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Online since: July 2013
Authors: Athanasios G. Mamalis, István Zador, Achilleas K. Vortselas, Laszlo Lukacs, Andras Szalay
Lukacs 3,e
1 S-Metalltech Materials Research and Development Ltd, Budapest.
2 Project Center for Nanotechnology and Advanced Engineering, National Center for Scientific Research "Demokritos", Athens, Greece
3 National Public Service University, Hadtudományi és Honvédtisztképző Kar (NKE-HHK) Military Science and Army Officer Training Faculty, Budapest.
By applying the properly calculated and directed shock waves on powders or powder-mixtures special tasks can be realised, such as: · preparation of metallic matrix composites reinforced with ceramic and carbide particles aiming at creation of structural materials, or special electrical contact materials · creation of parts of nanostructured materials without influencing the nanostructure of the starting materials · manufacture of special filter materials The explosive compaction of powders and granulates does not merely consist of a simple compression as in conventional compaction processes but involves a shock wave passing through the powder or granulate mass.
Pantelis, Macroscopic and microscopic phenomena of nickel/titanium “shape-memory” bimetallic strips fabricated by explosive cladding and rolling, Materials Science and Engineering A. 188 (1994) 267–275
Manolakos, Fabrication of bimetallic rods by explosive cladding and warm extrusion, Journal of Materials Processing Technology. 83 (1998) 48–53
Mamalis, et al., High-pressure synthesized nanostructural magnesium diboride-based materials for superconductive electromotors, generators and pumps, Journal of Materials Processing Technology. 181 (2007) 71–75
By applying the properly calculated and directed shock waves on powders or powder-mixtures special tasks can be realised, such as: · preparation of metallic matrix composites reinforced with ceramic and carbide particles aiming at creation of structural materials, or special electrical contact materials · creation of parts of nanostructured materials without influencing the nanostructure of the starting materials · manufacture of special filter materials The explosive compaction of powders and granulates does not merely consist of a simple compression as in conventional compaction processes but involves a shock wave passing through the powder or granulate mass.
Pantelis, Macroscopic and microscopic phenomena of nickel/titanium “shape-memory” bimetallic strips fabricated by explosive cladding and rolling, Materials Science and Engineering A. 188 (1994) 267–275
Manolakos, Fabrication of bimetallic rods by explosive cladding and warm extrusion, Journal of Materials Processing Technology. 83 (1998) 48–53
Mamalis, et al., High-pressure synthesized nanostructural magnesium diboride-based materials for superconductive electromotors, generators and pumps, Journal of Materials Processing Technology. 181 (2007) 71–75
Online since: November 2025
Authors: Fahmee Maqsood Awan, Areeba Latif, Syed Muhammad Jawwad Ali, Muhammad Shees Adil Siddiqui, Atif Shazad
Metallurge and Materials Transaction.
[6] Gurel Cam, Selcuk Mistikoglu, Recent Developments in Friction Stir Welding of Al alloys, Journal of Materials Engineering and Performance volume 23, pages1936–1953 (2014)
Guo, Effects of welding parameters and post-heat treatment on mechanical properties of friction stir welded AA2195-T8 Al-Li alloy, Journal of Material Science Technology 34 (1) (2018) 219–227
Venkateswarlu, Cold metal transfer (CMT) welding of dissimilar materials: an overview, Materials Science Forum, Volume 969, October 2019, Pages 685–690, https://doi.org/10.4028/www.scientific.net/MSF.969.685
Ma, Age hardening behaviors of spun 2219 aluminum alloy component, Journal of Materials Research and Technology 9(3) (2020) 4706–4716. https://doi.org/10.1016/j.jmrt.2020.02.023
[6] Gurel Cam, Selcuk Mistikoglu, Recent Developments in Friction Stir Welding of Al alloys, Journal of Materials Engineering and Performance volume 23, pages1936–1953 (2014)
Guo, Effects of welding parameters and post-heat treatment on mechanical properties of friction stir welded AA2195-T8 Al-Li alloy, Journal of Material Science Technology 34 (1) (2018) 219–227
Venkateswarlu, Cold metal transfer (CMT) welding of dissimilar materials: an overview, Materials Science Forum, Volume 969, October 2019, Pages 685–690, https://doi.org/10.4028/www.scientific.net/MSF.969.685
Ma, Age hardening behaviors of spun 2219 aluminum alloy component, Journal of Materials Research and Technology 9(3) (2020) 4706–4716. https://doi.org/10.1016/j.jmrt.2020.02.023
Online since: March 2008
Authors: Yu Quan Chen, Er Liang Liu, Li Min Shi
With widely using difficult-to-process materials, such as the stainless steel and SnSb alloy,
the magnetic-electrochemical compound polishing process has been paid much more attention by
some Japanese and Chinese researchers.
