dc.contributor | Pérez Velásquez, Sandra Patricia (Director de tesis) | |
dc.contributor | Mendoza Oliveros, Martín Emilio (Codirector de tesis) | |
dc.creator | Bohórquez Moreno, Cristian Daniel | |
dc.date.accessioned | 2021-08-30T14:32:55Z | |
dc.date.accessioned | 2022-09-27T14:01:40Z | |
dc.date.available | 2021-08-30T14:32:55Z | |
dc.date.available | 2022-09-27T14:01:40Z | |
dc.date.created | 2021-08-30T14:32:55Z | |
dc.date.issued | 2019 | |
dc.identifier | Bohórquez Moreno, C. D. (2019). Síntesis y caracterización de un MMC cobre-titanio-carburo de titanio sinterizado por descarga luminiscente anormal. (Tesis de maestría). Universidad Pedagógica y Tecnológica de Colombia, Tunja. http://repositorio.uptc.edu.co/handle/001/3698 | |
dc.identifier | http://repositorio.uptc.edu.co/handle/001/3698 | |
dc.identifier.uri | http://repositorioslatinoamericanos.uchile.cl/handle/2250/3603301 | |
dc.description.abstract | Spa: En esta investigación se evaluó el comportamiento del cobre con adiciones de
partículas de titanio y carburo de titanio, con fracciones en masa de titanio de 10%,
15% y 20% con el propósito de caracterizar la respuesta del MMC, manteniendo un
porcentaje de agregado cerámico de carburo de titanio del 1%, debido a que este
valor se ha determinado como el apropiado para este tipo de materiales
compuestos 7 . Mediante el empleo de la ruta pulvimetalúrgia como técnica de
conformado de MMC sinterizados por medio de descarga luminiscente anormal, por
ser un proceso novedoso frente a los medios convencionales de sinterización como
hornos o muflas, debido al aprovechamiento de las densidades energéticas que
ofrece esta técnica 8,9 (bajos consumos de energía) y amigable con el medio
ambiente debido a las emisión de especies neutras al medio ambiente, todo ello con el propósito de ampliar el espectro de científico y técnico en el área de este tipo de
materiales. | |
dc.language | spa | |
dc.publisher | Universidad Pedagógica y Tecnológica de Colombia | |
dc.publisher | Facultad Ingeniería | |
dc.publisher | Tunja | |
dc.publisher | Maestría en Metalurgia y Ciencias de los Materiales | |
dc.relation | AKBARPOUR, M. R. y JAVADHESARI, S. Moniri. Wear performance of novel nanostructured Ti-Cu intermetallic alloy as a potential material for biomedical applications. En: JOURNAL OF ALLOYS AND COMPOUNDS. 2017. vol. 699, p. I- | |
dc.relation | AKBARPOUR, Mohammad Reza y HESARI, Feridoun Alikhani. Characterization and hardness of TiCu–Ti2Cu3 intermetallic material fabricated by mechanical alloying and subsequent annealing. En: Materials Research Express. 2016. vol. 3, no. 4, p. 45004-45004 | |
dc.relation | ALANEME, Kenneth Kanayo y ODONI, Benjamin Ufuoma. Mechanical properties, wear and corrosion behavior of copper matrix composites reinforced with steel machining chips. 2016 | |
dc.relation | AMERICAN SOCIETY FOR, Testing y MATERIALS. Astm B962-13 Standard test methods for density of compacted or sintered powder metallurgy (PM) products using archimedes’ Principle. En: 2013. vol. 2, p. 1-7 | |
dc.relation | AMERICAN SOCIETY FOR, Testing y MATERIALS. Standard Test Method for Microindentation Hardness of Powder Metallurgy ( P / M ). 2005, p. 14-16 | |
dc.relation | BAGHERI, Gh A. The effect of reinforcement percentages on properties of copper matrix composites reinforced with TiC particles. 2016 | |
