Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: February 2012
Authors: Jun Ping Wang, Pan Ning, Ruo Yu Pang, Jian Ping Fang
Basic concepts
Because of discussing the COE corresponding mainly to the redundancy material defect, the relevant basic concepts are given as follows:
Redundancy material defect.
A real layout with redundancy material defect Short critical area.
Acknowledgements This work was financially supported in part by the National Natural Science Foundation of China (Grant NO. 61173088, 61070143), and in part by the 111 Project under Grant B08038.
Hao, "Development of Critical Area Research Method for Integrated Circuits and Its Challenges," Microelectronics Journal, vol. 39, pp. 704-709, 2009.
Ren, "Critical Area Minimization Using the LP Method," Electronic Science and Technology. vol. 21, pp. 1-4, 2008 (in Chinese)
A real layout with redundancy material defect Short critical area.
Acknowledgements This work was financially supported in part by the National Natural Science Foundation of China (Grant NO. 61173088, 61070143), and in part by the 111 Project under Grant B08038.
Hao, "Development of Critical Area Research Method for Integrated Circuits and Its Challenges," Microelectronics Journal, vol. 39, pp. 704-709, 2009.
Ren, "Critical Area Minimization Using the LP Method," Electronic Science and Technology. vol. 21, pp. 1-4, 2008 (in Chinese)
Online since: May 2013
Authors: Yos Morsi, S.H. Masood, Saleh H. Gharaie
Tensile Properties of Processed 3D Printer ZP150 Powder Material
Saleh H.
Masood3, c 1,2,3Faculty of Engineering and Industrial Sciences, Swinburne University of Technology, Hawthorn, Victoria 3122, Australia ashassanzadeh@swin.edu.au,bymorsi@swin.edu.au, csmasood@swin.edu.au, Keywords:3D printing, Tensile strength, ZP150, process parameters Abstract.3D Printing is one of the few powder-bed type rapid prototyping (RP) technologies, which allows fabrication of parts using powder materials.
Materials Science and Engineering: C, (2002). 20(1–2): p. 49-56
Journal of Materials Science: Materials in Medicine, (2005). 16(12): p. 1121-1124
Journal of Materials Processing Technology, (2007). 187–188(0): p. 627-630.
Masood3, c 1,2,3Faculty of Engineering and Industrial Sciences, Swinburne University of Technology, Hawthorn, Victoria 3122, Australia ashassanzadeh@swin.edu.au,bymorsi@swin.edu.au, csmasood@swin.edu.au, Keywords:3D printing, Tensile strength, ZP150, process parameters Abstract.3D Printing is one of the few powder-bed type rapid prototyping (RP) technologies, which allows fabrication of parts using powder materials.
Materials Science and Engineering: C, (2002). 20(1–2): p. 49-56
Journal of Materials Science: Materials in Medicine, (2005). 16(12): p. 1121-1124
Journal of Materials Processing Technology, (2007). 187–188(0): p. 627-630.
Online since: November 2015
Authors: Razvan Păcurar, Adrian Radu Sever, Ancuţa Păcurar
For instance, fracture surface analysis of 3D-printed tensile specimens of novel ABS-based materials has been performed by Dr.
Evans, Mechanical strength of extrusion freeformed calcium phosphate filaments, Journal of Materials Science: Materials in Medicine. 21 (2010) 1503-1510
Es-Said, The effect of layer orientation on the mechanical properties and microstructure of a polymer, Journal of Materials Engineering and Performance. 20 (2011) 978–988
Matúš, Accuracy of Rapid Prototyped models with using of FDM technology, Applied Mechanics and Materials. 613 (2014) 390-395
Wicker, Fracture Surface Analysis of 3D-Printed Tensile Specimens of Novel ABS-Based Materials, Journal of Failure Analysis and Prevention. 14 (2014) 343–353
Evans, Mechanical strength of extrusion freeformed calcium phosphate filaments, Journal of Materials Science: Materials in Medicine. 21 (2010) 1503-1510
Es-Said, The effect of layer orientation on the mechanical properties and microstructure of a polymer, Journal of Materials Engineering and Performance. 20 (2011) 978–988
Matúš, Accuracy of Rapid Prototyped models with using of FDM technology, Applied Mechanics and Materials. 613 (2014) 390-395
Wicker, Fracture Surface Analysis of 3D-Printed Tensile Specimens of Novel ABS-Based Materials, Journal of Failure Analysis and Prevention. 14 (2014) 343–353
Online since: September 2016
Authors: S.S. Mohapatra, H.C. Das, D.V.N. Lakshmi
An Experimental Study on Natural Convection Biomass Dryer with Different Sensible Heat Storage Materials
D.V.N.Lakshmi1, a *, S.
