particle swarm optimizer for global optimization of multimodal functions, Evolutionary Computation, IEEE Transactions, 2006, p. 281–295 [9] Hortig D.; Schmoeckel, D.: Analysis of local loads on the draw die profile with regard to wear using the FEM and experimental investigations, Journal. of Materials Processing Technology. 1, 2001, p. 153–158 [10] Clausen, P.M.; Pedersen, C.D.W.: Non-Parametric Large Scale Structural
Optimization for Industrial Applications, III European Conference on Computational Mechanics, Solids, Structures and Coupled Problems in Engineering, C.A.
Treiber: "Der Laser in der Fertigungstechnik", Hoppenstedt Technik, Darmstadt 1990 [13] König, W.; Roznoki, L.; Schmitz-Justen, Cl; Treppe, F: Oberflächenveredeln mit Laserstrahlung, Laser and Optoelektronik 20, Nr. 2 (1988) [14] Klocke, F.; Scheller, D.: Process monitoring in laser surface treatment operations with reflection and temperature measurement, Production Engineering, München volume 4 (1997) issue 1, Berlin: Wissenschaftliche Gesellschaft für Produktionstechnik (WGP) [15] Vilar, R.: Laser Alloying and Laser Cladding, Deparamento de Engenharia de Materiais, Instituto Superior Tecnico; Materials Science Forum (Volume 301), Lasers in Materials Science, p. 229-252 [16] Partes K.: Analytical model of the catchment efficiency in high speed laser cladding. (2009) Surf.
International Journal for Numerical Methods in Engineering 2, 1977, p. 355–375 [18] Klocke, F.; Bäcker, V.; Feldhaus, B.; Zeppenfeld, C.; Rjasanow, S.; Grzhibovskis, R.: Coupled FE/BE-Analysis of the Deep Rolling Process, Advanced Technology of Plasticity, 2008, p. 666–671 [19] Bäcker, V.; Klocke, F.; Wegner, H.; Timmer, A.; Grzhibovskis, R.; Rjasanow, S.: Analysis of the deep rolling process on turbine blades using the FEM/BEM-coupling, IOP Conference Series: Materials Science and Engineering, 2010, p. 121-134 [20] Bäcker, V.; Klocke, F.; Timmer, A.; Mattfeld, P.; Schongen, F.; Grzhibovskis, R.; Rjasanow, S.: Time Efficient Numerical Tool Optimization for Wear Reduction in Deep Drawing.

Lord Engineering and Process Control Division, National Physical Laboratory, Hampton Road, Teddington, Middlesex, TW11 0LW, UK tony.fry@npl.co.uk, jerry.lord@npl.co.uk Keywords: Hole Drilling, Residual Stress, Fine Increments, X-Ray Diffraction, Validation Abstract.
The MPP programme was sponsored by the Engineering Industries Directorate of the Department of Trade and Industry.
[2] ASTM E 837-01e1, Standard Test Method for Determining Residual Stresses by the Hole drilling Strain-Gauge Method, 2001 (a) (b) [3] Gadow, R., Escribano, M., Buchmann, M., Residual Stress Analysis in thermally sprayed layer composites, using the Microhole Milling and Drilling Method, ITSC 2003, 05-08 May 2003, Orlando [4] Buchmann, M.; Gadow, R., High speed circular micro milling method for the determination of residual stresses in coatings and composites, In: Ceramic Engineering and Science Proceedings 213, eds.
Kandil, "Measurement of residual stress through a shot peened surface subjected to successive material removal", Materials Science Forum Vols. 404-407, pp. 653-658
Conference on Advances in Experimental Mechanics, Southampton, 6-7 Sept 2005.

The Research of Autonomic Computing of Internet of Things Based on Policy-driven Shi Jian The Engineering and technical college of Chengdu University of Technology, Leshan Sichuan, 614007 Keywords: Autonomic computing, RFID, policy-driven; Internet of Things Abstract."
September 11, 2009, national standards working group of things established in Beijing, "Experience China" Summit Forum was held.
The current Strategy for the autonomic computing and engineering in theory still in its infancy.
[5] Sharma, M.; Siddiqui, A., RFID based mobiles: Next generation applications, 2010 IEEE International Conference on Information Management and Engineering (ICIME), 2010: 523 – 526
[8] Kenneally, E.E.; Claffy, K.; Dialing Privacy and Utility: A Proposed Data-Sharing Framework to Advance Internet Research, IEEE Security and Privacy, Vol.8, No.4, 2010: 31 – 39

Belgorod, 308012, Russia 2National Research University Moscow State University of Civil Engineering, Yaroslavskoye Shosse, 26, Moscow, 129337, Russia.
Series: Materials Science and Engineering. 221(2017) 012011
Gilmiyarov, Strength and phase composition of autoclaved material: an approximation, Magazine of Civil Engineering. 83(7)2018 63–72. doi: 10.18720/MCE.83.6 [8] M.A.
Advances in Environmental Biology. 8 (13) (2014) 134–138
Kozhukhova, Autoclave Composites Containing Ferriferous Industrial By-Products, Materials Science Forum. 945 (2019) 1030-1035

Study on Utilizing Rapid Prototyping Technology to Build Oral and Maxillofacial Models Yih-Lin Cheng1, a and Wei-Shiun Lu1, b 1Department of Mechanical Engineering, National Taiwan University of Science and Technology, #43, Section 4, Keelung Road, Taipei, Taiwan, R.O.C.
According to the treatment plan which focuses on bones or teeth geometry, suitable image processing parameters can be utilized and the model can be compensated in advance.
Fegan, Medical rapid prototyping and 3D CT in the manufacture of custom made cranial titanium plates, Journal of Medical Engineering and Technology, 23-1 (1999) 26-28
Sutton, The use of a reconstructed three-dimensional solid model from CT to aid the surgical management of a total knee arthroplasty: a case study, Medical Engineering & Physics, 25 (2003) 523-526
Chen, Manufacturing of cardiac models through rapid prototyping technology for surgery planning, Materials Science Forum, 505-507 (2006) 1063-1068

Despite considerable research effort, practical engineering applications of this technique are still limited.
This is not only due to the complex wave propagation mechanism associated with Lamb waves but also due to operational and environmental conditions that can contaminate Lamb wave responses collected from real engineering structures [7].
The experimental tests have been performed in the Department of Mechanical Engineering at Sheffield University, UK.
Mota Soares (Eds.), Advances in Smart Technologies in Structural Engineering, Springer, Berlin, 2004, pp. 117-162
Golder, Time series models, Lecture Note on Advanced Quantitative Analysis, 2008

Experimental Study on Mechanical Properties of X-cor Sandwich Bi Jianping1,a, Dang Xudan1,a, Wang Xinli1,b, Xiao Jun2,c, Chen Haijun1,d, Zhang Hongsong1,e 1Department of Mechanical Engineering, Henan Institute of Engineering, Zhongshan North Road Longhu Xinzheng, Zhengzhou, China, 451191 2College of Material Science & Engineering, Nanjing University of Aeronautics and Astronautics, 29 Yudao Street, Nanjing, China, 210016 adangxudan2009@haue.edu.cn, bwangxinli01@sina.com, cdangxudan@nauu.edu.cn, dcannaccan@163.com, ezhsandchen@126.com Keywords: X-cor sandwich; compression properties; shear properties; tension properties.
Materials engineering, 2008, (6): 76-80
In: American Helicopter Society 57th Annual Forum, Washington: American Helicopter Society, 2001
In: ADVANIS, SHONAIKE G, Editors, Advanced Polymeric Materials.
Material engineering, 2009, (1): 50-54