dc.relation | BARSOUKOV, E. y MACDONALD, J.R. Impedance Spectroscopy: Theory, Experiment, and Applications. Wiley, 2005. 9780471716228. | |
dc.relation | BUYTOZ, Soner, DAGDELEN, Fethi, ISLAK, Serkan, KOK, Mediha, KIR, Durmus y ERCAN, Ercan. Effect of the TiC content on microstructure and thermal properties of Cu-TiC composites prepared by powder metallurgy. En: Journal of Thermal Analysis and Calorimetry. 2014, p. 1277-1283 | |
dc.relation | CAI, Qingshan, LIU, Wensheng, MA, Yunzhu, ZHU, Wentan y PANG, Xinkuan. Effect of joining temperature on the microstructure and strength of W–steel HIP joints with Ti/Cu composite interlayer. En: Journal of Nuclear Materials. 2018. vol. 507, p. 198-207. | |
dc.relation | CANALE, P. y SERVANT, C. Thermodynamic Assessment of the Cu–Ti System Taking into Account the New Stable Phase CuTi3. En: Zeitschrift für Metallkunde. 2002. vol. 93, no. 4, p. 273-276. | |
dc.relation | CHAPMAN, B. Glow Discharge Processes: Sputtering and Plasma Etching. Wiley, 1980. 9780471078289. | |
dc.relation | CHEN, Feifan, WANG, Wei, WANG, Kang, HO, Pofeng, LI, Han, HUANG, Xi y CHEN, Weijie. Influence of post-weld heat treatment on microstructure and adhesion of Ti/Cu composite. En: Materials Science and Technology (United Kingdom). 2018. vol. 34, no. 12, p. 1441-1446. | |
dc.relation | CHEN, Q., LI, D. Y. y COOK, Bruce. Is porosity always detrimental to the wear resistance of materials?-A computational study on the effect of porosity on erosive wear of TiC/Cu composites. En: Wear. 2009. vol. 267, no. 5-8, p. 1153-1159 | |
dc.relation | CHUISTOV, K. V. Copper–Titanium Solid Solutions are a New Generation of High Strength Age-Hardening Alloys. En: Uspehi Fiziki Metallov. 2005. vol. 6, no. 1, p. 55- 103 | |
dc.relation | CHUNG, Chih Yu, LEE, Mu Tse, TSAI, Min Yen, CHU, Chao Hung y LIN, Su Jien. High thermal conductive diamond/Cu-Ti composites fabricated by pressureless sintering technique. En: Applied Thermal Engineering. 2014. vol. 69, no. 1-2, p. 208- 213 | |
dc.relation | COPPER DEVELOPMENT ASSOCIATION, Inc. Copper powder consolidation techniques. Compaction, Solid state sintering, liquid phase sintering, 2017. | |
dc.relation | DINAHARAN, Issac, SATHISKUMAR, Ramasamy y MURUGAN, Nadarajan. Effect of ceramic particulate type on microstructure and properties of copper matrix composites synthesized by friction stir processing. 2016 | |
dc.relation | FRIDMAN, Alexander. Plasma Chemistry. Cambridge: Cambridge University Press, 2008. 9780521847353. | |
dc.relation | GAO, Xin, YUE, Hongyan, GUO, Erjun, ZHANG, Shaolin, YAO, Longhui, LIN, Xuanyu, WANG, Bao y GUAN, Enhao. Tribological properties of copper matrix composites reinforced with homogeneously dispersed graphene nanosheets. En: Journal of Materials Science & Technology. 2018. vol. 34, no. 10, p. 1925-1931 | |
dc.relation | GERMAN, R. M. y PARK, S. J. Handbook of Mathematical Relations in Particulate Materials Processing: Ceramics, Powder Metals, Cermets, Carbides, Hard Materials, and Minerals. Wiley, 2009. (Wiley Series on Processing of Engineering Materials). 9780470368725. | |
dc.relation | GERMAN, Randall M. Particulate composites: Fundamentals and applications. Wiley Series on Processing of Engineering Materials, 2016. 1-436 p. 9783319299174 | |
dc.relation | GÓMEZ TURRIÓN, Sergio. Materiales compuestos con propiedades a la carta. Diseño de interfases. 2008, p. 337-337 | |
dc.relation | GRANTA DESIGN, Cambridge U. K. Propiedades materiales. 2013) | |
