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Online since: February 2019
Authors: L. Grigoryeva, Michail Bruyako
Liu, Novel Self-Healing Techniques for Cement Matrix Microcrack, J. of Advanced Materials Research. 239-242 (2011) 3310-3313
Lu, Study on Self-Healing Concrete with Pre-Embedded Healing Agent, J.of Advanced Materials Research. 250-253 (2011) 405-408
Carlos Santamarina, Biological Considerations in Geotechnical Engineering, J. of Geotechnical and Geoenvironmental Engineering. 131(10) (2005) 1222-1233
J. of Mat. in Civil Engineering. 26(5) (2014) 983 – 991
Science Forum. 871 (2016) 70-75
Lu, Study on Self-Healing Concrete with Pre-Embedded Healing Agent, J.of Advanced Materials Research. 250-253 (2011) 405-408
Carlos Santamarina, Biological Considerations in Geotechnical Engineering, J. of Geotechnical and Geoenvironmental Engineering. 131(10) (2005) 1222-1233
J. of Mat. in Civil Engineering. 26(5) (2014) 983 – 991
Science Forum. 871 (2016) 70-75
Online since: August 2012
Authors: Hideshi Miura, Yoshinori Itoh, Hyun Goo Kang
High Performance Titanium Alloy Compacts
by Advanced Powder Processing Techniques
Hideshi Miura1,a, Hyungoo Kang1,b and Yoshinori Itoh2,c
1Department of Mechanical Engineering, Kyushu University, 744 Motooka, Nishi-ku, Fukuoka, 819-0395, Japan
2Hamamatsu Technical Support Center, Industrial Research Institute of Shizuoka Prefecture, 1-3-3 Shinmiyakoda, Kita-ku, Hamamatus, Japan
amiura@mech.kyushu-u.ac.jp, bkanghg@mech.kyushu-u.ac.jp, citohy@iri.pref.shizuoka.jp
Keywords: Metal injection Molding, Direct laser forming, Ti alloys, Mechanical properties, Biocompatibility
Abstract.
Therefore, the advanced powder processing techniques such as metal injection molding (MIM) are hoped to be a suitable technique for fabricating complex shaped Ti or its alloy parts with low cost.
Direct laser forming (DLF) technique is another advanced powder processing technique [8].
Forum, 534-536 (2007) 465-468
[13] Japan Society of Mechanical Engineering: Biomechanics Series – Biomaterials, Ohmsha, Tokyo, 1991, 75-86
Therefore, the advanced powder processing techniques such as metal injection molding (MIM) are hoped to be a suitable technique for fabricating complex shaped Ti or its alloy parts with low cost.
Direct laser forming (DLF) technique is another advanced powder processing technique [8].
Forum, 534-536 (2007) 465-468
[13] Japan Society of Mechanical Engineering: Biomechanics Series – Biomaterials, Ohmsha, Tokyo, 1991, 75-86
Online since: November 2023
Authors: Artem Arlazarov, Nora Kabou, Jean Marc Pipard, Pierre Targy, Marc Olivier Thénot
Towards High Strength-Ductility Balance Using Double Annealing Cycles
Artem Arlazarov1,a*, Jean-Marc Pipard1,b, Nora Kabou1,c, Pierre Targy1,d, Marc-Olivier Thénot1,e
1ArcelorMittal Global Research and Development, Maizières-lès-Metz, 57283, France
aartem.arlazarov@arcelormittal.com; bjean-marc.pipard@arcelormittal.com; cnora.kabou@arcelormittal.com; dpierre.targy@arcelormittal.com;
emarc-olivier.thenot@arcelormittal.com
Keywords: Advanced High Strength Steels, Double Annealing, Mechanical Properties, Transformation induced plasticity (TRIP), Retained Austenite.
Introduction Nowadays, steelmakers are intensively studying the ways how to produce third generation Advanced High Strength Steels (3G AHSS). 3G AHSS refers to steels with various innovative microstructures, which are developed to propose a breakthrough offer in the steel market.
