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Srinivasan3,e 1Department of Mechanical Engineering, Marri Laxman Reddy Institute of Technology and Management, Telangana 500043, India 2Department of Materials System Engineering, Pukyong National University, Busan 48510, Republic of Korea 3Department of Manufacturing Engineering, School of Mechanical Engineering, Vellore Institute of Technology, Tamil Nadu 632014, India Email: adevuri.venky@gmail.com, *bmuralicheepu@gmail.com, cpnagva@gmail.com, dsenthilkumaran.s@vit.ac.in, esrinivasan.narayanan@vit.ac.in Keywords: Microstructure, Mechanical properties, Aluminum alloys, Friction stir welding, Optimization.
Seshabhattar (Eds.), Techno-Societal 2016, International Conference on Advanced Technologies for Societal Applications, ICATSA 2016, Springer, Cham, 2018, 709-717
In Advances in Materials and Metallurgy, pp. 271-281.
(eds) Advanced Materials.
Forum. 710 (2012) 620-625

Ferrier, Push-out and bending tests of steel-concrete adhesively bonded composite elements, Engineering Structures. 231 (2021) 111717
Materials Science Forum. 938 (2018) 46–53
Krishan, Composite materials: Science and engineering, Springer Science & Business Media, New York, 2013
Jasiūnienė, Advanced ultrasonic NDT for weak bond detection in composite-adhesive bonded structures, International Journal of Adhesion and Adhesives. 102 (2020) 102675
Budinski Engineering materials: Properties and selection, Prentice Hall, Hoboken, New Jersey, USA, 2010.

Iman, The Effect of Ni-Al2O3 nanocomposite coatings on the wear and corrosion resistance and thermal diffusivity of 316 stainless steel plates of heat exchangers, Journal of Materials Engineering and Performance, 32-4 (2023) 1529-1544
Kumar, The State of the art for wire arc additive manufacturing process of titanium alloys for aerospace applications, Journal of Materials Engineering and Performance, 31 (2022) 6149-6182
Chen, Effect of hydrogen precharging on mechanical and electrochemical properties of pure titanium, Advanced Engineering Materials, 22 (2020) e1901182
Poletti, Microstructure refinement of a cast high entropy alloy by thermomechanical treatments, Materials Science and Engineering A, 872 (2023) 144931
Zhang, General relationship between strength and hardness, Materials Science & Engineering.

Model Predictions for New Iron Ore Sintering Process Technology Based on Biomass and Gaseous Fuels Jose Adilson de Castro1,2 a 1 Federal Fluminense University - Graduate Program on Mechanical Engineering- Volta Redonda, RJ, Brazil, 27255-125 Tel: +55 24-2107-3756 2 Environmental Metallurgy Laboratory (IML) Graduate Institute of Ferrous Technology (GIFT)-Pohang University of Science and Technology, San 31 Hyojay-Dong, Nam-Gu, Pohang, 790-784, South Korea ajosedilsoncastro@id.uff.br Keywords: Sintering process, Multiphase modeling, Gaseous fuels, Biomass Abstract.
A base case representing a possible actual industrial operation of the sintering machine is used in order to compare different scenarios of practicable operations which represents advanced operations techniques.
Sasaki: Advanced Mat.
Forum Vol. 727(2012), p. 26 [15] M.

Shokuhfar1,b 1Mapna Group, Mapna locomotive Company(MLC), Production Department, Karaj, Iran 2Advanced Materials & Nanotechnology Research Center, Faculty of Mechanical Engineering, K.N.Toosi University of Technology, Tehran, Iran aozhdelnia@gmail.com, bshokuhfar@kntu.ac.ir Keyword: Mechanical alloying; Al-4.5wt%Mg /TiC; Crystallite size; MMC.
El-Eskandarany: Mechanical Alloying for Fabrication of Advanced Engineering Materials (Noyes Publications/William Andrew Publising, New York 2001)
Forum Vol. 273-276 (2008), p. 622

Effect of deformation and annealing on microstructure and properties of composite Cu–10Fe-3Ag wire Yong LI 1,2,a, Danqing YI 1,b, Ruiqing LIU 2,c, Shunping Sun1,d 1Department of Material Science and Engineering, Central South University, Changsha 410083, China 2National Center for Copper Smelting and Process Engineering Technology Research, Ganzhou 341000, China aliyong0248@163.com, bdanqing@mail.csu.edu.cn, cliuruiqing66@yahoo.com.cn, dssp19811117@sina.com Keywords: Cu-10Fe-3Ag in-situ composite；Fe fiber；hardness; conductivity Abstract：A Cu–10Fe–3Ag alloy was produced by means of induction melting.
According to three kinds of different models explained the instability change Fe fiber advanced by Mullins [14], Rayleigh [15] and Courtney [16], the thermal stability of the Fe fibers depends on three factors: the initial size of fibers; interfacial energy of fiber/matrix; the diffusion coefficient of the Fe element in the matrix given annealing temperature and heat preservation time.
Forum 539–543 (2007) 2798–2803