dc.relation | GUO, Chun, ZHOU, Jiansong, YU, Youjun, WANG, Lingqian, ZHOU, Huidi y CHEN, Jianmin. Microstructure and tribological properties of Ti-Cu intermetallic compound coating. En: Materials and Design. 2012. vol. 36, p. 482-489 | |
dc.relation | HERNANDEZ-SANTIAGO, Felipe, LOPEZ-HIRATA, Victor M., HERNANDEZ DURAN, Pamela E., SAUCEDO-MUÑOZ, Maribel L. y AVILA-DAVILA, Erika O. Analysis of β´ Cu4Ti Precipitation in Cu-Ti Alloys by Conventional and Diffusion Couple Methods. 2017, p. 783-789. | |
dc.relation | HOLLAND, Lawrence Rozier. Physical properties of titanium. III. the specific heat. En: Journal of Applied Physics. 1963. vol. 34, p. 2350-2357 | |
dc.relation | ICSG. International copper study group. | |
dc.relation | IGHARO, M. y WOOD, J. V. Compaction and Sintering Phenomena in Titanium Nickel Shape Memory Alloys. En: Powder Metallurgy. 1985. vol. 28, no. 3, p. 131- 139 | |
dc.relation | INSTITUTO EUROPEO DEL, cobre. Casi un tercio del cobre que se utiliza cada año en todo el mundo proviene del reciclaje. 2017). | |
dc.relation | INTERNATIONAL, A. S. M. Powder Metallurgy. 2005. | |
dc.relation | INTERNATIONAL, A. S. M. y HANDBOOK, Committee. ASM handbook. Volume 3, Volume 3. Materials Park, Ohio: ASM International, 1992. 0871703815 9780871703811. | |
dc.relation | KANG, Suk-Joong L. SINTERING:Densification, Grain Growth&Microstructure. En: Sintering. 2005, p. 1-261 | |
dc.relation | KARAKULAK, Erdem. Characterization of Cu–Ti powder metallurgical materials. En: International Journal of Minerals, Metallurgy, and Materials. 2017. vol. 24, no. 1, p. 83-90 | |
dc.relation | KLEIN, A. N., CARDOSO, R. P., PAVANATI, H. C., BINDER, C., MALISKA, A. M., HAMMES, G., FUSAO, D., SEEBER, A., BRUNATTO, S. F. y MUZART, J. L. R. DC plasma technology applied to powder metallurgy: An overview. En: Plasma Science and Technology. 2013. vol. 15, no. 1, p. 70-81 | |
dc.relation | KUMAR, Sanjeev, SAINI, Deepak, LOTEY, Gurmeet Singh y VERMA, N. K. Electrochemical synthesis of copper nanowires in anodic alumina membrane and their impedance analysis. En: Superlattices and Microstructures. 2011. vol. 50, no. 6, p. 698-702 | |
dc.relation | KUNDU, S., GHOSH, M., LAIK, A., BHANUMURTHY, K., KALE, G. B. y CHATTERJEE, S. Diffusion bonding of commercially pure titanium to 304 stainless | |
dc.relation | steel using copper interlayer. En: Materials Science and Engineering A. 2005. vol. 407, no. 1-2, p. 154-160 | |
dc.relation | KUNDU, Sukumar, CHAKRABORTY, Asmita y MISHRA, Brajendra. Interfacial reaction and microstructure study of DSS/Cu/Ti64 diffusion-welded couple. En: Welding in the World. 2018. vol. 62, no. 1, p. 155-167 | |
dc.relation | LAIK, Arijit, BHANUMURTHY, Karanam, KALE, Gajanan Balaji y KASHYAP, Bhagwati Prasad. Diffusion characteristics in the Cu-Ti system. En: International Journal of Materials Research. 2012. vol. 103, no. 6, p. 661-672 | |
dc.relation | LAUGHLIN, David E. y CAHN, John W. Spinodal decomposition in age hardening copper-titanium alloys. En: Acta Metallurgica. 1975/03/01/, 1975. vol. 23, no. 3, p. 329-339 | |
dc.relation | LENG, Y. Materials Characterization: Introduction to Microscopic and Spectroscopic Methods. Wiley, 2009. 9780470822999. | |
dc.relation | LI, Jianwei, ZHANG, Hailong, WANG, Luhua, CHE, Zifan, ZHANG, Yang, WANG, Jinguo, KIM, Moon J. y WANG, Xitao. Optimized thermal properties in diamond particles reinforced copper-titanium matrix composites produced by gas pressure infiltration. En: Composites Part A: Applied Science and Manufacturing. 2016. vol. 91, p. 189-194 | |
