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Making humanlike robots is the ultimate challenge to biomimetics and, while for many years they were considered a science fiction, such robots are increasingly becoming engineering reality.
Introduction Making humanlike robots is the ultimate challenge to biomimetics and increasingly they are becoming an engineering reality as robots that are behaving lifelike.
In an effort to promote significant advances in humanoids technology and making society more resilient, the USA’s Defense Advanced Research Projects Agency (DARPA) posed in 2012 a Robotic Challenge to produce such robots that operate in disaster scenarios.
The DRC has been a forum that led to advances in making such robots becoming faster, more autonomous, and more adaptable but they still have significant shortcomings.
Harris, “To be almost human or not to be, that is the question”, Engineering Feature Article, Electronic Design J.

Srivatsan „The rapid solidification processing of materials: science, principles, technology, advances and applications”, Journal of Materials Science, Vol. 45, (2010), pp. 287 [2] C.
Kiminami „Rapidly solidified Al-6Si-3Cu alloy”, Materials Science Forum, Vol. 570 (2008), pp. 103 [3] J.
Hu „Microstructure and mechanical properties of rapidly solidified AZ91HP alloy” Materials Science Forum, Vol. 488-489 (2005), pp. 249 [4] S.
Baburaj „Synthesis of nanocrystalline materials – an overview” Materials Science and Engineering A301 (2001) pp.44 [8] D.
Sheppard „Characteristics of an Al-7Fe-2Mo alloy prepared from RS powders” Key Engineering Materials, Vol. 38-39 (1990), pp.263 [10] D.

Schweitzer, F-33608 Pessac Cedex, France 4 Department of Materials Engineering, Technion – Israel Institute of Technology, Haifa 32000, Israel 5 LMI, UMR CNRS 5615, Université Claude Bernard-Lyon 1, 43 bvd du 11 novembre 1918, 69622 Villeurbanne Cedex, France 6 Université de Toulouse, UMR CNRS-UPS-INP 5085, CIRIMAT, Université Paul-Sabatier, Bât. 2R1, 118 route de Narbonne, 31062 Toulouse cedex 9, France Kewords: Nanomaterials, Spark Plasma Sintering, Mechanisms, Ceramics, Coatings Abstract In the field of advanced ceramics, Spark Plasma Sintering (SPS) is known to be very efficient for superfast and full densification of ceramic nanopowders.
Forum 308–311, 1999, 83
Estournès, Materials Science and Engineering: A, 527(6), 2010, 1577
Monceau, Advanced Engineering Materials  9(5), 2007, 413
Estournès, Materials Science Forum Vols 595-598 2008, 143

Advanced Bainitic and Martensitic Steels with Carbide-Free Microstructures Containing Retained Austenite D.
Recent decades have witnessed some remarkable advances in engineering steels driven by the need to respond to challenges posed, for example, by recovery and transmission of oil and gas, or enhanced vehicle safety and fuel economy.
Advanced High-Strength Automotive Steels: Dual Phase (DP) Steels.
Forum Vol. 284 (1995), p. 419 [11] K.
Fekete et al., in *ew Developments in Advanced High-Strength Sheet Steels, edited by J.G.

The Dynamic Fluctuation Relationship between China’s Urbanization and the Disparity of Urban-Rural Resident Living Direct Carbon Dioxide Emissions: a SVAR Analysis Yaqin Liu1, 2, a, Guohao Zhao3, b 1School of Information Management, Shanxi University of Finance & Economics, Taiyuan 030031, China 2School of Statistics, Shanxi University of Finance & Economics, Taiyuan 030006, China 3School of Management Science and Engineering, Shanxi University of Finance & Economics, Taiyuan 030006, China aliuyaqin2003@126.com, bgzhao1958@yahoo.com.cn Keywords: SVAR model, urbanization, resident living direct carbon dioxide emissions, impulse response function, variance decomposition Abstract: Currently, continuous China’s urbanization will emit considerable carbon dioxide emissions, so that China is facing mounting pressure from not only the international community but also domestic itself.
Based on the above conclusions, in order to reduce resident living direct carbon dioxide emissions, the government should take effectively great efforts on energy structure dynamic adjustment, energy efficiency improvement, and energy substitution, at the same time develop a lot of advanced technologies both in the energy supply and demand sides.
Forum on Science and Technology in China.
Advances in Earth Science.
West Forum.

Subjects of the MED (UJA) related to FMS Module Matter Subject Type ECTS Common to the Industrial Branch Mechanics Manufacturing Engineering (ME) Compulsory 6 Specific Technology in Mechanics Advanced Mechanics Manufacturing Technology (MT) Compulsory 6 Elective Technology and Mechanical Manufacturing Machining (M) Elective 6 Applied Manufacturing Technologies (AMT) Elective 6 Table 2.
Introduction to FMS Manufacturing Engineering (ME) 0.5 2.
Bermudo, Analysis of the integrated implementation of the Manufacturing Engineering subject in Engineering Degrees at the Malaga University, Mater.
Forum 759 (2013) 1-9
Forum 853 (2016) 24-29

In Changzhou Institute of Technology civil engineering, we base on the “Double Qualified Teacher” teams, implement the double mentors mechanism in students training to enhance students’ engineering process capability.
These double mentors guide student practice activities in accordance with engineering standards and allow students to solve real engineering problems.
Students who join excellence program have more than one year working time in one company, which will help the students to study advanced technology and cooperative culture, to participate in the practical project and technological innovation and to train the professional spirits and ethics.
For civil engineering in a local college, it is a priority to train excellent engineers who has technology and management ability and awareness of the career regulations.
Zhao, The Exploration and Practice of Cultivation Model for Cooperative Application Talents between College and Enterprise in Civil Engineering, Education Forum, March 2010, p. 10-12

Richert, in: Advanced Methods in Material Forming, edited by D.
Suzuki: in Advanced Technology of Plasticity, edited by M.
Srinivasan: in Seventeenth International Symposium on Processing and Fabrication of Advanced Material XVII, New Delhi, 15-17 December 2008, edited by N.
Rosochowski: in Proc. of the 4th International Conference on Advances in Production Engineering, APE'07, 14-16 June 2007, Warsaw, Poland, edited by L.
Olejnik: Materials Technology: Advanced Performance Materials Vol. 24 (2009), p. 139 [48] A.

AMMIS2013 provided a forum for academic scientists, leading engineers, industry researchers and scholar students to exchange and share their experiences and research results.
The editor hopes that this book will provide readers a broad overview of the latest advances on Applied Mechanics, Mechatronics and Intelligent System.

Proceedings of the Royal Society A Mathematical, Physical and Engineering Sciences 469 (2013) 21-54
Mamedov, Spark plasma sintering as advanced PM sintering method, Powder Metallurgy, 45:4, DOI: 10.1179/003258902225007041, (2002) 322-328
[6] Zarebski Krzysztof, Putyra Piotr, Iron powder-based graded products sintered by conventional method and by SPS, Advanced Powder Technology 26(2) (2015) 401–408
Vol. 6: Metallography (1999) [12] Marius Catalin Criveanu, Andrei Rotaru, Methodologies for obtaining carburized steels by powder metallurgy, Advanced Engineering Materials.
[14] Claudiu Nicolicescu, Daniel Zorilă, Victor Nicoară, Marco Actis Grande, Marius Criveanu, Iulian Ştefan, Research Regarding the Influence of Copper Powders on Tensile Strength of Sintered Steels, Advanced Engineering Forum (Volume 13) - Advances in Engineering & Management, (2015) 103-108.