Introduction Compound polishing methods are now being studied and applied in processing parts of materials that are difficult-to-process[1].
Fig.1 The charged particle in electromagnetic field Especially, some researchers have put forward the magnetic-electrochemical compound polishing process to difficult-to-process materials parts such as stainless steel, SnSb alloy.
Chen: Journal of Materials Processing Techology, Vol. 129 (2002) No.11, pp. 310-314
Lui: Journal of Materials Processing Technology, Vol. 95 (1999) No.4, pp.191-200
Introduction Compound polishing methods are now being studied and applied in processing parts of materials that are difficult-to-process[1].
Fig.1 The charged particle in electromagnetic field Especially, some researchers have put forward the magnetic-electrochemical compound polishing process to difficult-to-process materials parts such as stainless steel, SnSb alloy.
Chen: Journal of Materials Processing Techology, Vol. 129 (2002) No.11, pp. 310-314
Lui: Journal of Materials Processing Technology, Vol. 95 (1999) No.4, pp.191-200
Effect of Mechanical Activation on the Morphology and Microstructure of Ni-Al-Ti-B Composite Powders
Online since: September 2007
Authors: Masaaki Naka, Guo Jian Cao, Yong Liang Guo, Lin Geng
NAKA2, c
1
School of Materials Science and Engineering, Harbin Institute of Technology, P.O.
Ductility of these materials can be improved by several methods.
Koch: Materials Science and Engineering Vol.
Zhang: Journal of Materials Processing Technology, Vol. 48 (1995), p. 683 [6] B.
Zhang: Progress in Materials Science Vol. 49 (2004), p. 537 [8] G.
Ductility of these materials can be improved by several methods.
Koch: Materials Science and Engineering Vol.
Zhang: Journal of Materials Processing Technology, Vol. 48 (1995), p. 683 [6] B.
Zhang: Progress in Materials Science Vol. 49 (2004), p. 537 [8] G.
Online since: August 2018
Authors: Hiremath Shivashankar, S.M. Kulkarni
Bimorphs of composite materials are also used to harness photo-thermo-mechanical actuation.
The polymer composite materials bonded at an interface for making bimorph beam.
Journal of mechanical science and technology, 20(3), 297-309
Advanced Functional Materials, 22(24), 5166-5174 [5] Kang, S.
Smart Materials and Structures, 26(9), 095030
The polymer composite materials bonded at an interface for making bimorph beam.
Journal of mechanical science and technology, 20(3), 297-309
Advanced Functional Materials, 22(24), 5166-5174 [5] Kang, S.
Smart Materials and Structures, 26(9), 095030
Online since: July 2011
Authors: Xi Zhang, Xiang Cheng, Jun Ying Liu, Zhong Qiang Tian
Micro machining by wire electrical discharge machining (WEDM) has become prosperous owing to its ability to machine conductive, exotic and high strength and temperature resistive (HSTR) materials with the scope of generating intricate shapes and profiles.
The capability of machining intricate parts and hard materials has made EDM as one of the most popular machining processes [2].
WEDM has been gaining wide acceptance in the machining of the various materials used in modern tooling applications [5].
Antonoglou, Using ultra thin electrodes to produce micro-parts with wire-EDM, Journal of Material Processing Technology, 149, 2004, p. 579
Yamazaki, Design and development of micro straight edge end mills for micronano machining of hard and brittle materials , Journal of Mechanical Science and Technology, DOI 10.1007/s12206-010-0804-7,2010, 24(11), p. 1.
The capability of machining intricate parts and hard materials has made EDM as one of the most popular machining processes [2].
WEDM has been gaining wide acceptance in the machining of the various materials used in modern tooling applications [5].
Antonoglou, Using ultra thin electrodes to produce micro-parts with wire-EDM, Journal of Material Processing Technology, 149, 2004, p. 579
Yamazaki, Design and development of micro straight edge end mills for micronano machining of hard and brittle materials , Journal of Mechanical Science and Technology, DOI 10.1007/s12206-010-0804-7,2010, 24(11), p. 1.