dc.relation | LI, Xinmin y OLOFSSON, Ulf. A study on friction and wear reduction due to porosity in powder metallurgic gear materials. En: Tribology International. 2017. vol. 110, no. May 2016, p. 86-95 | |
dc.relation | LIANG, Yunhong, HAN, Zhiwu, LI, Xiujuan, ZHANG, Zhihui y REN, Luquan. Study on the reaction mechanism of self-propagating high-temperature synthesis of TiC in the Cu-Ti-C system. En: Materials Chemistry and Physics. 2012. vol. 137, no. 1, p. 200-206 | |
dc.relation | LIU, Jia, WANG, Xian hui, RAN, Qian ni, ZHAO, Gang y ZHU, Xiu xiu. Microstructure and properties of Cu–3Ti–1Ni alloy with aging process. En: Transactions of Nonferrous Metals Society of China (English Edition). 2016. vol. 26, no. 12, p. 3183- 3188 | |
dc.relation | LIU, Zhilong, PATZIG, Christian, SELLE, Susanne, HÖCHE, Thomas, GUMBSCH, Peter y GREINER, Christian. Stages in the tribologically-induced oxidation of high purity copper. En: Scripta Materialia. 2018. vol. 153, p. 114-117 | |
dc.relation | LIU, Zhiqiang, JI, Feifei, WANG, Mingqiang y ZHU, Tianyu. Study on the Tribological Properties of Porous Titanium Sliding against Tungsten Carbide YG6. En: Metals. 2017. vol. 7, no. 1, p. 28-28 | |
dc.relation | LU, Jianbang, SHU, Shili, QIU, Feng, WANG, Yawei y JIANG, Qichuan. Compression properties and abrasive wear behavior of high volume fraction TiC x – TiB 2 /Cu composites fabricated by combustion synthesis and hot press consolidation. En: JOURNAL OF MATERIALS&DESIGN. 2012. vol. 40, p. 157-162 | |
dc.relation | LUAÑA, Víctor y RECIO, José Manuel. Espectroscopía molecular, 2002 | |
dc.relation | MARK, Brininstool. Copper statistics, mineral commodity summaries. En: U.S. Geological Survey. 2015, no. 703, p. 2014-2015 | |
dc.relation | MATERIALS, American Society For Testing. Standard Test Method for Wear Testing with a Pin-on-Disk. vol. v, p. 1-5 | |
dc.relation | MENEZES, Pradeep L., NOSONOVSKY, Michael, INGOLE, Sudeep Prabhakar, KAILAS, Satish V. y LOVELL, Michael R. Tribology for scientists and engineers : from basics to advanced concepts. 2013 ed: Springer-Verlag New York, 2013. 9781461419457. | |
dc.relation | MOGHANIAN, Amirhossein, SHARIFIANJAZI, Fariborz, ABACHI, Parvin, SADEGHI, Ehsan, JAFARIKHORAMI, Hassan y SEDGHI, Arman. Production and properties of Cu/TiO2 nano-composites. En: JOURNAL OF ALLOYS AND COMPOUNDS. 2017. vol. 698, p. 518-524 | |
dc.relation | MORARU, Corina Gabriela, POP, Mihai Alin y BEDO, Tibor. Problems encountered with microwave sintering of copper based metal matrix composites. 2013. vol. 2013, no. 65, p. 18-23 | |
dc.relation | MORARU, Corina Gabriela, POP, Mihai Alin, BEDO, Tibor y ERBAN, Cornel Eugen Ș. Spark plasma sintering of novel copper based metal matrix composites. 2013. vol. 2013, no. 65 | |
dc.relation | MUNIR, Z. A., ANSELMI-TAMBURINI, U. y OHYANAGI, M. The effect of electric field and pressure on the synthesis and consolidation of materials: A review of the spark plasma sintering method. En: Journal of Materials Science. February 01, 2006. vol. 41, no. 3, p. 763-777 | |
dc.relation | NAGARJUNA, S., BALASUBRAMANIAN, K. y SARMA, D. S. Effect of Ti additions on the electrical resistivity of copper. En: Materials Science and Engineering A. 1997. vol. 225, p. 118-124 | |
