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Online since: March 2010
Authors: A.J. Barnes, Roger Grimes, M.J. Stowell, D.B. Laycock, B.M. Watts
The complex shaped cover shown in Fig. 14 illustrates a contemporary application of SUPRAL
100 as used in advanced medical diagnostic equipment.
Fig. 14 SUPRAL 100 shroud (left) produced for advanced medical diagnostic equipment (right).
Forum Vol. 357-339 (2001), p. 339 [28] C.C.
Forum Vol. 357-359 (2001), p. 3 [31] R.
Forum Vol. 447-448 (2004), p. 213 [32] W.W.
Fig. 14 SUPRAL 100 shroud (left) produced for advanced medical diagnostic equipment (right).
Forum Vol. 357-339 (2001), p. 339 [28] C.C.
Forum Vol. 357-359 (2001), p. 3 [31] R.
Forum Vol. 447-448 (2004), p. 213 [32] W.W.
Online since: July 2017
Authors: A. Pereira, Márcio Antônio Fiori, Humberto Gracher Riella, A.M. Bugiereck, F. Dalcanton, R. Ternus, J. Dal Magro, J.M.M. Mello, Raquel Piletti
Fiori: Materials Science & Engineering.
Fiori: Materials Science & Engineering.
Fiori: Materials Science Forum Vols. 727-728 (2012), p. 1701
Higuchi, K.A Connors, Advances in Analytical Chemistry and Instrumentation Vol. 4 (1965), p. 117
Fiori: Materials Science Forum Vols. 727-728 (2012), p. 1125
Fiori: Materials Science & Engineering.
Fiori: Materials Science Forum Vols. 727-728 (2012), p. 1701
Higuchi, K.A Connors, Advances in Analytical Chemistry and Instrumentation Vol. 4 (1965), p. 117
Fiori: Materials Science Forum Vols. 727-728 (2012), p. 1125
Online since: June 2013
Authors: Yu Ting He, Shen Bo Jiao, Hua Ding
Rosette Eddy Current Sensor for Structural Health Monitoring
Ding Hua1, a, He Yuting1,b and Jiao Shenbo1,c
Aeronautics and Astronautics Engineering College, Air Force Engineering University, Xi’an, China
acckpiediullut@163.com, bhyt666@tom.com, cJiaoshenbo@163.com
Keywords: rosette eddy current sensor; semi-analytical model; structural health monitoring; fatigue damage
Abstract.
Introduction Structural Health Monitoring (SHM) refers to the process of implementing a damage detection strategy for aerospace, civil, and mechanical engineering infrastructure, which is aimed to be one of the key technologies to control the structural integrity in future providing both maintenance and weight saving benefits.
The more advanced stage of SHM is the coupling of information from SHM, usage monitoring, current environmental and operations conditions, previous component and system level testing, and numerical modeling to estimate the remaining useful life of the system.
Advances in sensors are key enabling technologies to the realization of SHM capability and various sensor technologies have been developed and explored for SHM, such as fiber optic sensor, piezoelectric sensor, comparative vacuum sensor and acoustic emission [2-4].
[6] Neil Goldfine, David Grundy, Chris Craven, et.al, “Damage and Usage Monitoring for Vertical Flight Vehicles, ”American Helicopter Society 63rd Annual Forum, Virginia Beach, USA, 2007 [7] Yanko Sheiretov, Dave Grundy, et.al, “MWM-Array Sensors for In Situ Monitoring of High-Temperature Components in Power Plants, ”IEEE Sensors Journal, vol. 9, 2009, pp. 1527-1536
Introduction Structural Health Monitoring (SHM) refers to the process of implementing a damage detection strategy for aerospace, civil, and mechanical engineering infrastructure, which is aimed to be one of the key technologies to control the structural integrity in future providing both maintenance and weight saving benefits.
The more advanced stage of SHM is the coupling of information from SHM, usage monitoring, current environmental and operations conditions, previous component and system level testing, and numerical modeling to estimate the remaining useful life of the system.
Advances in sensors are key enabling technologies to the realization of SHM capability and various sensor technologies have been developed and explored for SHM, such as fiber optic sensor, piezoelectric sensor, comparative vacuum sensor and acoustic emission [2-4].