Such developments require not only challenging alloying compositions with complicated microstructure designs, but also implementation of advanced annealing processes.
Engineering stress-elongation (a) and work hardening rate-true strain (b) curves of samples after complete simple and double annealing with Ts=830°C / 850°C and Tq=290°C.
Forum, 941, 2018, 100-105
Introduction Nowadays, steelmakers are intensively studying the ways how to produce third generation Advanced High Strength Steels (3G AHSS). 3G AHSS refers to steels with various innovative microstructures, which are developed to propose a breakthrough offer in the steel market.
Such developments require not only challenging alloying compositions with complicated microstructure designs, but also implementation of advanced annealing processes.
Engineering stress-elongation (a) and work hardening rate-true strain (b) curves of samples after complete simple and double annealing with Ts=830°C / 850°C and Tq=290°C.
Forum, 941, 2018, 100-105
Online since: July 2013
Authors: Yue Bing Zhang, Xiang Xue, Yue Ping Wang
Numerical Simulation of Thermal Stress and Deformation
in a Casting Using Finite Difference Method
Xiang Xuea, Yueping Wangb and Yuebing Zhangc
School of Materials Science and Engineering, Harbin Institute of Technology,
Box 434, Harbin 150001, China
axxue@hit.edu.cn, bwypmilton@163.com, cjjrjg@hit.edu.cn
Keywords: thermal stress; deformation; finite difference method; stress frame
Abstract.
Heisser: ASM International, Advances in Aluminum Casting Technology (USA) (1998), p. 95
Forum Vols. 490-491 (2005), p 85 [8] J.H.
Anderson, in: Modeling of Casting, Welding and Advanced Solidification Processes VIII, edited by B.G.
Heisser: ASM International, Advances in Aluminum Casting Technology (USA) (1998), p. 95
Forum Vols. 490-491 (2005), p 85 [8] J.H.
Anderson, in: Modeling of Casting, Welding and Advanced Solidification Processes VIII, edited by B.G.
Online since: January 2005
Authors: Dong Nyung Lee
Annealing Textures of Thin Films and Copper Interconnects
Dong Nyung Lee
Research Institute of Advanced Materials and School of Materials Science and Engineering
Seoul National University, Seoul 151-744, Korea
dnlee@snu.ac.kr
Keywords: Aluminum, copper, silver, nickel, Fe-Ni alloys, Ni-Co-P alloys, chromium, thin films,
copper interconnect, annealing, recrystallization, abnormal grain growth, texture.
Forum 408-412 (2002) 75
Forum.
Lee: Mechanical Properties of Advanced Engineering Materials (Proc.
Forum. 408-412 (2002) 895
Forum 408-412 (2002) 75
Forum.
Lee: Mechanical Properties of Advanced Engineering Materials (Proc.
Forum. 408-412 (2002) 895
Online since: August 2021
Authors: Renat V. Gavariev, Ksenia N. Gavarieva
Borisade, Zinc-aluminum (ZA-27)-based metal matrix composites: a review article of synthesis, reinforcement, microstructural, mechanical, and corrosion characteristics, International Journal of Advanced Manufacturing Technology. 100(1-4) (2019) 373-380
Series: Materials Science and Engineering. 969 (2020) 012021
Series: Materials Science and Engineering. 570 (2019) 012072
Series: Materials Science and Engineering. 570 (2019) 012039
Series: Materials Science and Engineering. 240 (2017) 012019.
Series: Materials Science and Engineering. 969 (2020) 012021
Series: Materials Science and Engineering. 570 (2019) 012072
Series: Materials Science and Engineering. 570 (2019) 012039
Series: Materials Science and Engineering. 240 (2017) 012019.
Online since: November 2012
Authors: Juan Du, Tie Liang Liu, Zhian Yi
The basic foundation usually includes the advanced course system, the good auxiliary teaching system and the high-quality teachers, ect.