dc.relation | NAYAK, D. y DEBATA, M. Effect of composition and milling time on mechanical and wear performance of copper?graphite composites processed by powder metallurgy route. En: Powder Metallurgy. 2013. vol. 000, no. 000, p. 1-9 | |
dc.relation | NAYAN, Niraj, SHUKLA, Anoop K., CHANDRAN, Prathap, BAKSHI, Srinivasa Rao, MURTY, S. V. S. N., PANT, Bhanu y VENKITAKRISHNAN, P. V. Processing and characterization of spark plasma sintered copper/carbon nanotube composites. En: Materials Science and Engineering: A. 2016. vol. 682, no. November 2016, p. 229- 237 | |
dc.relation | NEMATI, N., KHOSROSHAHI, R., EMAMY, M. y ZOLRIASATEIN, A. Investigation of microstructure, hardness and wear properties of Al–4.5wt.% Cu–TiC nanocomposites produced by mechanical milling. En: Materials & Design. 2011. vol. 32, no. 7, p. 3718-3729 | |
dc.relation | OMORI, Mamoru. Sintering, consolidation, reaction and crystal growth by the spark plasma system (SPS). En: Materials Science and Engineering: A. 2000/08/15/, 2000. vol. 287, no. 2, p. 183-188 | |
dc.relation | PÉREZ-VELÁSQUEZ, Sandra, PINEDA-TRIANA, Yaneth, AGUILAR-CASTRO, Yesid y VERA-LÓPEZ, Enrique. Efecto del porcentaje de refuerzo frente al desgaste en compuestos de matriz metálica sinterizados con descarga luminiscente anormal. En: Revista de Metalurgia. 2016. vol. 52, no. 1, p. e059-e059 | |
dc.relation | PINA, V. Guiñon, AMIGÓ, V. y MUÑOZ, A. Igual. Microstructural, electrochemical and tribo-electrochemical characterisation of titanium-copper biomedical alloys. En: Corrosion Science. 2016. vol. 109, p. 115-125 | |
dc.relation | RABINOWICZ, E. Friction and Wear of Materials. Second edi ed1995. | |
dc.relation | RAJKUMAR, K. y ARAVINDAN, S. Tribological performance of microwave sintered copperTiCgraphite hybrid composites. En: Tribology International. 2011. vol. 44, no. 4, p. 347-358 | |
dc.relation | ROSENBOHM, Jaeger y FONTEYNE, R. The Exact Measurement of the Specific Heats of Metals at High Temperatures. XXIII. The Calorimetrical, Electrical and Thermoelectrical Behaviour of Ductile Titanium. I. 1936. vol. 515, p. 442-452 | |
dc.relation | RUŽI, J., STAŠI, J., RAJKOVI, V. y BOŽI, D. Strengthening effects in precipitation and dispersion hardened powder metallurgy copper alloys. En: Materials and Design. 2013. vol. 49, p. 746-754 | |
dc.relation | SABBAGHIAN, M., SHAMANIAN, M., AKRAMIFARD, H. R. y ESMAILZADEH, M. Effect of friction stir processing on the microstructure and mechanical properties of Cu-TiC composite. En: Ceramics International. 2014. vol. 40, no. 8 PART B, p. 12969-12976 | |
dc.relation | SANTOS, Armando Sarmiento, ARTURO, Carlos y VARGAS, Parra. Aplicación de la descarga luminiscente anormal como una fuente calórica Applying anormal glow discharge as a caloric source. 2017. vol. 8, p. 25-29 | |
dc.relation | SARMIENTO-SANTOS, Armando, ROJAS-SÁNCHEZ, César Enrique y CEPEDA GRIMALDOS, José Fernando. Comportamiento de la descarga luminiscente anormal dependiendo de la atmósfera gaseosa en un sistema apto para tratamiento de materiales. En: Respuestas; Vol. 18, Núm. 1 (2013) DO - 10.22463/0122820X.371. 06/15/, 2013 | |
dc.relation | SARMIENTO-SANTOS, Armando. Comportamiento de la descarga luminiscente anormal dependiendo de la atmósfera gaseosa en un sistema apto para tratamiento de materiales. 2013. vol. 18 | |
dc.relation | SATHISKUMAR, R., MURUGAN, N., DINAHARAN, I. y VIJAY, S. J. Characterization of boron carbide particulate reinforced in situ copper surface composites synthesized using friction stir processing. En: Materials Characterization. 2013. vol. 84, p. 16-27 | |