Online since: January 2011
Authors: Peng Wan Chen, Wei Ping Shen, Qiang Zhou, Xiang Gao
Mehdipoor: Journal of materials processing technology 209 (2009), pp4201-4206
[3] Y.
Itoh: Materials science forum Vol.566 (2008), pp339-344 [4] S.
Itoh: Materials science forum Vol.566 (2008), pp361-372 [5] S.
Hall: Journal of materials processing technology 94 (1999), pp247-260 [10] L.J.
Ujimoto: Journal of materials processing technology 85 (1999), pp153-157 [12] K.
Itoh: Materials science forum Vol.566 (2008), pp339-344 [4] S.
Itoh: Materials science forum Vol.566 (2008), pp361-372 [5] S.
Hall: Journal of materials processing technology 94 (1999), pp247-260 [10] L.J.
Ujimoto: Journal of materials processing technology 85 (1999), pp153-157 [12] K.
Online since: November 2012
Authors: Hong Sheng Li, Ge Lin Dai, Guang Rong Bian
Introduction
In the future warehouse material transportation will be shown as high speed, high mobility and high precision, and will rely more on material distribution.
Warehouse transportation is a crucial part of material distribution.Whether the transportation of materials is quick or not, it will directly affect the supply efficiency of materials.
It is assumed that a warehouse is going to delivery material to a number of customer points.
Each vehicle's maximum load is 20 tons and it is required to deliver warehouse material to 25 customer point.
Trubian, Ant system for job-shop scheduling problem, Belgian Journal of Operation Research,Statistics and Computer Science, Vol. 34 , 1994 , pp. 39-53
Warehouse transportation is a crucial part of material distribution.Whether the transportation of materials is quick or not, it will directly affect the supply efficiency of materials.
It is assumed that a warehouse is going to delivery material to a number of customer points.
Each vehicle's maximum load is 20 tons and it is required to deliver warehouse material to 25 customer point.
Trubian, Ant system for job-shop scheduling problem, Belgian Journal of Operation Research,Statistics and Computer Science, Vol. 34 , 1994 , pp. 39-53
Online since: May 2025
Authors: Aidy Ali, Kannan Rassiah, Md Zan Hussein
Journal of Materials Science, Vol. 46 (2011), pp. 739-746
Journal of Materials Science, Vol. 46 (2011), pp .3445-3451
Materials & Design, Vol. 47 (2012), pp. 424-442
Journal of Composite Materials, Vol. 47, Issue 13 (2013), pp. 1633-1641
Journal of Composite Materials, Vol.44 Issue19 (2010), pp. 2265-2288.
Journal of Materials Science, Vol. 46 (2011), pp .3445-3451
Materials & Design, Vol. 47 (2012), pp. 424-442
Journal of Composite Materials, Vol. 47, Issue 13 (2013), pp. 1633-1641
Journal of Composite Materials, Vol.44 Issue19 (2010), pp. 2265-2288.
Online since: April 2014
Authors: Xin Yue Huang, Li Zhang, Xu Dong Li, Xue Ren Wu
Fractographical Investigation on High-cycle Fatigue Behavior
of Direct Aging GH4169 Superalloy
Li Zhanga*, Xueren Wub, Xinyue Huangc and Xudong Lid
Beijing Key Laboratory of Aeronautical Materials Testing and Evaluation, Laboratory of Science and Technology on Advanced High Temperature Structure Materials, Beijing Institute of Aeronautical Materials, Beijing 100095, China
azli335@163.com, bxrwu621@163.com, cxinyuehuang@yahoo.com.hk, dlxd32010128@126.com
Keywords: Superalloy, High cycle fatigue, Fractography, Crack initiation, Inclusions, Microstructure.
[9] In: China aeronautical materials handbook(4). (2010).
Suresh, in: Fatigue of Materials.
Elsevier Science Ltd, Oxford (2000)
Materials Science and Engineering A. 270 (1999) p. 308-322
[9] In: China aeronautical materials handbook(4). (2010).
Suresh, in: Fatigue of Materials.
Elsevier Science Ltd, Oxford (2000)
Materials Science and Engineering A. 270 (1999) p. 308-322