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Articles

Microwave sintering and mechanical properties of PM copper steel

Pages 355-362 | Published online: 19 Jul 2013

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Shivinder Singh & R. M. Belokar. (2023) Study of joining copper-mild steel using microwave energy. Welding International 37:1, pages 1-11.
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S. Tamang, P. Potaliya & S. Aravindan. (2018) Corrosion behaviour of magnesium–yttria composite sintered by microwave hybrid heating. Materials Research Innovations 22:7, pages 422-426.
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A. Raja Annamalai, A. Upadhyaya & D. K. Agrawal. (2015) Effect of heating mode and Y2O3 addition on electrochemical response on austenitic and ferritic stainless steels. Corrosion Engineering, Science and Technology 50:2, pages 91-102.
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O. Ertugrul, H.-S. Park, K. Onel & M. Willert-Porada. (2015) Structure and properties of SiC and emery powder reinforced PM 316l matrix composites produced by microwave and conventional sintering. Powder Metallurgy 58:1, pages 41-50.
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M. Lutfi, R. G. Rahbari, M. Hamdi, M. Fadzil & F. Yusof. (2014) Characteristics of hybrid microwave sintering of Zn–Al–Cu–Mg alloy. Materials Research Innovations 18:sup6, pages S6-78-S6-83.
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A. Raja Annamalai, F. Nekatibeb, A. Upadhyaya & D. K. Agrawal. (2013) Effect of heating mode on sinterability of carbonyl iron compacts. Materials Research Innovations 17:1, pages 10-16.
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. (2012) Mining the PM archive. Powder Metallurgy 55:1, pages 1-2.
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A Raja Annamalai, A Upadhaya & D Agarwal. (2011) Effect of heating mode on sintering of ferrous compacts through powder metallurgy route. International Heat Treatment and Surface Engineering 5:4, pages 155-160.
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D. Agrawal. (2010) Latest global developments in microwave materials processing. Materials Research Innovations 14:1, pages 3-8.
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M. E. Alam & M. Gupta. (2009) Effects of sintering and its type on microstructural and tensile response of pure tin. Powder Metallurgy 52:2, pages 105-110.
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D.V. Louzguine-Luzgin, G.Q. Xie, S. Li, A. Inoue, N. Yoshikawa & M. Sato. (2009) Microwave-induced heating of a single glassy phase and a two-phase material consisting of a metallic glass and Fe powder. Philosophical Magazine Letters 89:2, pages 86-94.
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P. Chhillar, D. Agrawal & J. H. Adair. (2008) Sintering of molybdenum metal powder using microwave energy. Powder Metallurgy 51:2, pages 182-187.
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Dinesh Agrawal. (2006) Microwave Sintering of Ceramics, Composites and Metallic Materials, and Melting of Glasses. Transactions of the Indian Ceramic Society 65:3, pages 129-144.
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W. L. E. Wong, S. Karthik & M. Gupta. (2005) Development of high performance Mg–Al2O3 composites containing Al2O3 in submicron length scale using microwave assisted rapid sintering. Materials Science and Technology 21:9, pages 1063-1070.
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Lei Xu, C. Srinivasakannan, Jinhui Peng, Shenghui Guo & Hongying Xia. (2017) Study on characteristics of microwave melting of copper powder. Journal of Alloys and Compounds 701, pages 236-243.
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K. Rajkumar & S. Aravindan. 2017. Composite Materials. Composite Materials 433 455 .
Jing Sun, Wenlong Wang, Qinyan Yue, Chunyuan Ma, Junsong Zhang, Xiqiang Zhao & Zhanlong Song. (2016) Review on microwave–metal discharges and their applications in energy and industrial processes. Applied Energy 175, pages 141-157.
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Yusuf kayali. (2015) Investigation of diffusion kinetics of borided AISI P20 steel in micro-wave furnace. Vacuum 121, pages 129-134.
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N. Leema, P. Radha, S.C. Vettivel & H. Khanna Nehemiah. (2015) Characterization, pore size measurement and wear model of a sintered Cu–W nano composite using radial basis functional neural network. Materials & Design 68, pages 195-206.
