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Harnisch: Environmental Science and Pollution Research 13 (2006) 350-358
Carlo: The International Journal of Life Cycle Assessment 15 (2010) 14
Achard: Journal of Sol-Gel Science and Technology 63 (2012) 25
Postlethwaite: The International Journal of Life Cycle Assessment 9 (2004) 14
Leskinen: Journal of Cleaner Production 29-30 (2012) 238-245

The thickness of the mixed layer of Al and Mg alloy was 15μm, and how the materials were connected was clarified.
Connection between the three materials was insufficient in this case.
Davey, Feasibility study of twin roll casting process for magnesium alloys, Journal of Materials Processing Technology, Vol. 192-193(2007), pp.300-305
Koga, Development of manufacturing process of wrought magnesium alloy sheets by twin roll casting, Journal of Achievements in Materials and Manufacturing Engineering, Vol. 20, Issues 1-2(2007), pp.515-518
Randle, Formation of intermetallic phases in diffusion-welded joints of aluminium and magnesium alloys, Journal of Materials Science, Volume 46(2011), Issue 2, pp 357-364.

References [1] V.S.Deshpande and D.Cebon: Journal of Materials in Civil Engineering Vol.12(3)(2000), p.262
Masad: Journal of Materials in Civil Engineering, Vol. 16(2)(2004), p.133
Cardon: Composites Science and Technology Vol. 59(9)(1999), p.1311
Chen: Construction and Building Materials Vol. 23(2009), p.3161
Chen: Journal of Engineering Mechanics Vol. 136(4)(2010), p.448.

Different methods, such as full immersion test, dry-wet cycle test and half immersion test, were developed to simulate sulfate attack process on cementitious materials and thus to evaluate resistance of cementitious materials to sulfate attack[10-11].
Experimental details Raw materials.
The resistance of cementitious materials to such physicochemical attack of sulfate is remarkably influenced by its compositions.
Journal of Building Materials, Vol. 6, No. 4, 2003, pp350-356(in Chinese) [8] M Santhanam, M D.
Study of the fundamental of Sulfate Attack on Cementitious Materials[D].

Approach for Setting Project Buffer with Engineering Materials Based on the Theory of Unascertained Rational Number Wanqing Li1, Zhe Zhao 1 Lingyu Meng 2 1 Hebei University of Engineering. 056038,Handan,China 2 Hebei University of Engineering. 056038,Handan,China yiyayiyo@yahoo.com.cn Key words: CCM; unascertained rational numbers; buffer size,Engineering materials Abstract.
Journal of Industrial Engineering and Engineering Management. 72--75 (2002) [4] Mi-yuan Shan, Ying Long: An approach for improving buffer of critical chain management and its application.
Science Press.
Journal of Jiangsu University of Science and Technology(Natural Science Edition). 75--78 (2009) [7] Wan-qing Li, Wen-qing Meng, technology of engineering network design.
Science Press.

Study on Manufacturing Materials with An Aspect-oriented Modeling Method for Embedded Software Product Lines HuaXiao Liu1, a, Bing Li1, b, Ying Jin1, c, XueHang Chi1, d 1College of Computer Science and Technology, Jilin University, Changchun, China ajlulhx@gmail.com, bLiBing@mails.jlu.edu.cn, cjinying@jlu.edu.cn, dChixh@jlu.edu.cn Keywords: Product Line, Manufacturing materials, Aspect Oriented, Product Derivation, OVM_AO.
For different Manufacturing Materials, various embedded software is often needed to use to configure and implement different functions during the processing of production.
We can quickly product several embedded systems suitable for different materials to improve production efficiency and reduce production costs.
According to the OVM_AO meta-model given in this paper, we give the approximate conversion rules to the AOP model elements from OVM_AO model as shown: Fig.3 The conversion rules form the OVM_AO model to the AOP model elements Summary The method proposed in this paper, can reduce the software cost effectively when manufacturing with different materials, and provide a good protection for the automated material equipped.
IEEE Journals & Magazines volume 19, pages 32-40, 2002

For the given combination of materials, the three materials junction has stronger stress singularities (lower eigenvalues) on singular points and the strength of the bi-material junction is stronger than tri-material junction.
Comparing figure 6 and figure 8, it can be known that the stress functions in softer materials vary slower than in harder materials with increasing θ.
But for the displacements, shows in figure 7 and figure 9, values in softer materials vary much more rapidly than in harder materials.
All these performances are consistent with mechanical behavior of materials.
Munz, Y.Y.Yang: International Journal of Fracture Vol. 60(1993), p. 169-177

Kawashima: Journal of Materials Processing Technology, Vols. 143-144 (2003), p. 682-686 [3] A.M.
Khatri: Journal of Materials Processing Technology, Vol. 190 (2007), p. 282-290 [4] M.
Komanduri: Journal of Manufacturing Science and Engineering , Vol. 119 (1997), p. 520-528 [5] S.H.
Yuan: Key Engineering Materials, Vols. 304-305 (2006), p. 113-117 [8] S.M.
Chen: Key Engineering Materials, Vol. 416 (2009), p. 583-587 [9] H.B.

Introduction Moisture diffusivity is a crucial parameter for description of moisture transport in building materials.
Determination of the Liquid Water Diffusivity from Transient Moisture Transfer Experiments, Journal of Thermal Envelope & Building Science, vol. 27(4), 2004, pp. 277-305
Černý, Application of Genetic Algorithm for Determination of Water Vapor Diffusion Parameters of Building Materials, Journal of Building Physics, vol. 35 (3), 20102, pp. 238-250 [11] Z.
Černý, A Boltzmann Transformation Method for Investigation of Water Vapor Transport in Building Materials.
Journal of Building Physics, vol. 35, 2012, pp. 213-223

Knésl: Computational Materials Science 45 (2009), p. 653-657 [4] P.
Knésl: Computational Materials Science 39 (2007), p. 214-218 [6] K.Y.
Hutař: Computational Materials Science 46 (2009), p. 614-620 [8] L.
Hutař: Materials Science Forum, Vols. 567-568 (2008), p. 225228 [9] K.H.
Tuan: Materials Science and Engineering A 393 (2005), p. 133-139 [11] B.N.