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The aim is to make a significant contribution, offering solutions that transcend automation and seek synergies between human and robotic capabilities.State of the Art In recent years, the development of robots with advanced mobility and work capabilities has progressed significantly.
As a response, research efforts have been directed towards advancing Human-Robot Interaction (HRI) technology, particularly in the recognition of human information, judgments, and expressions.
This achievement demonstrates the practical application of advanced technologies in enhancing human-robot interaction.
Russo, Recession and automation changes our future of work, but there are jobs coming, report says, World Economic Forum, 2020.
Harne, Implementation of a wireless gesture controlled robotic arm, International Journal of Innovative Research in Computer and Communication Engineering, 03(01), pp. 375-379, 2015. doi:10.15680/ijircce.2015.0301031 [7] P.

Effect of Mo and Mo+Nb Additions on the Phase Transformation and Microstructure of a Developed Low-Carbon CrNiMnB Ultrahigh-Strength Steels with a Preceding Hot Deformation Mohammed Ali1,2,a*, Tuomas Alatarvas3,b, Tun Nyo1,c and Jukka Kömi1,d 1Materials and Mechanical Engineering, Centre for Advanced Steel Research, University of Oulu, P.O.
Box 4200, FI-90014 Oulu, Finland 2Steel Technology Department, Central Metallurgical Research and Development Institute, Helwan 11421, Egypt 3Process Metallurgy Research Unit, Centre for Advanced Steel Research, University of Oulu, P.O.
Over the past few decades, microalloying has been pivotal in advancing ultrahigh-strength steels.
Forum. 539–543 (2007) 4196–4201

., NACE Corrosion Engineer's Reference Book, 3rd Edition, NACE International, Houston Texas,2002
Yoon, Analysis of the Intermetallic Compound Formed in Hot Dip Aluminized Steel, Advanced Materials Research, 15-17 (2007) 159-163
Yoon, Observations of Intermetallic Compound Formation of Hot Dip Aluminized Steel, Materials Science Forum, 519-521 (2006) 1871-1876 [7] C.J.

The Designment of Digital Greenhouse Expert System SUN Jun1, ZHANG Feng2, CHEN Zhuang2 1.School of Electrical and Information engineer, Jiangsu University, Jiangsu Zhenjiang 212013 E-mail:sun2000jun@ujs.edu.cn 2 Jingjiang College of Jiangsu University, Jiangsu Zhenjiang 212013 zhangfeng@ujs.edu.cn Key Words: Digital Greenhouse; Expert system; Artificial Intelligence Abstract: In order to improve the management of crops in digital greenhouse, and give crops a healthy growth, the digital greenhouse expert system is developed based on the growth knowledge of agricultural greenhouse, computer technology and artificial intelligence technology.
The main requirements are included as follows. (1) The basic information of crop growth including a general overview about the plant shape, color type, growth stage, morphological characteristics, adaptability indicators and so on. (2) The inquiry of the cultivation and management techniques including Cultivation and care management essentials. (3) The control of pest diagnosis including pest queries, pest diagnosis( specific to the stem, leaves, flowers and fruits, plants syndrome); (4) Expert online forum. 2 Hardware and software environment 2.1 Hardware environment The computer of server-side is required for the advanced Pentium PC, whose frequency is 2G Hz above and memory is more than 512 megabytes.

Key, Implementation of a time dependent plasticity theory into structural computer programs, Constitutive Equations in Viscoplasticity: Computational and Engineering Aspects, AMD-20, ASME, New York, (1976)
Journal for Multiscale Computational Engineering, Vol. 5 No. 2 (2007), pp. 105-116
Pasquino: The consequence of different loading rates in elasto/viscoplasticity, Procedia Engineering, Vol. 10 (2011), pp. 2911-2916
Cancellara: Implications due to different loading programs in inelastic materials, Advanced Materials Research, Vol. 422 (2012), pp. 726-733
Cancellara: Results of distinct modes of loading procedures in the nonlinear inelastic behavior of solids, Advanced Materials Research, Vol. 482-484 (2012), pp. 1004-1011.