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Heguo Zhu, Guanhong Guo, Tao Cui, Jiewen Huang, Jianliang Li & Zonghan Xie. (2015) In situ aluminum matrix composites fabricated from Al–Ni2O3 system through microwave synthesis. Materials Chemistry and Physics 153, pages 333-337.
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Wai Wong & Manoj Gupta. (2015) Using Microwave Energy to Synthesize Light Weight/Energy Saving Magnesium Based Materials: A Review. Technologies 3:1, pages 1-18.
Crossref
Shivinder Singh, N.M. Suri & R.M. Belokar. (2015) Characterization of Joint Developed by Fusion of Aluminum Metal Powder through Microwave Hybrid Heating. Materials Today: Proceedings 2:4-5, pages 1340-1346.
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Husain A. Ghadhanfari, Hasan M. Khajah, Edward A. MonacoJr.Jr. & Hyeongil Kim. (2014) Effects of soldering methods on tensile strength of a gold-palladium metal ceramic alloy. The Journal of Prosthetic Dentistry 112:4, pages 994-1000.
Crossref
S. Bharadwaj & S.R. Murthy. 2014. Advanced Sensor and Detection Materials. Advanced Sensor and Detection Materials 111 145 .
Arshad Azrina, Shaiful Anuar Ismail, A. Nurulhuda, Yacob Suhaila & Ali Rafidah. (2014) Effect of Powder Particle Size of Tin Based Alloy Sintered via Hybrid Microwave and Conventional Furnace. Applied Mechanics and Materials 575, pages 160-164.
Crossref
Suhrit Mula, J. Panigrahi, P.C. kang & Carl C. Koch. (2014) Effect of microwave sintering over vacuum and conventional sintering of Cu based nanocomposites. Journal of Alloys and Compounds 588, pages 710-715.
Crossref
O. Ertugrul, H.-S. Park, K. Onel & M. Willert-Porada. (2014) Effect of particle size and heating rate in microwave sintering of 316L stainless steel. Powder Technology 253, pages 703-709.
Crossref
D. Loganathan, A. Gnanavelbabu, K. Rajkumar & R. Ramadoss. (2014) Effect of Microwave Heat Treatment on Mechanical Properties of AA6061 Sheet Metal. Procedia Engineering 97, pages 1692-1697.
Crossref
Sunit Rane, Rushna Bhatkar, Uttam Mulik & Dinesh Amalnerkar. (2013) Microwave assisted processing of silver thick films for microelectronic applications. Advances in materials Research 2:3, pages 133-140.
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Mohd Arif Anuar Mohd Salleh, Kazuhiro Nogita & Stuart Mcdonald. (2013) Non-Metal Reinforced Lead-Free Composite Solder Fabrication Methods and its Reinforcing Effects to the Suppression of Intermetallic Formation: Short Review. Applied Mechanics and Materials 421, pages 260-266.
Crossref
Apurbba Kumar Sharma & Navneet Arora. (2013) Development And Microstructural Characterisation Of Inconel Cladding On Stainless Steel Through Microwave Irradiation. i-manager's Journal on Mechanical Engineering 3:1, pages 9-16.
Crossref
D. Agrawal. 2013. Advances in Powder Metallurgy. Advances in Powder Metallurgy 361 379 .
Avijit Mondal, Anish Upadhyaya & Dinesh Agrawal. (2013) Effect of Heating Mode and Copper Content on the Densification of W-Cu Alloys. Indian Journal of Materials Science 2013, pages 1-7.
Crossref
Amit Bansal, Apurbba Kumar Sharma, Pradeep Kumar & Shantanu Das. (2012) Joining of Mild Steel Plates Using Microwave Energy. Advanced Materials Research 585, pages 465-469.
Crossref
S. Chandrasekaran, Srinivasan Ramanathan & Tanmay Basak. (2011) Microwave material processing—a review. AIChE Journal 58:2, pages 330-363.
Crossref
Hui Juan Pan, Ze Biao Zhang, Jin Hui Peng, Li Bo Zhang & Wei Li. (2011) Densification of Vanadium Nitride by Microwave-Assisted Carbothermal Nitridation. Advanced Materials Research 201-203, pages 1787-1792.
