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Online since: December 2014
Authors: Fernanda A. Sampaio da Silva, Edwin E.G. Rojas, Marcos Flávio de Campos, Sérgio Romero
.: Advanced Drug Delivery Reviews Vol. 63 (2011), p. 24
:Materials Science and Engineering C.
Mohammad: Advanced Drug Delivery Reviews Vol. 63 (2011), p. 789
[9] F.A.S. da Silva, M.F. de Campos: Materials, Materials Science Forum Vols. 727-728 (2012), p. 130.
:Materials Science and Engineering C.
Mohammad: Advanced Drug Delivery Reviews Vol. 63 (2011), p. 789
[9] F.A.S. da Silva, M.F. de Campos: Materials, Materials Science Forum Vols. 727-728 (2012), p. 130.
Online since: October 2006
Authors: Dae Heon Joo, Myung Ho Kim, Byoung Soo Lee
Kim
3
1
Nano-materials team, Advanced Materials Center, Korea Institute of Industrial Technology, 994-32
Dongchun-Dong, Yeonsu-Ku, Incheon, 406-130, South Korea
2
Dong Yang Piston Co., LTD, 1050, Singil-Dong, Donwon-Gu, Ansan, Kyungki-Do, South Korea
3
School of materials science and engineering, Inha University, #253 Yonghyun-Dong, Nam-Gu,
Incheon, 402- 751, South Korea
a
leebs98@empal.com
Keywords: semisolid materials; melt extrusion; Al-Cu alloys; segregation.
Kim: Materials Science Forum, Vol. 510-511 (2005)
Kim: Materials Science Forum, Vol. 510-511 (2005)
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 2010
Authors: Dyi Cheng Chen, Ci Syong You, Gua Nying Lai, Syue Cheng Ji
The CWR technique, as one of the rolling processes of net-shape parts, is an advanced
production design.
Xing and Shu [1] developed an innovative numerical model of a two-wedge cross wedge rolling (TCWR) system, using an advanced explicit dynamic finite element method.
Shu: Materials Science Forum Vols. 575-578 (2008), p. 255 [2] P.
Zheng: Materials Science and Engineering A 391 (2005), p. 305
Xing and Shu [1] developed an innovative numerical model of a two-wedge cross wedge rolling (TCWR) system, using an advanced explicit dynamic finite element method.
Shu: Materials Science Forum Vols. 575-578 (2008), p. 255 [2] P.
Zheng: Materials Science and Engineering A 391 (2005), p. 305
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: May 2014
Authors: Takuya Ishimoto, Takayoshi Nakano, Ryoichi Suetoshi, Aira Matsugaki, Ai Serizawa, Yoshihiro Noyama, Wataru Fujitani, Mitsuharu Todai
All procedures for animal experiment were approved by the Animal Experiment Committee of Osaka University Graduate School of Engineering.
Imperfect regeneration of bone tissue anisotropy For the recovery of anisotropic bone tissue architecture, the advanced tissue engineering technique is still incomplete.
This suggests that BMD recovers at a faster rate than BAp c-axis orientation, which means that the recovery of the BAp orientation cannot be promoted properly even under the usage of advanced tissue engineering technique.
Conclusion Development of the novel implants should be based on the bone tissue anisotropy closely related to the orientation degree of Col/BAp preferential alignment because even the advanced tissue-engineered bone delays the recovery of bone tissue anisotropy compared to bone mass and bone mineral density.
Forum (ibid.) (2013)
Imperfect regeneration of bone tissue anisotropy For the recovery of anisotropic bone tissue architecture, the advanced tissue engineering technique is still incomplete.
This suggests that BMD recovers at a faster rate than BAp c-axis orientation, which means that the recovery of the BAp orientation cannot be promoted properly even under the usage of advanced tissue engineering technique.
Conclusion Development of the novel implants should be based on the bone tissue anisotropy closely related to the orientation degree of Col/BAp preferential alignment because even the advanced tissue-engineered bone delays the recovery of bone tissue anisotropy compared to bone mass and bone mineral density.
Forum (ibid.) (2013)
Online since: July 2014
Authors: Fei Long Liu
Energy management is not only the engineering work but involves all departments of the hotel.