dc.relation | SEMBOSHI, Satoshi, ORIMO, Shin-ichi, SUDA, Hisashi, GAO, Weilin y SUGAWARA, Akira. Aging of Copper-Titanium Dilute Alloys in Hydrogen Atmosphere: Influence of Prior-Deformation on Strength and Electrical Conductivity. En: Materials Transactions. 2011. vol. 52, no. 12, p. 2137-2142 | |
dc.relation | SINGH, Manvandra Kumar y GAUTAM, Rakesh Kumar. Mechanical and tribological properties of plastically deformed copper metal matrix nano composite. En: Materials Today: Proceedings. 2018. vol. 5, p. 5727-5736 | |
dc.relation | SMITH, W. F. y HASHEMI, J. Fundamentos de la ciencia e ingeniería de materiales. McGraw-Hill, 2006. 9789701056387. | |
dc.relation | SOFFA, W. A. y LAUGHLIN, D. E. High-strength age hardening copper–titanium alloys: redivivus. En: Progress in Materials Science. 2004/01/01/, 2004. vol. 49, no. 3, p. 347-366 | |
dc.relation | SZWED, B. y KONIECZNY, M. Influence of diffusion bonding parameters on the structure and properties of titanium and stainless steel joints with copper interlayer. En: Journal of Achievements in Materials and Manufacturing Engineering. 2014. vol. 67, no. 1, p. 21-25 | |
dc.relation | THANKACHAN, Titus y PRAKASH, K. Soorya. Microstructural, mechanical and tribological behavior of aluminum nitride reinforced copper surface composites fabricated through friction stir processing route. En: Materials Science and Engineering: A. 2017. vol. 688, p. 301-308 | |
dc.relation | TOSUN, Gul, KILIC, Musa, OZLER, Latif y TOSUN, Nihat. Characterization of a porous Nickel-Titanium alloy produced with self-propagating high-temperature synthesis. En: Materiali in Tehnologije. 2018. vol. 52, no. 4, p. 435-442 | |
dc.relation | TUNAY, Recai Fatih y KURBANOǦLU, Cahit. Investigation of the tribological properties of Cu-based porous bearings. En: Industrial Lubrication and Tribology. 2012. vol. 64, no. 2, p. 111-119 | |
dc.relation | UZUNOV, Tz D., LAMBOV, S. I. y STOJANOV, St P. Kinetics of solid-phase interactions in thin-film Cu/Ti system with an excess of Cu. En: Vacuum. 1996. vol. 47, no. 1, p. 61-65 | |
dc.relation | UZUNOV, Tz D., LAMBOV, S. I. y STOJANOV, St P. Kinetics of solid-phase interactions in thin-film Cu/Ti system with an excess of Ti. En: Vacuum. 1996. vol. 47, no. 1, p. 61-65 | |
dc.relation | VENKATESWARAN, K., KAMARAJ, M. y RAO, K. Prasad. Dry sliding wear of a powder metallurgy copper-based metal matrix composite reinforced with iron aluminide intermetallic particles. En: Journal of Composite Materials. 2007. vol. 41, no. 14, p. 1713-1728 | |
dc.relation | VILLAIN, S., DESVALS, M. A., CLUGNET, G. y KNAUTH, P. CuBr by impedance spectroscopy. En: Solid State Ionics. 1996. vol. 83, no. 3, p. 191-198 | |
dc.relation | WANG, C. P., LUO, Y. S., LU, Y., HAN, J. J., SHI, Z., GUO, Y. H. y LIU, X. J. Interdiffusion and Atomic Mobilities in bcc Ti-Ga and Ti-Cu Alloys. En: Journal of Phase Equilibria and Diffusion. 2017. vol. 38, no. 2, p. 84-93 | |
dc.relation | WANG, Fenglin, LI, Yunping, WAKOH, Kimio, KOIZUMI, Yuichiro y CHIBA, Akihiko. Cu-Ti-C alloy with high strength and high electrical conductivity prepared by two step ball-milling processes. En: Materials and Design. 2014. vol. 61, p. 70-74 | |
