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The above analyses demonstrated that the combinatorial approach using diffusion couple and advanced characterization can be utilized to investigate alloys that exhibit diffusionless martensitic transformation.
Structure of the layered martensitic phases of Ni–Mn–Ga alloys, Materials Science and Engineering: A 438 (2006) 931-934
Materials science forum, vol. 327: Trans Tech Publ, 2000. p.489-492
Defect & Diffusion Forum, vol. 371, 2016
Martensitic transformation and mechanical properties of Ni49+xMn36–xIn15 (x= 0, 0.5, 1.0, 1.5 and 2.0) alloys, Materials Science and Engineering: A 646 (2015) 57-65

Safety is a prerequisite for chemical production of the chemical engineering, large quantities of safety resources should be invested into the chemical engineering for preventing accidents.
While many chemical raw products of the chemical engineering also are flammable, toxic, corrosive substances, so there are many danger or unsafe factors with the whole chemical engineering.
This paper will briefly discuss the innovation of advanced method for evaluating efficiency of safety resources based on information of accounting.
Requirement of Enlargement of Safety Resources in Chemical Engineering.
So the chemical engineering industry must develop persistently, steadily and healthily.

INTRODUCTION Advanced high-strength steels (AHSS) find use in a wide range of industrial applications.
Their excellent mechanical properties allow the mass of the engineering parts made of them to be reduced.
Q&P process, an advanced heat treating technique, can be combined with unconventional forming procedures.
Further the research was supported from the project SGS-2013-028 „Support of students research activities in materials engineering field”.
Materials Science and Engineering A, January 2012, vol. 532, s. 585-592

Properties of Metallic Materials after Surface Self Nano-crystallization Guangyu Pei1, a, Dong Li 2,b and Kaibin Li 3,b 1 Department of Materials Engineering, Shanghai University of Engineering Science, shanghai 201620, China 2 Department of Materials Engineering, Shanghai University of Engineering Science, shanghai 201620, China 3 Department of Materials Engineering, Shanghai University of Engineering Science, shanghai 201620, China apgypgl@126.com, bfreedomsli@yahoo.com, clkbaaa@163.com Keywords: SSNC; strength; wear and friction; diffusion; fatigue Abstract.
[12] G Liu, J Lu, and K Lu: Materials Science and Engineering, Vol.
Guagliano: Procedia Engineering, Vol. 2 (2010), p. 1683–1690
Han: Key Engineering Materials, Vol. 384 (2008), p. 321-334
Lu: Materials Science and Engineering A, Vol. 445–446 (2007), p. 281–288

References [1] International Iron and Steel Institute, Committee on Automotive Applications, Advanced High Strength Steel (AHSS), Application Guidelines 4.1 [online].
B.Santos,Materials Science and Engineering A, Vol. 391, p. 296, (2005)
[3] O.Kwon,K.Lee, G.Kim,K.Chin,New Trends in Advanced High Strength Steel Developments for Automotive Application.
Materials Science Forum, Vols. 638-642, p. 136-141, (2010)
D.Bhole, G.Boundreau, A.Lee, E.Biro, Materials Science and Engineering A., Vol. 485, p. 334, (2008)

The unascertained measure evaluation model In the 1980s, China engineering academician Guangyuan Wang presents a new uncertain information evaluation model, namely the unascertained information[6,7].
Dehua, Research advances in regional water security strategy, Advances in Water Science, vol. 16, (2005), pp. 305-312
[4] Shouyu, Fuzzy Model and Method for Choosing Analogy Basins, Advances In Water Science, vol. 4, (1993), pp. 288-293
Kaidi, Unascertained measure model for quality evaluation of water environment, Environmental Engineering, vol. 18, (2000), pp. 58-60
Shangyang, Application of attribute recognition theory to evaluation of water safety, Journal of Shangdong university (Engineering Science), vol. 36, (2006), pp. 70-72.