Antagonistic Shape Memory Alloy Actuators in Soft Robotics Tien Sy LE1,a*, Holger SCHLEGEL1,b, Welf-Guntram DROSSEL1,c, Andreas HIRSCH1,d 1Technische Universitaet Chemnitz, Faculty of Mechanical Engineering, Institute for Machine Tools and Production Processes, Reichenhainer Str. 70, Germany atien-sy.le@s2013.tu-chemnitz.de, bholger.schlegel@mb.tu-chemnitz.de, cadaptronik@mb.tu-chemnitz.de, dandreas.hirsch@mb.tu-chemnitz.de Keywords: shape memory alloys, soft robotics, antagonistic actuators Abstract.
-32, 2015 [4] Seok, S.; Onal, C.O.; Wood, R.; Rus, D.; and Kim, S.: Peristaltic locomotion with antagonistic actuators in soft robotics, Anchorage, Alaska, USA, 2010 [5] Hino, T.; Maeno, T.: Development of a Miniature robot Finger with a Variable Stiffness Mechanism using Shape Memory Alloy, Queretaro, Mexico, 2004 [6] Newell, G.E.: The role of the coelomic fluid in the movements of earthworms, Journal of Experimental Biology, 27:110-122, 1950 [7] Menciassi, A.; Gorini, S.; Pernorio,G.; Dario,P.: A SMA Actuated Artificial Earthworm, IEEE Internaltional Conference on Robotics and Automation 2004 Proceedings ICRA 04 2004 4: 3282-3287 Vol.4 [8] Liu, C.Y.; Liao, W.H.: A Snake Robot Using Shape Memory Alloys, Proceedings of the IEEE, International Conference on Robotics and Biomimetics, Shenyang, China, 2004 [9] Cianchetti, M.; Arienti, A.; Follador, M.; Mazzolai, B.; Dario, P.; Laschi, C.: Design concept and validation of a robotic arm inspired by the octopus, Materials Science and Engineering
On Robotics and Automation, Vol.12, No.1, pp. 90-102, February 1996 [11] Šitum, Z.; Herceg, S.: Design and Control of a Manipulator Arm Driven by Pneumatic Muscle Actuators, 16th Mediterranean Conference on Control and Automation Congress Centre, Ajaccio, France, June 25-27, 2008 [12] Schiedeck, F.: Entwicklung eines Modells fuer Formgedaechtnisaktoren im geregelten dynamischen Betrieb, Dissertation, Leibniz Universitaet Hannover, 2009 [13] Pagel, K.; Bucht, A.; Jung, J.: Numerische Simulation des Aktivierungsverhaltens von thermischen Formgedaechtnislegierungen, Model Based Design Forum, Darmstadt, 2009 [14] Oelschlaeger, L.: Numerische Modellierung des Aktivierungsverhaltens von Formgedaechtnisaktoren am Beispiel eines Schrittantriebes, Dissertation, Shaker Verlag, 2004 [15] Madill, D.R; Wang, D.: Modeling and L2-Stability of a Shape Memory Alloy Position Control System.
J.; Hägglund, T.: Advanced PID Control.

Optimization of Ta Content of a Third Generation Ni3Al Base Single Crystal Superalloy Songming Han1,a, Wei Li1,a, Yue Ma 1.b, Xinbao Zhao2,c, Shusuo Li1,d and Shengkai Gong1,e 1School of Materials Science and Engineering, Beihang University, Beijing 100191, China 2Xi’an Thermal Power Research Institute Co., Ltd., Xi’an, Shaanxi 710032, China ahansongming@126.com, bmayue@buaa.edu.cn, czhxb001@163.com, dlishs@buaa.edu.cn, egongsk@buaa.edu.cn Keywords: γ' phase, Ni3Al based single crystal superalloy, Ta, Microstructure.
[3] Pollock TM, Tin S, in: Nickel-based superalloys for advanced turbine engines: chemistry, microstructure and properties.
Materials Science Forum Vol. 788 (2014): 426-432
Materials Science and Engineering: A, Volume 300, Issues 1–2, 28 February 2001, Pages 52-60

Effect of Forming Parameters on the Mechanical Properties of Thixomolding AZ91D Magnesium Alloy Xiaopeng Cui 1, a, Haifeng Liu 2,b , Tao Zhang 3,c ,Yongbing Liu3,d 1 Department of Materials Science and Engineering of Changchun University of Technology, the Key Laboratory of Advanced Structrural Materials, Ministry of Education, Changchun, China 2 R&D Centre of Foundry Corporation, FAW Group Corporation, Changchun, China 3 List all distinct addresses in the same way Department of Materials Science and Engineering of Jilin University, the Key Laboratory of Automobile material, Ministry of Education, Changchun, China a cuixiaopeng2004@126.com, bliuhf2004@126.com, cyizumi@yizumi.net, dybingliu@jlu.edu.cn Keywords: Process Conditions; Mechanical Properties; Thixomolding Abstract.
Forum Vol. 546-549 (2007), p. 93 [9] Xiaopeng Cui: The research on the microstructure and process of Thixomolding AZ91D magnesium alloy (Doctoral dissertation, Jilin University, China 2006).

Finite Element Model updating of a prestressed concrete continuous bridge based on dynamic monitoring Gang Xue1,a, Weiyu Bai1 and Xian Wang1 1Architecture and Civil Engineering School, Inner Mongolia University of Science and Technology, Baotou 014010,China axuegang-2008@126.com Key words: Model updating; Sensitivity analysis; Ambient vibration; Finite element model Abstract: The finite element model modified technique based on optimization principle is benefit for the model updating of the large bridge structures.
Forum Vol. 83-87 (1992), p. 119 [2] Zhifang Fu, Hongxing Hua.Modal analysis theory and applications [M].
ANSYS numerical analysis of engineering structure[M].Beijing: People's transportation press,2007,in chinese [4] Dongyan Lin,NED H.
Journal of applied mechanics, 2009,26(2):288-296,in chinese [6] Yi Bo Studios.ANSYSY 9.0 classic products advanced analysis techniques and instance details[M].