dc.relation | WANG, Fenglin, LI, Yunping, WANG, Xiaoyu, KOIZUMI, Yuichiro, KENTA, Yamanaka y CHIBA, Akihiko. In-situ fabrication and characterization of ultrafine structured Cu-TiC composites with high strength and high conductivity by mechanical milling. En: JOURNAL OF ALLOYS AND COMPOUNDS. 2016. vol. 657, p. 122-132 | |
dc.relation | WANG, Fenglin, LI, Yunping, XIE, Guoqiang, WAKOH, Kimio, YAMANAKA, Kenta, KOIZUMI, Yuichiro y CHIBA, Akihiko. Investigation on hot deformation behavior of nanoscale TiC-strengthened Cu alloys fabricated by mechanical milling. En: Materials Science and Engineering A. 2016. vol. 668, p. 1-12 | |
dc.relation | WANG, Fenglin, LI, Yunping, YAMANAKA, Kenta, WAKON, Kimio, HARATA, Koichi y CHIBA, Akihiko. Influence of two-step ball-milling condition on electrical and mechanical properties of TiC-dispersion-strengthened Cu alloys. En: Materials and Design. 2014. vol. 64, p. 441-449 | |
dc.relation | WANG, Xianlong, DING, Haimin, QI, Fugong, LIU, Qing, FAN, Xiaoliang y SHI, Yu. Mechanism of in situ synthesis of TiC in Cu melts and its microstructures. En: JOURNAL OF ALLOYS AND COMPOUNDS. 2017. vol. 695, p. 3410-3418 | |
dc.relation | XIAO, Yelong, YAO, Pingping, ZHOU, Haibin, ZHANG, Zhongyi, GONG, Taimin, ZHAO, Lin, ZUO, Xiaoting, DENG, Minwen y JIN, Zongxiang. Friction and wear behavior of copper matrix composite for spacecraft rendezvous and docking under different conditions. En: Wear. 2014. vol. 320, no. 1, p. 127-134 | |
dc.relation | YAN, M. F., ZHU, Y. D., ZHANG, C. S., ZHANG, Y. X., WANG, Y. X. y YANG, L. Microstructure and mechanical properties of copper-titanium-nitrogen multiphase layers produced by a duplex treatment on C17200 copper-beryllium alloy. En: Materials and Design. 2015. vol. 84, p. 10-17 | |
dc.relation | YANG, Jian, HUANG, Jihua, YE, Zheng, FAN, Dongyu, CHEN, Shuhai y ZHAO, Yue. First-principles calculations on structural energetics of Cu-Ti binary system intermetallic compounds in Ag-Cu-Ti and Cu-Ni-Ti active filler metals. En: Ceramics International. 2017. vol. 43, no. 10, p. 7751-7761 | |
dc.relation | YAO, X., SUN, Q. Y., XIAO, L. y SUN, J. Effect of Ti2Cu precipitates on mechanical behavior of Ti-2.5Cu alloy subjected to different heat treatments. En: JOURNAL OF ALLOYS AND COMPOUNDS. 2009. vol. 484, no. 1-2, p. 196-202 | |
dc.relation | YUAN, B., ZHANG, X. P., CHUNG, C. Y. y ZHU, M. The effect of porosity on phase transformation behavior of porous Ti-50.8 at.% Ni shape memory alloys prepared by capsule-free hot isostatic pressing. En: Materials Science and Engineering A. 2006. vol. 438-440, no. SPEC. ISS., p. 585-588 | |
dc.relation | ZHANG, Erlin, LI, Shengyi, REN, Jing, ZHANG, Lan y HAN, Yong. Effect of extrusion processing on the microstructure, mechanical properties, biocorrosion properties and antibacterial properties of Ti-Cu sintered alloys. En: Materials Science and Engineering: C. 2016. vol. 69, p. 760-768 | |
dc.relation | ZHU, Y.D., YAN, M.F., ZHANG, Y.X. y ZHANG, C.S. First-principles investigation of structural, mechanical and electronic properties for Cu–Ti intermetallics. En: Computational Materials Science. 2016. vol. 123, p. 70-78 | |
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dc.rights | Copyright (c) 2019 Universidad Pedagógica y Tecnológica de Colombia | |
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dc.title | Síntesis y caracterización de un MMC cobre-titanio-carburo de titanio sinterizado por descarga luminiscente anormal | |
dc.type | Trabajo de grado - Maestría | |