Novel Fabrication Method of FGM Containing Nano-Particles - Centrifugal Mixed-Powder Method - Yoshimi Watanabe a and Hisashi Sato b Department of Engineering Physics, Electronics and Mechanics, Nagoya Institute of Technology, Gokiso-cho, Showa-ku, Nagoya, 466-8555, Japan a yoshimi@nitech.ac.jp; b sato.hisashi@nitech.ac.jp Keywords: Centrifugal force, nano-particle, centrifugal mixed-powder method Abstract.
With the advanced plasma nanotechnology cultivated in the first stage project as the core, in second stage project, research and development efforts will be directed toward high-functionalization of advanced nanomaterials and processing that will contribute to energy saving and reduction of environmental loads, as well as aiming at the development of regional industries.
There are four themes in our Knowledge Clusters, namely, Advanced Plasma Fundamental Nanotechnology (Theme 1), Development of Nanomaterials with Novel Surface Function (Theme 2), High-Efficiency Optical, Power Materials X and Devices (Theme 3) and Development of Nanocomposite Based on Interface Engineering (Theme 4).
References [1] ISPlasma2009, First International Symposium on Advanced Plasma Science and its Applications, pp. 17-20 (2009)
Sato: Chemical Engineering Vol. 54 (2009), p. 249 [10] Y.

Analysis of the Behavior of Bricks Using Finite Elements Alonso Zúñiga-Suárez1,a, Berenice Zúñiga-Torres*1,2,3,b, Guido Gualpa-Guzmán2,c and Francisco Hernández-Olivares3,d 1Department of Civil Engineering, Faculty of Engineering and Architecture, Private Technical University of Loja, Ecuador 2Technical and Technological Academic Unit - UTPL TEC, Private Technical University of Loja Ecuador 3Department of Construction and Architectural Technologies, Polytechnic University of Madrid, Spain aarzunigax@utpl.edu.ec, b,*bczuniga@utpl.edu.ec, cgggualpa@utpl.edu.ec, df.hernandez@upm.es Keywords: brick, numerical methods, soil-cement.
Introduction At present, the determination of the resistant characteristics of a structure are considered of first attention in fields of application such as civil engineering, architecture, solid mechanics, fluid mechanics, among others [1].
The technological advance together with the computational development has allowed the solution of new problems, that is, the applications with respect to the numerical methods and their implementation in software allow to characterize the behavior of the different structures through their modelling [2].
Forum, vol. 1023 MSF, pp. 147–154, 2021, doi: 10.4028/www.scientific.net/MSF.1023.147
Forum, vol. 1023 MSF, pp. 155–162, 2021, doi: 10.4028/www.scientific.net/MSF.1023.155

Numerical Prediction of the Effective Thermal Conductivity of Perforated Hollow Sphere Structures Seyed Mohammad Hossein Hosseini1, a, Markus Merkel2, b, Christian Augustin3, c, Andreas ¨Ochsner1,4, d 1Department of Applied Mechanics, Technical University of Malaysia, 81310 Skudai, Malaysia 2Department of Mechanical Engineering, University of Applied Sciences Aalen, 73430 Aalen, Germany 3Glatt GmbH,79589 Binzen, Germany 4University Centre for Mass and Thermal Transport in Engineering Materials, School of Engineering, The University of Newcastle, Callaghan, New South Wales 2308, Australia aHosseini smh@yahoo.com, bMarkus.Merkel@htw-aalen.de, cChristian.Augustin@glatt.com, dAndreas.Oechsner@gmail.com Keywords: Thermal Conductivity, Cellular Material, Porous Structure, Finite Element Method Abstract.
Fiedler and colleagues reported in [10] recent advances in the prediction of the thermal properties of syntactic metallic hollow sphere structures.
Forum Vol. 553 (2007), p. 39 [9] T.
Forum Vol. 553 (2007), p. 45 [10] T.

Case hardening steels are a group of high quality structural steels, which are mainly used in gear systems and driving elements in the automotive, aerospace and general engineering industries.
Introduction Case hardening steels are a group of high quality structural steels, which are mainly used in gear systems and driving elements in the automotive, aerospace and general engineering industries.
The chosen alloying concept - containing Al and Nb with only traces of Ti - can be carried forward without any risk to the current manufacturing process of engineering parts which are designated for high temperature carburising up to 1050°C.
[4] Bleck, W.; Pariser, G.; Trute, S.; Klinkenberg, C.: New Developments for Microalloyed Heat Treating Steels, Proceedings of THERMEC 2003, Processing and Manufacturing of Advanced Materials, 7.-11.
July 2003, Madrid, Spain, Materials Science Forum, Vol. 426-432 (2003) 2, p 1201-1206