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., China (College of Materials Science and Engineering, Nanjing Tech University, Nanjing 211816, China) Keywords: Stainless steel, Anodizing, Micro-nano structure, Corrosion resistance, Hydrophobic properties.
Advanced Materials Research, 2012, 486: 524-528 [4] Hu M M, Zhang D M.
Advanced Materials Research, 2012, 486:524-528
Advanced Materials Research, 2013, 794:714-730
Advanced Materials Research, 2012, 399-401:760-765.

Purchase Research on Supply Chain for EPC Project Zhang Jianwei1,a, Wang Fengshan2, b, Zhou Rushan3, C, Liu Bin4, d 1Architectural Engineering Institute of Dalian University, Dalian, China 2 Erdos municipal CPPCC, Erdos, China Erdos City Project Construction Committee, Erdos, China Erdos cost station, Erdos, China azjw19971228@163.com Keywords: EPC Project; Comparative Analysis; Supply Chain Management; Integration and Reconstruction; Supply Chain Procurement Management Mode Abstract.
Procurement decides the quality of materials supply in the process of engineering development and it is the important link in EPC project.
It is a beneficial revolution to bring advanced supply management in project supply management.
Engineering program management［J］．Engineering Management Journal，2009，21 (3) : 38-39
System Engineering and program management［C］AHS International 64th Annual Forum Proceedings．Alexandria: AHS 2008: 1640-1644．

., Advanced Ceramic Technologies & Products, Springer, 2012
Forum 761 (2013) 73-77
Forum 308-311 (1999) 509-514
Tanigawa, Theoretical Approach of Optimum Design for a Plate of Functionally Gradient Materials under Thermal Loading, Thermal Shock and Thermal Fatigue Behavior of Advanced Ceramics, NATO ASI Series E 241 (1992) 171-180
Wakashima, The Stress and Strains in a Thick-walled Tube of Functionally Graded Materials under Uniform Thermal Loading, International Journal of Japan Society of Mechanical Engineers Series A 36 (1993) 156-162

SALSA: Advances in Residual Stress Measurement at ILL T.
For this purpose a Coordinate Measuring Machine (CMM) [11] is available in FaME38, the Facility for Materials Engineering, located nearby at ILL.
References [1] T.Pirling, G.Bruno, P.Withers, SALSA - A New Instrument for Strain Imaging in Engineering Materials & Components, accepted for publication in Materials Science and Engineering A, (2006) [2] P.J.
Forum, 321-324, (2000) 206-211 [6] P.J.
Forum, 347-349, (2000) 107-112 [8] T.Pirling, Mat.

Towards this end, the pelletized fibrous filter was applied to advanced treatments in which the particles in the sewage water in the supernatant using solid-liquid separation from the final-settling reservoir was filtered with pelletized fibrous filters.
It is expected that the advanced sewage water treatment using the low-cost, high-efficiency pelletized fibrous filter will drastically reduce the concentration of pollutant substances in treated sewage water. 2.
Forum Vol. 658 (2010), p. 288-291 [2] K.Riahi,A.B.Mammou,B.Thayer:J.Hazardous Materials Vol.161(2009), P.608-613 [3] C.N.
Mulligan, N.Davarpanah,M.Fukue and T.Inoue : Chemosphere Vol 74(2009) P.779-786 [4] T.Inoue,M.Fukue, C.N.Mulligan and K.Uehara : Ecological Engineering Vol 35(2009), p.1249-1254

Closeness of the companies engaged in foundry engineering, protection of the technological components of foundry, non-transparency of the production resource potential, etc. are the factors that hinder the implementation of efficiency evaluation via benchmarking.
It lies in the fact that even an advanced foundry technology can be evaluated differently throughout the process of its implementation.
Discussion and Conclusions This system is especially demonstrative when applied to foundry technologies since foundry engineering is considered to be the basic element for the industry in general and machine building in particular and sets the further course of industrial production.
Bogdan, The resource efficiency assessment technique for the foundry production, Advanced Materials Research.  880 (2014) 141 - 145 [5] I.O.
Petrenko, Effects of crystallization conditions on lead tin bronze properties,   Advanced Materials Research.  880 (2014) 174 - 178  [8] D.A.

PREFACE This volume contains some selected papers from the 2012 International Conference on Manufacturing Engineering and Automation (ICMEA2012) which is to be held in Guangzhou, China, during November 16-18, 2012, and is co-organized by Guangzhou University, The University of New South Wales, Zhejiang University, National Formosa University, Huazhong University of Science and Technology and Xi'an Jiaotong University.
The conference aims to provide a high-level international forum for engineers, scientists, and students to present their new advances and research results in the field of Manufacturing Engineering and Automation.
This volume covered all aspects of manufacturing engineering and automation, particularly of modern design theory and technology, advanced manufacturing technologies, modeling, analysis and simulation of manufacturing processes, automation and control, material science and technology, and dynamics of mechanisms and systems.
The editors hope that this volume will provide the reader a broad overview of the latest advances in the field of manufacturing engineering and automation, and that it will be a valuable reference source for further research.
Liangchi Zhang The University of New South Wales, Sydney, NSW 2052, Australia Chunliang Zhang Guangzhou University, Guangzhou, 510006, China Jeng-Haur Horng National Formosa University, Yunlin County 632, Taiwan Zichen Chen Zhejiang University, Hangzhou, 310027, China August 15, 2012 The 2012 International Conference on Manufacturing Engineering and Automation (ICMEA2012) Sponsored by Guangzhou University, China The University of New South Wales, Australia Zhejiang University, China National Formosa University, Taiwan Huazhong University of Science and Technology, China Xi'an Jiaotong University, China Conference Organization Conference Chairman Liangchi Zhang, The University of New South Wales, Australia Conference Co-Chairmen Zichen Chen, Zhejiang University, China Chunliang Zhang, Guangzhou University, China Jeng-Haur Horng, National Formosa University, Taiwan Xieqing Huang, Xi'an Jiaotong University, China Organizing

Possibilities to Apply Friction Stir Processing FSP in Surface Engineering Cristian CIUCĂ1,a, Lia-Nicoleta BOȚILĂ2,b*, Radu COJOCARU3,c and Ion-Aurel PERIANU4,d 1,2,3,4National Research & Development Institute for Welding and Material Testing – ISIM; Address: 30, Mihai Viteazu Blvd., Postal Code 300222, Timisoara, Romania acciuca@isim.ro, blbotila@isim.ro, crcojocaru@isim.ro, daperianu@isim.ro Keywords: friction stir processing, surface engineering, metallic materials Abstract.
Due to the fact that friction stir processing (FSP) is an ecological and efficient technique, it is a real progress in the field of surface engineering.
This leads to increased interest in the manufacture of advanced materials for specific applications, materials that can be characterized by fine grain sizes [17].
Conclusions · Friction stir processing is a current process of surface machining, which can make significant contributions in the field of surface engineering.
Langdon, Advances in ultrafine-grained materials, Mater.

These results suggest that advanced processes developed for high performance MOSFETs such as oxide deposition followed by NO anneals are promising for the surface passivation of the BJTs.
Forum, 645-648 1033 (2010)
Forum, 645-648 1057 (2010)
Forum, 615-617, 821 (2009)
Forum, 389-393 985 (2002)

R05-2002-01512-0) of the Korea Science & Engineering Foundation.
Forum, Vol. 408-412 (2002), p. 75 [5] D.
Forum, Vol. 408-412 (2002), p. 1585 [7] I.
Forum, Vol. 408-412 (2002), p. 1591 [8] H.
Forum, Vol. 449-452 (2004), p. 781 [9] W.