Application of Fly Ash and Coal Gangue for Preparing High-class Solid Insulating Brick by Roasting at Low Temperature Conditions Zifang XU, Mingxu ZHANG, Jinbo ZHU (School of Material Science and Engineering，Anhui university of Science and Technology , Huainan China 232001) Keywords: Solid waste ; Roasting ; Insulating Brick ; Performance analysis Abstract: The fly ash and coal gangue were used as main raw materials to roast solid insulating brick.Lower than solid clay brick (300 ℃) which belongs to low temperature roasting , roasting time cycle is 24 h ,the ratio of fly ash and coal gangue is 60% :35%. the B7 admixing expanded pearlite compressive strength is 30.25 MPa .
It has important realistic significance on field land protecting , energy saving , change waste to useful material, pollution controlling , improving building materials’ function , increasing house quality , advancing the modernization of house estate .
The temperature from 1100℃ advanced to 900℃; XRD pattern of fly ash has larger diffraction Peak height and peak intensity from 15° to 35°, but in B7 the peak disappear show that :vitreous in fly ash conversion to be Crystalline.When the temperature is up or down, the Vitreous in fly ash has two possible changes.
（In Chinese） [5] Dong fa qin.The elementrary materials of eco-function[C].The papers of The International Forum on advanced Material Science and technology,2002,Anshan.( In Chinese) [6] Liker Bekir Topcu, Burak Isikdag .Building and Environment 2005,40 (1):1-4 [7] OsmanU nala, Tayfun Uygunog lua, Ahmet Yildizb.

Materials Science Forum. 968 (2019) 82-88
Advanced Materials Research. 897 (2014) 45-48
Advances in chemistry and chemical technology.
Kotiv, Advanced Materials Research. 923 (2014)42-47
IOP Conference Series: Materials Science and Engineering (MSE) 708 (2019) 012080

· Cast engineering alloys and steels creep strength assessment (with the exception of cast 91 steel, Grade C12A), which is already included in the data sheets.
ISBN: 978-0-08-100552-1 (print) or 3 (online) [2] https://www.eccc-creep.com/eccc-recommendations-volumes.html [3] https://www.eccc-creep.com/eccc-data-sheets/ [4] Holdsworth, S. (2010) Advances in the Assessment of Creep Data, 9th Liege Conference: Materials for Advanced Power Engineering 2010, edited by J.
Materials Science and Engineering: A, 731, 161-172
Hald, Materials Science and Engineering A 505 (2009) 169–177
Microstructural stability and creep rupture strength of the martensitic steel P92 for advanced power plant: Acta Mater: (1997) [24] C.

Therefore, it can be used in different applications such as engineering, in heavy industries, as well as medical, petrochemical and construction fields.
Studying the application of low alloy steels in the different fields showed that expensive alloying elements are used as well as more complicated techniques, requiring advanced equipment and high investments are needed, which negatively impacts the economic character of using steel in these applications.
Materials Science Forum, 2003, 416_418 (1): 213_218
Ti-6Al-4V/SiC composites by mechanical alloying and hot isostatic pressing [C] Proceedings of the Advanced Particulate Materials & Process. 1997:185_192
[13] Kadzeila, M.S., Majta, J. and Muszka, K, Effect of strain rate on WOR hardening of HSLA and Ti-IF steels, Metallurgy and Foundry Engineering Journal, Vol. 32, No. 1, (2006) pp.19–29.

Comparison of welding distortions between TIG and MIG welding technique in pipes Seyed Mehdi Naghavi1,a,Abolfazl Darvizeh2,b,Reza Ansari Khalkhali3,c 1 Research student,Faculty of Mechanical Engineering, Guilan University of Technology, Rasht, Iran 2 Professor,Faculty of Mechanical Engineering, Guilan University of Technology, Rasht, Iran 3 Assistant professor,Faculty of Mechanical Engineering, Guilan University of Technology, Rasht, Iran aMehdi_numone@yahoo.com,bAdarvizeh@guilan.ac.ir,cR_ansari@guilan.ac.ir Keywords: Finite Element Simulation; Welding Distortion; Welding Modelling Abstract.
Therefore that experimental work has been reviewed here because it is the source of validation of our study.For circumferential welding of the pipes, an automatic girth welding machine with advanced system control was used.
The welding machine was an automatic TIG welding machine with an advanced controller which can simultaneously control Power source, Gripper chuck, Torch driving vehicle, Inert gas supplier and Automatic wire feeder.
Mater Sci Forum 2005;490–491:79–84