The time taken by this process is less than the conventional drying without storage materials.
Where pebble and concrete have been used as thermal energy storage materials.
Chandrasekhar, performance of a forced convection solar drier integrated with gravel as heat storage material for chilli drying, Journal of Engineering Science and Technology, 4 (2009) 305 – 314
Applied Mechanics and Materials, 813-814 (2015) 668-673
The time taken by this process is less than the conventional drying without storage materials.
Where pebble and concrete have been used as thermal energy storage materials.
Chandrasekhar, performance of a forced convection solar drier integrated with gravel as heat storage material for chilli drying, Journal of Engineering Science and Technology, 4 (2009) 305 – 314
Applied Mechanics and Materials, 813-814 (2015) 668-673
Online since: September 2022
Authors: Tran Thi Van Nga, Le Hong Ky, Tran Vinh Hung, Ta Van Ranh
Researches on welding of different materials includes: H.
Materials with the same properties can be welded, meeting the set requirements.
Withers at Manchester Institute of Natural Materials Research, UK; [5] M.
Ismail, Effect of welding speed on mechanical strength of friction welded joint of YSZ-Alumina composite and 6061 Aluminum Alloy, Materials Science and Engineering A 528 (2011) 4753–4760 [6] P.
[15] Eder Paduan Alves, Chen Ying An, Francisco Piorino Neto, Eduardo dos Ferro Santos, Experimental Determination of Temperature during Rotary Friction Welding of Dissimilar Materials, 2012 Science and Engineering Publishing Company
Materials with the same properties can be welded, meeting the set requirements.
Withers at Manchester Institute of Natural Materials Research, UK; [5] M.
Ismail, Effect of welding speed on mechanical strength of friction welded joint of YSZ-Alumina composite and 6061 Aluminum Alloy, Materials Science and Engineering A 528 (2011) 4753–4760 [6] P.
[15] Eder Paduan Alves, Chen Ying An, Francisco Piorino Neto, Eduardo dos Ferro Santos, Experimental Determination of Temperature during Rotary Friction Welding of Dissimilar Materials, 2012 Science and Engineering Publishing Company
Online since: July 2015
Authors: Mohamed Nasrul Mohamed Hatta, Musli Nizam Bin Yahya, Mohd Imran Ghazali, Mohamed Najib Rafiq, Mathan Sambu, Hanif Abdul Latif
Porous materials allow sound energy to easily enter and the low frequencies pass through material much easier than the high frequencies.
Journal of Science and Technology (2013), 4(2), pp. 23-33
Seddeq, Factors influencing acoustics performance of sound absorptive materials.
Australian journal of basic and applied sciences, 3(4) (2009), pp. 4610-4617
Journal of applied polymer science 119.6 (2011), pp. 3696-3707
Journal of Science and Technology (2013), 4(2), pp. 23-33
Seddeq, Factors influencing acoustics performance of sound absorptive materials.
Australian journal of basic and applied sciences, 3(4) (2009), pp. 4610-4617
Journal of applied polymer science 119.6 (2011), pp. 3696-3707
Online since: February 2015
Authors: Karla Čech Barabaszová, Frantisek Fojtik, Jana Kukutschová, Karel Frydrýšek, Oldřich Učeň, Gűnther Theisz, Vladimír Ječmínek, Vojtěch Bajtek, Kateřina Dědková
The new design of external fixators is based on the development of Ilizarov and other techniques and satisfies new demands of science.
New smart materials (mostly not metal) Antibacterial protection: Application of nanoadditives containing selected metal-based nanoparticles on the surface of the outer parts of the fixators.
New design (structure) Proper mechanical properties and reliability of structure: Stiffness of fixators, fatigue tests of the whole system, etc. are based on laboratory testing of new smart materials.