The Advanced Course System.
The advanced course system can be a guarantee which makes certain that students can receive better education.
All these professional qualities will do help to the software engineering students when employed in the future.
Wu: The Research of Software Engineering Innovation Talents Training Mode, the journal of Petroleum Education, 2012.1(In Chinese)
The Advanced Course System.
The advanced course system can be a guarantee which makes certain that students can receive better education.
All these professional qualities will do help to the software engineering students when employed in the future.
Wu: The Research of Software Engineering Innovation Talents Training Mode, the journal of Petroleum Education, 2012.1(In Chinese)
Online since: January 2015
Authors: Krzysztof Labisz, Tomasz Tański, Anna Danuta Dobrzańska-Danikiewicz, Agnieszka Sękala
Note that the indicated research areas represent ones most avant-garde and development-prone areas of material surface engineering.
Borek, Thermo-mechanical treatment of Fe–Mn–(Al, Si) TRIP/TWIP steels, Archives of Civil and Mechanical Engineering 12 (2012) 299–304
Janicki, HPDL energy absorption on anodised cast Al-Si-Cu alloys surfaces during remelting, Archives of Foundry Engineering 12(2) (2012) 45–48
Dobrzański, HPDL laser alloying of heat treated Al-Si-Cu alloy, Journal of Archives of Materials Science and Engineering 54(1) (2012) 13–21
Borek, Hot-Rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706–709 (2012) 2053–2058.
Borek, Thermo-mechanical treatment of Fe–Mn–(Al, Si) TRIP/TWIP steels, Archives of Civil and Mechanical Engineering 12 (2012) 299–304
Janicki, HPDL energy absorption on anodised cast Al-Si-Cu alloys surfaces during remelting, Archives of Foundry Engineering 12(2) (2012) 45–48
Dobrzański, HPDL laser alloying of heat treated Al-Si-Cu alloy, Journal of Archives of Materials Science and Engineering 54(1) (2012) 13–21
Borek, Hot-Rolling of advanced high-manganese C-Mn-Si-Al steels, Materials Science Forum 706–709 (2012) 2053–2058.
Online since: October 2013
This book aims to collect the latest
development and applications of advanced and sustainable materials, the innovation in civil and
hydraulic engineering, the innovation in architecture and building construction, and the innovation
in bridge and underground engineering, and the earthquake and seismic engineering.
Fengjun ZHOU, Chinese Academy of Engineering, China Prof.
Hao WANG, Chinese Academy of Engineering, China Prof.
Sanyuan SHI, Hebei University of Engineering, China Prof.
Wei SUN, Chinese Academy of Engineering, Southeast University, China Prof.
Fengjun ZHOU, Chinese Academy of Engineering, China Prof.
Hao WANG, Chinese Academy of Engineering, China Prof.
Sanyuan SHI, Hebei University of Engineering, China Prof.
Wei SUN, Chinese Academy of Engineering, Southeast University, China Prof.
Online since: September 2008
Authors: L. Tan, Kumar Sridharan, T.R. Allen
Altering Corrosion Response via Grain Boundary Engineering
L.
Results and Discussions Grain boundary engineering (GBE).
Palumbo, Grain boundary engineering in nanocrystalline and polycrystalline materials, in: T.S.
Varin (Eds.), Proceedings of the 10 th International Symposium on Processing and Fabrication of Advanced Materials, Indianapolis, IN, USA, 5-8 November, 2001, p. 3
McClintock, Microstructure tailoring for property improvements by grain boundary engineering, J.
Results and Discussions Grain boundary engineering (GBE).
Palumbo, Grain boundary engineering in nanocrystalline and polycrystalline materials, in: T.S.
Varin (Eds.), Proceedings of the 10 th International Symposium on Processing and Fabrication of Advanced Materials, Indianapolis, IN, USA, 5-8 November, 2001, p. 3
McClintock, Microstructure tailoring for property improvements by grain boundary engineering, J.