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Interaction between the Dislocations and Precipitates in Fe-40Ni Alloy during Stress Relaxation Xiaojuan Zhang1,a , Shaoqiang Yuan2,b 1Department of Electromechanical Engineering, Tangshan College, 063000, China 2State Key Lab of Advanced Metals Materials, Beijing, 100083, China azhangxj05@126.com, bshaoqiangyuan@163.com Keywords: relaxation, dislocation walls, strain induced precipitates Abstract: Transmission electron microscopy (TEM) was used to study the interaction between the dislocations and strain induced precipitates during relaxation process after deformation in Fe-40Ni alloy.
Acknowledgement This work is financially supported by the State Key Lab of Advanced Metals Materials of China (No.2012Z-05) and Science Fund for Distinguished Young Scholars of Hebei Province (E2012105005), China.
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Siddhartha Engineering College, Krishna (Dist), Andhra Pradesh, India, PIN: 520 007 2Department of Mechanical Engineering, P.
To overcome this drawback, there is a strong motivation to develop advanced energy transfer liquids with substantially higher conductivities to enhance thermal properties.
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Nowadays, to meet the requirements of technological advances, many new materials have been introduced, such as advanced materials used in supersonic aircraft technology, modern rockets and materials in reactors or nuclear reactor, in spacecraft [1-8].
Results and Discussions Engineering properties of the ternary-blended geopolymer are shown in Table 2.
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Today’s advanced steels are required to possess high strength and ductility.
Introduction Today, advanced steels, mainly those that are used in the automotive industry, are required to possess high strength and ductility.
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In this paper, through the analysis of miscellaneous fill slope horizontal displacement of supporting structure and the vertical displacement monitoring results, the simulation results are compared and analyzed with FLAC3D software, verify the support form the deformation in the controllable range, the actual monitoring data and simulation results in the difference between the standard allows range, fitting deformation curve can be used as a conventional deformation monitoring based on integral deformation analysis, advanced demonstration of engineering construction scheme optimization.
With the improvement of technology, the dynamic monitoring has become an essential modern engineering construction link, in the process of effective data analysis, it not only provided a fundamental guarantee for the engineering safety early warning, but also provide a good calculation basis for the similar engineering design.
Engineering Project The project, Beijing International Business District, in this article deals with 5 # 4 # and 5 a - a - 1 parcels.
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Different dressing technologies of diamond wheels have been developed such as forum dressing, forum crush dressing, laser dressing, electrolytic in-process dressing (ELID) [4,5,6].
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Hoogstrate: Forum crush dressing of diamond grinding wheels.

Synthesis of Fe3O4 and Fe2O3 Nanocrystal from Iron Sand with Semi-Automatic Coprecipitator Arifa Diana Agustin1,a*, Arum Nur Kusuma Wardani1,b, Sari Ramadhani Meutuah1,c, Indra Sidharta2,d and Darminto1,e 1Department of Physics, Faculty of Science and Data Analytics, Institut Teknologi Sepuluh Nopember, Surabaya 60111, Indonesia 2Department of Mechanical Engineering, Faculty of Industrial Technology and Systems Engineering, Institut Teknologi Sepuluh Nopember, Surabaya 60111, Indonesia aarifadiana98@gmail.com, barumwardani15.aw@gmail.com, csarirmdhnimeutuah@gmail.com, dindra.sidharta@gmail.com, edarminto@physics.its.ac.id Keywords: Iron sand, Fe2O3 nanocrystal, Fe3O4 nanocrystal, Semi-automatic coprecipitator Abstract.
Acknowledgment This research was supported by Research and Innovation Program for Advanced Indonesia (RIIM) for 4th, No. 161/IV/KS/11/2023 and 3183/PKS/ITS/2023, November 27, 2023 References [1] Y.
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Thirunavukkarasu, 4Sukumar Puhan 1: Research scholar, Anna University of Technology Coimbatore, 2: Associate Professor, Institute of Road and Transport Technology, Erode 3: Professor, TJS College of Engineering, Chennai 4: Professor in GKM College of Engineering & Technology, E mail: kannan.paneer@yahoo.com, balamurugan@irttech.ac.in, drkthi@gmail.com, sp_anna2006@yahoo.co.in Keywords: Friction welding, interlayers, types of fracture, particulate fracture, microstructures, Friction pressure, particle accumulation.
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Lee, Nho Kwang Park, 2004, Characterization of Friction Welding for IN713LC and AISI 4140 Steel, Materials Science Forum, Vol. 449 - 452), 53- 56
[5] Shinji Fukumoto, Toshitsugu Ono, Soshi Tanaka, Harushige Tsubakino, Tomoki Tomita, Masatoshi Aritoshi, Kozo Okita, 2003, Microstructures of Friction Welded Joints of AZ31 to AM60 Magnesium Alloys, Materials Science Forum, Vol. 419 - 422, 399- 422