The new designs and materials of fixators will satisfy the ambitious demands of modern traumatology.
Čech Barabaszová, Antibacterial properties of nanostructured materials, Journal of Nanocomposites and Nanoceramics 3 (2012) 7-13
New smart materials (mostly not metal) Antibacterial protection: Application of nanoadditives containing selected metal-based nanoparticles on the surface of the outer parts of the fixators.
New design (structure) Proper mechanical properties and reliability of structure: Stiffness of fixators, fatigue tests of the whole system, etc. are based on laboratory testing of new smart materials.
The new designs and materials of fixators will satisfy the ambitious demands of modern traumatology.
Čech Barabaszová, Antibacterial properties of nanostructured materials, Journal of Nanocomposites and Nanoceramics 3 (2012) 7-13
Online since: December 2012
Authors: Zainal Arifin Ahmad, Ahmad Zahirani Ahmad Azhar, Hasmaliza Mohamad, Nik Akmar Rejab, Mani Maran Ratnam
Walter: Journal of Materials Processing Technology Vol. 133 (2003), p. 195-198
Gatto: Journal of Materials Processing Technology Vol. 174 (2006), p. 67-73
Anglada: Journal of Materials Processing Technology Vol. 143 (2003), p. 148-115
Diebold: Surface Science Vol. 375 (1997), p. 1-12
Niihara: Journal of Materials Science Letters Vol. 2 (1983), p. 221-223
Gatto: Journal of Materials Processing Technology Vol. 174 (2006), p. 67-73
Anglada: Journal of Materials Processing Technology Vol. 143 (2003), p. 148-115
Diebold: Surface Science Vol. 375 (1997), p. 1-12
Niihara: Journal of Materials Science Letters Vol. 2 (1983), p. 221-223
Online since: April 2015
Authors: Hussin Kamarudin, Mohd Mustafa Al Bakri Abdullah, Mohammed Binhussain, Aeslina Abdul Kadir, Wan Mastura Wan Ibrahim
Kamal: Australian Journal of Basic and Applied Sciences Vol. 7(8) (2013), p. 812-818
[3] Z.
Arumairaj : International Journal of Engineering Sciences & Emerging Technologies Vol. 1 (2) (2012), p. 118-122 [7] M.
Peijiang: Construction and Building Materials Vol. 21 (2007), p. 211-217 [11] T.
Rafiza: International Journal of Molecular Sciences Vol. 13 (2012), p. 7186-7198 [20] J.
Natarajan: European International Journal of Science and Technology Vol. 2 (5) (2013), p. 133-139
Arumairaj : International Journal of Engineering Sciences & Emerging Technologies Vol. 1 (2) (2012), p. 118-122 [7] M.
Peijiang: Construction and Building Materials Vol. 21 (2007), p. 211-217 [11] T.
Rafiza: International Journal of Molecular Sciences Vol. 13 (2012), p. 7186-7198 [20] J.
Natarajan: European International Journal of Science and Technology Vol. 2 (5) (2013), p. 133-139
Online since: September 2013
Authors: Dong Yue Wu
Introduction
Metallic materials have electromagnetism characteristics and their changes in electromagnetism properties can reflect objects under test, such as type of material, geometry and quality [1-3].
Electromagnetic induction detection techniques can be used to obtain the conductivity and permeability of materials and have hence been widely used in detection of conducting materials.
Some tests will be carried out on specimens of different materials and with different cracks in the future.
Peyton, “A multi-frequency impedance analyzing instrument for eddy current testing,” Measurement Science and Technology, vol. 17, pp. 393-402, 2006
Peyton, “A planar EMT system for the detection of faults on thin metallic plates,” Measurement Science and Technology, vol. 17, pp. 2130-2135, 2006.
Electromagnetic induction detection techniques can be used to obtain the conductivity and permeability of materials and have hence been widely used in detection of conducting materials.
Some tests will be carried out on specimens of different materials and with different cracks in the future.
Peyton, “A multi-frequency impedance analyzing instrument for eddy current testing,” Measurement Science and Technology, vol. 17, pp. 393-402, 2006
Peyton, “A planar EMT system for the detection of faults on thin metallic plates,” Measurement Science and Technology, vol. 17, pp. 2130-2135, 2006.