[6] Neil Goldfine, David Grundy, Chris Craven, et.al, “Damage and Usage Monitoring for Vertical Flight Vehicles, ”American Helicopter Society 63rd Annual Forum, Virginia Beach, USA, 2007 [7] Yanko Sheiretov, Dave Grundy, et.al, “MWM-Array Sensors for In Situ Monitoring of High-Temperature Components in Power Plants, ”IEEE Sensors Journal, vol. 9, 2009, pp. 1527-1536
Online since: June 2014
Authors: Dong Li, Kai Bin Li, Guang Yu Pei
Properties of Metallic Materials after Surface Self Nano-crystallization
Guangyu Pei1, a, Dong Li 2,b and Kaibin Li 3,b
1 Department of Materials Engineering, Shanghai University of Engineering Science, shanghai 201620, China
2 Department of Materials Engineering, Shanghai University of Engineering Science, shanghai 201620, China
3 Department of Materials Engineering, Shanghai University of Engineering Science, shanghai 201620, China
apgypgl@126.com, bfreedomsli@yahoo.com, clkbaaa@163.com
Keywords: SSNC; strength; wear and friction; diffusion; fatigue
Abstract.
[12] G Liu, J Lu, and K Lu: Materials Science and Engineering, Vol.
Guagliano: Procedia Engineering, Vol. 2 (2010), p. 1683–1690
Han: Key Engineering Materials, Vol. 384 (2008), p. 321-334
Lu: Materials Science and Engineering A, Vol. 445–446 (2007), p. 281–288
[12] G Liu, J Lu, and K Lu: Materials Science and Engineering, Vol.
Guagliano: Procedia Engineering, Vol. 2 (2010), p. 1683–1690
Han: Key Engineering Materials, Vol. 384 (2008), p. 321-334
Lu: Materials Science and Engineering A, Vol. 445–446 (2007), p. 281–288
Online since: August 2021
Authors: Igor A. Savin
Laser Hardening of Stamps in the Conditions of a Large Engineering Company
Igor A.
The Main Part Today, laser technologies are widely used in the engineering industry, one possible use which is hardening metals.
Leushin, To the question of casting alloys of non-ferrous metals in the metal mold, Materials Science Forum. 946 (2019) 631-635
Chryssolouris, Additive manufacturing methods and modeling approaches: a critical review, International Journal of Advanced Manufacturing Technology. 83(1-4) (2016) 389-405
Pivkin, Selecting optimal cutting tools for lathes, Russian Engineering Research. 37(4) (2017) 351-353.
The Main Part Today, laser technologies are widely used in the engineering industry, one possible use which is hardening metals.
Leushin, To the question of casting alloys of non-ferrous metals in the metal mold, Materials Science Forum. 946 (2019) 631-635
Chryssolouris, Additive manufacturing methods and modeling approaches: a critical review, International Journal of Advanced Manufacturing Technology. 83(1-4) (2016) 389-405
Pivkin, Selecting optimal cutting tools for lathes, Russian Engineering Research. 37(4) (2017) 351-353.
Online since: March 2010
Authors: X.B. Ze, Y.B. Qu, W. Zhang, Y. Fu
Fu
2
1
School of Mechatronic Engineering, Wuhan University of Technology, Wuhan, China, 250022
2
School of Mechanical Engineering, University of Jinan, Jinan, China, 250022
a
zexb@163.com
Keywords: Windows, Networked manufacture, Process integration, Architecture
Abstract.
As a modern advanced enterprise organization mode, the dynamic alliance is the inevitable future direction of development.
Ding: Advances in Materials Manufacturing Science and Technology, Materials Science Forum, Vol. 9 (2004), p.278
Wang: Journal of Mechanical Engineer, Vol. 1 (2006), p.65
As a modern advanced enterprise organization mode, the dynamic alliance is the inevitable future direction of development.
