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Online since: March 2006
Authors: Iskandar Idris Yaacob, Roslina Ismail
Yaacob
b
Center for Nanotechnology, Precision and Advanced Materials
Dept. of Mechanical Engineering, Faculty of Engineering
University of Malaya, Kuala Lumpur 50603 Malaysia
a
roslina_i@um.edu.my,
b
iskandar@um.edu.my
Keywords: Intermetallic alloys and compounds, reaction synthesis, mechanical alloying
Abstract.
Ismail,R. and Yaacob,I.I., 2002, Reactive sintering of nickel aluminide and its magnetic responses, Materials Science Forum, 437-438, 293-297 11.
Kumpmann, A., Gunther, B. and Kunze,H.D., Materials Science Engineering, 168A, 1993, 165
Ismail,R. and Yaacob,I.I., 2002, Reactive sintering of nickel aluminide and its magnetic responses, Materials Science Forum, 437-438, 293-297 11.
Kumpmann, A., Gunther, B. and Kunze,H.D., Materials Science Engineering, 168A, 1993, 165
Online since: August 2015
Authors: Heinrich Möller, Carlien Taute
Segregation Characteristics of Rheo-High Pressure Die Cast Al-alloy 2139 plates
TAUTE Carlien1,a *, MöLLER Heinrich2,b
1Department of Materials Science and Metallurgical Engineering, University of Pretoria, Pretoria, 0001, South Africa
2Council for Scientific and Industrial Research, Pretoria, 0001, South Africa
aaurora247@hotmail.com, bhmoller@csir.co.za
Keywords: rheo-high pressure die casting (R-HPDC), alloy 2139, age-hardening, segregation, yield strength.
Acknowledgements The Department of Science and Technology (DST) in South Africa is acknowledged for funding under the Advanced Metals Initiative Program.
Materials Science Forum. 519-521 (2006) 603-608
Materials Science and Engineering 520 (2009) 56-65
Materials Science and Engineering 491(1) (2008) 214-223
Acknowledgements The Department of Science and Technology (DST) in South Africa is acknowledged for funding under the Advanced Metals Initiative Program.
Materials Science Forum. 519-521 (2006) 603-608
Materials Science and Engineering 520 (2009) 56-65
Materials Science and Engineering 491(1) (2008) 214-223
Online since: January 2007
Authors: Si Young Chang, Sung Tag Oh, Seong Hee Lee
%SiCp Composite
Processed by Accumulative Roll-Bonding
Seong-Hee Lee1,a , Si-Young Chang2 and Sung-Tag Oh
3
1
Dept. of Advanced Materials Science and Engineering, Mokpo National University,
61 Dorim-ri, Chyunggye-myun, Muan-gun, 534-729, Korea
2
Dept. of Materials Engineering, Hankuk Aviation University 200-1, Hwajon-dong, Deokyang-gu,
Koyang-city, Kyonggi-do, 412-791, Korea
3
Dept. of Materials Science and Engineering, Seoul National University of Technology, Seoul
139-743, Korea
a shlee@mokpo.ac.kr
Keywords: accumulative roll bonding, metal matrix composite, ultrafine grain, mechanical
property
Abstract.
Tsuji: Mater., Sci., Forum Vol. 331-337 (2000), p. 1169. 0.4 0.6 0.8 1.0 1.2 1.4 1.6 Al Al/SiCp ARB working temperature (°C) Average grain size (µm) 57 100 200 Fig. 4 The variation of grain size of the monolithic Al and Al/SiCp composite with the ARB working temperature. 0.4 0.6 0.8 1.0 1.2 1.4 1.6 Al Al/SiCp ARB working temperature (°C) Average grain size (µm) 57 100 200 Fig. 4 The variation of grain size of the monolithic Al and Al/SiCp composite with the ARB working temperature. 0 50 100 150 200 before ARB 50 100 150 200 250 Tensile strength (MPa) ARB working temperature (°C) tensile strength elongation $� $��6�&S Fig. 5 The variation of the mechanical properties of the monolithic Al and Al/SiCp composite with the ARB working temperature. 25 50 75 100 0 Elongation(%)
Tsuji: Mater., Sci., Forum Vol. 331-337 (2000), p. 1169. 0.4 0.6 0.8 1.0 1.2 1.4 1.6 Al Al/SiCp ARB working temperature (°C) Average grain size (µm) 57 100 200 Fig. 4 The variation of grain size of the monolithic Al and Al/SiCp composite with the ARB working temperature. 0.4 0.6 0.8 1.0 1.2 1.4 1.6 Al Al/SiCp ARB working temperature (°C) Average grain size (µm) 57 100 200 Fig. 4 The variation of grain size of the monolithic Al and Al/SiCp composite with the ARB working temperature. 0 50 100 150 200 before ARB 50 100 150 200 250 Tensile strength (MPa) ARB working temperature (°C) tensile strength elongation $� $��6�&S Fig. 5 The variation of the mechanical properties of the monolithic Al and Al/SiCp composite with the ARB working temperature. 25 50 75 100 0 Elongation(%)
Online since: February 2014
Authors: Jue Wu, Jian Xin Cheng, Mei Yu Zhou, Miao Miao Zhang
This paper is based on Kansei engineering theories and methods combines with hierarchical clustering and gray correlation theory.