Crossref
Guoqiang Xie, Song Li, D.V. Louzguine-Luzgin, Ziping Cao, Noboru Yoshikawa, Motoyasu Sato & Akihisa Inoue. (2009) Ni-Nb-Sn Bulk Metallic Glass Matrix Composites Fabricated by Microwave-Induced Sintering Process. Metallurgical and Materials Transactions A 41:7, pages 1714-1719.
Crossref
Reddy G. Chandrakanth, K. Rajkumar & Sivanandam Aravindan. (2009) Fabrication of copper–TiC–graphite hybrid metal matrix composites through microwave processing. The International Journal of Advanced Manufacturing Technology 48:5-8, pages 645-653.
Crossref
S. M. L. Nai, J. V. M. Kuma, M. E. Alam, X. L. Zhong, P. Babaghorbani & M. Gupta. (2009) Using Microwave-Assisted Powder Metallurgy Route and Nano-size Reinforcements to Develop High-Strength Solder Composites. Journal of Materials Engineering and Performance 19:3, pages 335-341.
Crossref
Yingli Guo, Jianhong Yi, Shudong Luo, Chengshang Zhou, Lifang Chen & Yuandong Peng. (2010) Fabrication of W–Cu composites by microwave infiltration. Journal of Alloys and Compounds 492:1-2, pages L75-L78.
Crossref
K. Rajkumar & S. Aravindan. (2009) Tribological Performance of Microwave-Heat-Treated Copper–Graphite Composites. Tribology Letters 37:2, pages 131-139.
Crossref
D. Agrawal. 2010. Sintering of Advanced Materials. Sintering of Advanced Materials 222 248 .
D.V. Louzguine-Luzgin, G.Q. Xie, S. Li, A. Inoue, N. Yoshikawa, K. Mashiko, S. Taniguchi & M. Sato. (2009) Microwave-induced heating and sintering of metallic glasses. Journal of Alloys and Compounds 483:1-2, pages 78-81.
Crossref
Yuandong Peng, Jianhong Yi, Shudong Luo, Yingli Guo & Liya Li. (2009) Microstructure analysis of microwave sintered ferrous PM alloys. Journal of Wuhan University of Technology-Mater. Sci. Ed. 24:2, pages 214-217.
Crossref
R D Kotecha, S M L Nai & M Gupta. (2008) Development of Al and Al/Cu (composite/alloy) formulations with enhanced properties through microwave power variations during hybrid sintering. Journal of Physics D: Applied Physics 41:17, pages 175401.
Crossref
Manoj Gupta & Wong Wai Leong, Eugene. 2007. Microwaves and Metals. Microwaves and Metals 65 157 .
Manoj Gupta & Wong Wai Leong, Eugene. 2007. Microwaves and Metals. Microwaves and Metals 183 197 .
A. Nadjafi Maryam Negari, R. S. Mamoory, A. Simchi & N. Ehsani. (2007) Determination of the physical and mechanical properties of iron-based powder materials produced by microwave sintering. Powder Metallurgy and Metal Ceramics 46:9-10, pages 423-428.
Crossref
S. S. Panda, A. Upadhyaya & D. Agrawal. (2006) Effect of heating mode and temperature on sintering of YAG dispersed 434L ferritic stainless steel. Journal of Materials Science 42:3, pages 966-978.
Crossref
P. Mishra, A. Upadhyaya & G. Sethi. (2006) Modeling of microwave heating of particulate metals. Metallurgical and Materials Transactions B 37:5, pages 839-845.
Crossref
W. L. E Wong & M. Gupta. (2006) Simultaneously Improving Strength and Ductility of Magnesium using Nano‐size SiC Particulates and Microwaves. Advanced Engineering Materials 8:8, pages 735-740.
Crossref
S. S. Panda, A. Upadhyaya & D. Agrawal. (2006) Effect of conventional and microwave sintering on the properties of yttria alumina garnet-dispersed austenitic stainless steel. Metallurgical and Materials Transactions A 37:7, pages 2253-2264.
Crossref

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