Ding: Advances in Materials Manufacturing Science and Technology, Materials Science Forum, Vol. 9 (2004), p.278
Wang: Journal of Mechanical Engineer, Vol. 1 (2006), p.65
Online since: July 2020
Authors: Vyacheslav V. Maksarov, V.A. Krasnyy, D.D. Maksimov
Krasnyy, The formation of surface roughness of piston rings for the purpose of improving the adhesion of wear-resistant coatings, Key Engineering Materials 736 (2017) 73-78
Timofeev, Dimensional analysis of the manufacturing processes of axisymmetric parts, IOP Conference Series: Materials Science and Engineering 560(1) (2019) 012144
Skeeba, Integrated quality ensuring technique of plasma wear resistant coatings, Key Engineering Materials 736 (2017) 132-137
Sci. and Engineer. 560 (2019) 012188
Keksin, Technological quality assurance of hydraulic cylinder stock manufacturing based on high-energy impact on product surface, AER-Advances in Engineering Research 177 (2018) 321-327
Timofeev, Dimensional analysis of the manufacturing processes of axisymmetric parts, IOP Conference Series: Materials Science and Engineering 560(1) (2019) 012144
Skeeba, Integrated quality ensuring technique of plasma wear resistant coatings, Key Engineering Materials 736 (2017) 132-137
Sci. and Engineer. 560 (2019) 012188
Keksin, Technological quality assurance of hydraulic cylinder stock manufacturing based on high-energy impact on product surface, AER-Advances in Engineering Research 177 (2018) 321-327
Online since: December 2019
Authors: V.B. Babaev, Natalia I. Alfimova, Viktoriya Viktorovna Nelubova, L.N. Botsman
Advances in Environmental Biology. 8 (13) (2014) 134–138
Klyuev, Fire resistant fiber reinforced vermiculite concrete with volcanic application, Magazine of Civil Engineering. 4 (2018) 181–194
Stolyarov, Mechanical properties of synthetic fibers applied to concrete reinforcement, Magazine of Civil Engineering. 4 (2018) 15–23
Manokhin, Behaviour of concrete with a disperse reinforcement under dynamic loads, Magazine of Civil Engineering. 7 (2017) 3–14
Guryanov, External reinforcing of fiber concrete constructions by carbon fiber tapes, Magazine of Civil Engineering. 1 (2013) 21-26
Klyuev, Fire resistant fiber reinforced vermiculite concrete with volcanic application, Magazine of Civil Engineering. 4 (2018) 181–194
Stolyarov, Mechanical properties of synthetic fibers applied to concrete reinforcement, Magazine of Civil Engineering. 4 (2018) 15–23
Manokhin, Behaviour of concrete with a disperse reinforcement under dynamic loads, Magazine of Civil Engineering. 7 (2017) 3–14
Guryanov, External reinforcing of fiber concrete constructions by carbon fiber tapes, Magazine of Civil Engineering. 1 (2013) 21-26
Online since: April 2014
Authors: Peter Horňak, Martin Šebek, Peter Zimovčák
References
[1] International Iron and Steel Institute, Committee on Automotive Applications, Advanced High Strength Steel (AHSS), Application Guidelines 4.1 [online].
B.Santos,Materials Science and Engineering A, Vol. 391, p. 296, (2005)
[3] O.Kwon,K.Lee, G.Kim,K.Chin,New Trends in Advanced High Strength Steel Developments for Automotive Application.
Materials Science Forum, Vols. 638-642, p. 136-141, (2010)
D.Bhole, G.Boundreau, A.Lee, E.Biro, Materials Science and Engineering A., Vol. 485, p. 334, (2008)
B.Santos,Materials Science and Engineering A, Vol. 391, p. 296, (2005)
[3] O.Kwon,K.Lee, G.Kim,K.Chin,New Trends in Advanced High Strength Steel Developments for Automotive Application.
Materials Science Forum, Vols. 638-642, p. 136-141, (2010)
D.Bhole, G.Boundreau, A.Lee, E.Biro, Materials Science and Engineering A., Vol. 485, p. 334, (2008)
Online since: July 2021
Authors: Laxman B. Abhang, Teuku Firsa, Mohd Iqbal, M.S. Satrianda, Said Amir Azan
Abhang3,e
1Mechanical and Industrial Engineering Dept, Universitas Syiah Kuala, Banda Aceh, Indonesia
2Civil Engineering Dept, Universitas Syiah Kuala, Banda Aceh, Indonesia
3Mechanical Engineering Dept.
Isa, High speed milling of silicon carbide with diamond coated end mills, Advanced Materials Research 576 (2012) 535-538)
Faiz, Diamond coated end mills in machining silicon carbide, Advanced Materials Research, 576 (2012) 531-534
Hamid, Experimental Study of Energy Absorption Capability of Metallic-Palm Fiber-Metallic Hybrid Composite Plate, Advanced Materials Research, 311 (2011) 68-71
Yayah, Influence of machining parameters on temperature when drilling Carbon Fiber Reinforced Polymer (CFRP) using coated diamond drills, Advanced Materials Research, 1115 (2015) 74-79
Isa, High speed milling of silicon carbide with diamond coated end mills, Advanced Materials Research 576 (2012) 535-538)
Faiz, Diamond coated end mills in machining silicon carbide, Advanced Materials Research, 576 (2012) 531-534
Hamid, Experimental Study of Energy Absorption Capability of Metallic-Palm Fiber-Metallic Hybrid Composite Plate, Advanced Materials Research, 311 (2011) 68-71
Yayah, Influence of machining parameters on temperature when drilling Carbon Fiber Reinforced Polymer (CFRP) using coated diamond drills, Advanced Materials Research, 1115 (2015) 74-79