Energy consumption of the operation of the hotel equipment becomes an important part of the hotel product which is diverse, widely distributed, concealed installation and advanced technology.
However, the equipment management of the hotel, especially the repair usually belongs to the engineering department, which resulted in the separation of duty use and maintenance.
Second,due to the current status of development of the hotel, most of its engineering technology strength relatively weak restrict the implement and carry out energy saving work of the hotel.
Jiangsu Commercial Forum.2011 (4)26-27
Energy consumption of the operation of the hotel equipment becomes an important part of the hotel product which is diverse, widely distributed, concealed installation and advanced technology.
However, the equipment management of the hotel, especially the repair usually belongs to the engineering department, which resulted in the separation of duty use and maintenance.
Second,due to the current status of development of the hotel, most of its engineering technology strength relatively weak restrict the implement and carry out energy saving work of the hotel.
Jiangsu Commercial Forum.2011 (4)26-27
Online since: January 2014
Authors: Michel Picanço Oliveira, Isabela Leão Amaral da Silva, Frederico Muylaert Margem, Alice Bevitori, Sergio Neves Monteiro
BENDING MECHANICAL BEHAVIOR OF EPOXY MATRIX REINFORCED WITH JUTE FIBER
Sergio Neves Monteiro1.a, Frederico Muylaert Margem2.b,
Isabela Leão da Silva2.c; Alice Bevitori2.d, Michel Picanço Oliveira1.e.
1 IME - Military Institute of Engineering, Department of Materials Science, Praça General Tibúrcio, 80, 22290-270, Rio de Janeiro, Brazil.
2 UENF - State University of the Northern Rio de Janeiro, UENF, Advanced Materials Laboratory, LAMAV; Av.
The engineering application of natural fibers extracted from cellulose-containing vegetables, also recognized as lignocellulosic fibers, is presently considered an environmentally correct alternative to replace more expensive, non recyclable and energy-intensive synthetic fibers [7,8].
Jog: Advances in Polymer Technology Vol. 18 (1999), p. 351
And Engineering Vol. 276/277 (2000), p.1
Lopes: Materials Science Forum Vol. 638-642 (2010), p. 961
The engineering application of natural fibers extracted from cellulose-containing vegetables, also recognized as lignocellulosic fibers, is presently considered an environmentally correct alternative to replace more expensive, non recyclable and energy-intensive synthetic fibers [7,8].
Jog: Advances in Polymer Technology Vol. 18 (1999), p. 351
And Engineering Vol. 276/277 (2000), p.1
Lopes: Materials Science Forum Vol. 638-642 (2010), p. 961
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: October 2020
Authors: Batyr M. Yazyev, Liubov I. Lesnyak, Arthur A. Avakov, Ludmila L. Dubovitskaya
Yazyev, Flat Axisymmetrical Problem of Thermal Creepage for Thick-Walled Cylinder Made of Recyclable PVC, Procedia Engineering. 150 (2016) 1686-1693
Jazyjev, Model of Equal-Stressed Cylinder Based on the Mohr Failure Criterion, Advanced Materials Research. 887-888 (2014) 869-872
Savchenko, Calculation for the Circular Plate on Creep Considering Geometric Nonlinearity, Procedia Engineering. 150 (2016) 1680-1685
Avakov, Some features of temperature field definition in axisymmetric problems, International Conference on Industrial Engineering, Applications and Manufacturing. (2017) 1-5
Yazyev, Determination of the Stress-Strain State of a Rotating Polymer Body, Materials Science Forum. 935 (2018) 121-126.
Jazyjev, Model of Equal-Stressed Cylinder Based on the Mohr Failure Criterion, Advanced Materials Research. 887-888 (2014) 869-872
Savchenko, Calculation for the Circular Plate on Creep Considering Geometric Nonlinearity, Procedia Engineering. 150 (2016) 1680-1685
Avakov, Some features of temperature field definition in axisymmetric problems, International Conference on Industrial Engineering, Applications and Manufacturing. (2017) 1-5
Yazyev, Determination of the Stress-Strain State of a Rotating Polymer Body, Materials Science Forum. 935 (2018) 121-126.