This paper combines with portable GPS design projects, Kansei engineering design method, gray theory, hierarchical clustering and so on.
Application Kansei Engineering design methods.
Kansei engineering aims at transforming a feeling or image which consumer generated for the product into design elements technology.
Art and Design Forum, Vol.15(6) (2004),p.14-15
This paper combines with portable GPS design projects, Kansei engineering design method, gray theory, hierarchical clustering and so on.
Application Kansei Engineering design methods.
Kansei engineering aims at transforming a feeling or image which consumer generated for the product into design elements technology.
Art and Design Forum, Vol.15(6) (2004),p.14-15
Online since: June 2025
Authors: Deepika Garg, Sunil Sunil, Kushal Sharma, Vimal Kumar Joshi
Introduction
The research based on fluid convection is highly in demand in many industrial and engineering applications.
The sudden failure of the device may cause a significant loss in engineering or scientific research, which cannot be appreciated.
Khandekar, Engineering applications of ferrofluids: A review.
Chemical Engineering Communications, 67(1) (1988) 1-18
Krakov, Magnetic fluids: engineering applications.
The sudden failure of the device may cause a significant loss in engineering or scientific research, which cannot be appreciated.
Khandekar, Engineering applications of ferrofluids: A review.
Chemical Engineering Communications, 67(1) (1988) 1-18
Krakov, Magnetic fluids: engineering applications.
Online since: August 2019
Authors: Muralimohan Cheepu, D. Venkateswarlu, Vemulapalli Chittaranjan Das, M. Anuradha
Venkateswarlu3,c
and Muralimohan Cheepu4,d*
1Department of Mechanical Engineering, Acharya Nagarjuna University, Andhra Pradesh
522510, India
2Department of Mechanical Engineering, RVR & JC College of Engineering, Andhra Pradesh 522019, India
3Department of Mechanical Engineering, Marri Laxman Reddy Institute of Technology and Management, Telangana 500043, India
4Department of Materials System Engineering, Pukyong National University, Busan 48510,
Republic of Korea
Email: anadella7779@gmail.com, *bvcdas@rvrjcce.ac.in, cdevuri.venky@gmail.com, *dmuralicheepu@gmail.com
Keywords: TIG welding, High strength tensile steel, Inconel 718 super alloy, Microstructures, Mechanical properties, Fractography.
Seshabhattar (Eds.), Techno-Societal 2016, International Conference on Advanced Technologies for Societal Applications, ICATSA 2016, Springer, Cham, 2018, pp.709-717
(eds) Advanced Materials.
Forum. 710 (2012) 620-625
In Advances in Materials and Metallurgy, pp. 271-281.
Seshabhattar (Eds.), Techno-Societal 2016, International Conference on Advanced Technologies for Societal Applications, ICATSA 2016, Springer, Cham, 2018, pp.709-717
(eds) Advanced Materials.
Forum. 710 (2012) 620-625
In Advances in Materials and Metallurgy, pp. 271-281.
Online since: August 2011
Authors: Chen Bao Liu, Xiao Dong Tan, Ke De Zheng
The Monitoring System of Waste Heat Recovery Based on S7-300 PLC and WinCC
Xiaodong Tan 1, a, Kede Zheng 2,b and Chenbao Liu 3,c
1School of Mechanical Engineering, Dalian Jiaotong University, Dalian, Liaoning, 116028, China
2School of Mechanical Engineering, Dalian Jiaotong University, Dalian, Liaoning, 116028, China
3School of Mechanical Engineering, Dalian Jiaotong University, Dalian, Liaoning, 116028, China
atxd_f@sina.com, b110kede@163.com, cachilles_bao@yahoo.cn
Keywords: Waste Heat Recovery, Monitoring System, S7-300 PLC, WinCC
Abstract.
Set one host computer in the field of waste heat recovery system as operator station, set one host computer in the energy conservation office as engineering station, which is used to generate database, maintain the global database, design graphics of process of the waste heat recovery system.
There are two the host computer, the one used as operator station and the other used as engineering station.
Both used PLC characteristics--high reliability, strong anti-interference, simple programming, and WinCC characteristics-- strong graphic design, high capacity data processing, and integrated advanced automation technology.
Forum Vol. 63-67 (1995), p. 105 [5] L.K.
Set one host computer in the field of waste heat recovery system as operator station, set one host computer in the energy conservation office as engineering station, which is used to generate database, maintain the global database, design graphics of process of the waste heat recovery system.
There are two the host computer, the one used as operator station and the other used as engineering station.
Both used PLC characteristics--high reliability, strong anti-interference, simple programming, and WinCC characteristics-- strong graphic design, high capacity data processing, and integrated advanced automation technology.
Forum Vol. 63-67 (1995), p. 105 [5] L.K.
Online since: October 2018
Authors: Renat V. Gavariev, I.A. Savin
Goryunov, A compression mold for casting under pressure, Mechanical engineering, 1974
Gavarieva, Influence of multilayer coatings on the operational stability of molds for injection molding, IOP Conference Series: Materials Science and Engineering, 1(134) (2016) 012031
Haga, Advanced casting methodologies: inert environment vacuum casting and solidification, die casting, compocasting, and roll casting, casting, semi-solid forming and hot metal forming, Comprehensive Materials Processing, Elsevier Ltd., 5 (2014) 3-37
Engineering Journal" (with attachment), 5 (2014) 48-52
Dornfeld, Moving towards green and sustainable manufacturing, International Journal of Precision Engineering and Manufacturing - Green Technology, 1 (2014) 63-66
Gavarieva, Influence of multilayer coatings on the operational stability of molds for injection molding, IOP Conference Series: Materials Science and Engineering, 1(134) (2016) 012031
Haga, Advanced casting methodologies: inert environment vacuum casting and solidification, die casting, compocasting, and roll casting, casting, semi-solid forming and hot metal forming, Comprehensive Materials Processing, Elsevier Ltd., 5 (2014) 3-37
Engineering Journal" (with attachment), 5 (2014) 48-52
Dornfeld, Moving towards green and sustainable manufacturing, International Journal of Precision Engineering and Manufacturing - Green Technology, 1 (2014) 63-66
Online since: February 2013
Authors: Hong Zhen Guo, Zhang Long Zhao, Tao Wang, Ze Kun Yao, Yong Zhang, Shu Hong Fu
Microstructural Evolutions of a High Temperature Titanium Alloy Processed by Thermal Mechanical Treatments
Tao Wang1, a, Hongzhen Guo2, b , Zekun Yao2, c, Zhanglong Zhao2, d,
Shuhong Fu1, e and Yong Zhang1, f
1Science and Technology on Advanced High Temperature Structural Materials Laboratory, Beijing Institute of Aeronautical Materials, Beijing 100095, PR China
2School of Material Science and Engineering, Northwestern Polytechnical University, Xi’an 710072, PR China
awangtao8206@163.com, bhzguo@nwpu.edu.cn, cyzekun@nwpu.edu.cn, dzhaozhanglong000@sohu.com, efshdora@163.com, fbiamzhang@163.com
Keywords: TG6 titanium alloy, Thermal mechanical treatment, Microstructure, Deformation mechanism.
Titanium alloys are more difficult to process in comparison to other engineering materials such as aluminum and steels due to their complicated transformation[2].
Yao, Influence of processing parameters on microstructure and tensile properties of TG6 titanium alloy, Materials Science and Engineering A. 528 (2010) 736-744
Nie, The high temperature deformation behavior and microstructure of TC21 titanium alloy, Materials Science and Engineering A. 527 (2010) 5360-5367
Khorev, Alloying and heat treatment of high-strength structural titanium β alloys, Russian Engineering Research. 30(2010) 781-788
Titanium alloys are more difficult to process in comparison to other engineering materials such as aluminum and steels due to their complicated transformation[2].
Yao, Influence of processing parameters on microstructure and tensile properties of TG6 titanium alloy, Materials Science and Engineering A. 528 (2010) 736-744
Nie, The high temperature deformation behavior and microstructure of TC21 titanium alloy, Materials Science and Engineering A. 527 (2010) 5360-5367
Khorev, Alloying and heat treatment of high-strength structural titanium β alloys, Russian Engineering Research. 30(2010) 781-788
Online since: January 2021
Authors: Roberto Montanari, Andrea Di Schino, Giuseppe Napoli, Claudio Testani, Giulia Stornelli, Orlando di Pietro, Luciano Pilloni
Pilloni, Effect of thermo-mechanical parameters on the mechanical properties of Eurofer97 steel for nuclear applications, Open Engineering 8 (2018) 349-353
[9] Michael Gorley, Eberhard Diegele, Sergei Dudarev, Gerald Pintsuk, Materials engineering and design for fusion—Towards DEMO design criteria, Fusion Engineering and Design 136 (2018) 298–303
Surrey, Influence of a 1.5 T magnetic field on the tensile properties of Eurofer-97 steel, Fusion Engineering and Design 141 (2019) 68-72
Zinkle, Advanced materials for fusion technology, Fusion Engineering and Design 74 (2005) 31–40
Dietz, Present development status of EUROFER and ODS-EUROFER for application in blanket concepts, Fusion Engineering and Design 75–79 (2005) 989–996
[9] Michael Gorley, Eberhard Diegele, Sergei Dudarev, Gerald Pintsuk, Materials engineering and design for fusion—Towards DEMO design criteria, Fusion Engineering and Design 136 (2018) 298–303
Surrey, Influence of a 1.5 T magnetic field on the tensile properties of Eurofer-97 steel, Fusion Engineering and Design 141 (2019) 68-72
Zinkle, Advanced materials for fusion technology, Fusion Engineering and Design 74 (2005) 31–40
Dietz, Present development status of EUROFER and ODS-EUROFER for application in blanket concepts, Fusion Engineering and Design 75–79 (2005) 989–996