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Online since: January 2016
Authors: Pruittipol Limkitjaroenporn, J. Kaewkhao, Wuttichai Chaiphaksa, P. Prongsamrong
Kaewkhao2,3,d
1Science Program, Faculty of Science and Technology, Nakhon Pathom Rajabhat University, Nakhon Pathom 73000, Thailand
2Physics Program, Faculty of Science and Technology Nakhon Pathom Rajabhat University, Nakhon Pathom 73000, Thailand
3Center of Excellence in Glass Technology and Materials Science (CEGM), Nakhon Pathom Rajabhat University, Nakhon Pathom 73000, Thailand
apr_2520@hotmail.com bgolfpo@hotmail.com, cchaipuksa_ch@hotmail.com, dmink110@hotmail.com
Keywords: Inorganic scintillator; Photomultiplier tube; light yield; Photofraction
Abstract.
If this were perfectly understood, it would not be any problem to predict which materials would be perfect scintillators [2].
Chai, Scintillation properties of LYSO crystals, Nuclear Science Symposium Conference Record IEEE, 3 (2002) 1434-1437
Limkitjaroenporn, Light yield non-proportionality and energy resolution of BGO and CsI(Tl) scintillation crystals, Advanced Materials Research, 979 (2014) 285-288
Weber, Inorganic scintillators: today and tomorrow, Journal of Luminescence, 100 (2002) 35-45.
If this were perfectly understood, it would not be any problem to predict which materials would be perfect scintillators [2].
Chai, Scintillation properties of LYSO crystals, Nuclear Science Symposium Conference Record IEEE, 3 (2002) 1434-1437
Limkitjaroenporn, Light yield non-proportionality and energy resolution of BGO and CsI(Tl) scintillation crystals, Advanced Materials Research, 979 (2014) 285-288
Weber, Inorganic scintillators: today and tomorrow, Journal of Luminescence, 100 (2002) 35-45.
Online since: August 2009
Authors: J.J. Marquez, M. Rodriguez, M.L. Martinez, J.M. Perez
A determined amount of parts were selected as representative of sizes and materials used in consumer products.
International Journal of Engineering Education.
Journal of Materials Processing Technology 183 (2007) 412–418
Journal of Manufacturing Science and Engineering-Transactions of the ASME 120 (2): 323-329 May 1998
Journal of Micromechanics and Microengineering.
International Journal of Engineering Education.
Journal of Materials Processing Technology 183 (2007) 412–418
Journal of Manufacturing Science and Engineering-Transactions of the ASME 120 (2): 323-329 May 1998
Journal of Micromechanics and Microengineering.
Online since: March 2008
Authors: Zong De Liu, Li Ping Zhao, Jing Jing Liu
Shanov et al
[10] found that the maximum erosion rate is at 90° incidence angle for materials which are
of a brittle nature.
Materials Science & Technology, 2006; 14(1): 78-80 [5] Pu Zelin, Liu Zongde, Yang Kun et al.
The Chinese Journal of Nonferrous Metals. 2005, 15(2):295-299 [6] Pu Zelin, Liu Zongde, Yang Kun et al.
Journal of the Chinese Ceramic Society. 2005, 33(1):42-46 [7] Pu Zelin, Yang Kun, Liu Zongde et al.
Rare Metal Materials and Engineering. 2005, 34(4):670-672 [9] G.Q.
Materials Science & Technology, 2006; 14(1): 78-80 [5] Pu Zelin, Liu Zongde, Yang Kun et al.
The Chinese Journal of Nonferrous Metals. 2005, 15(2):295-299 [6] Pu Zelin, Liu Zongde, Yang Kun et al.
Journal of the Chinese Ceramic Society. 2005, 33(1):42-46 [7] Pu Zelin, Yang Kun, Liu Zongde et al.
Rare Metal Materials and Engineering. 2005, 34(4):670-672 [9] G.Q.
Online since: September 2013
Authors: Ya Dong Gong, Lian Jie Ma, Yuan Ji Bao
Through examination of grinding debris for various brittle materials[3], suggests material removal mainly by brittle fracture.
The mica glass ceramic was used for the experimentical material in processing.
So the material fracture will be more easily, but is not the atomic bond fracture as the hypothetical crystal.
Acknowledgements This study was supported by National Science Foundation of China (Grant No. 51275083 ).
International Journal of Sustainable Manufacturing, Vol.1(2008), p.203
The mica glass ceramic was used for the experimentical material in processing.
So the material fracture will be more easily, but is not the atomic bond fracture as the hypothetical crystal.
Acknowledgements This study was supported by National Science Foundation of China (Grant No. 51275083 ).
International Journal of Sustainable Manufacturing, Vol.1(2008), p.203
Online since: July 2015
Authors: Rolando V. Bantaculo, Marissa A. Balatero, Giovanni J. Paylaga, Naomi Tabudlong Paylaga
Introduction
Honeycomb-carbon based structured materials have been the focus of research in recent years.
Unlike graphene, silicene the silicon counterpart of graphene which shows promising properties that are useful in the electronic industry and can be easily incorporated in silicon-based materials [3,4,5,6,7].
The results gathered in this investigation provide knowledge for the suitable form of GeNR to be used for specific materials and applications.
Acknowledgement This work is supported by the Department of Science and Technology under Accelerated Science and Technology Human Resource Development Project (ASTHRDP).
Kurchania, Journal of Computational and Theoretical Nanoscience Vol. 11 (2014), 1–8 [3].
Unlike graphene, silicene the silicon counterpart of graphene which shows promising properties that are useful in the electronic industry and can be easily incorporated in silicon-based materials [3,4,5,6,7].
The results gathered in this investigation provide knowledge for the suitable form of GeNR to be used for specific materials and applications.
Acknowledgement This work is supported by the Department of Science and Technology under Accelerated Science and Technology Human Resource Development Project (ASTHRDP).
Kurchania, Journal of Computational and Theoretical Nanoscience Vol. 11 (2014), 1–8 [3].
Online since: October 2014
Authors: Vasily A. Klimenov, Konstantin V. Zaitsev, Veheslav Yu. Borozna
Titanium and its alloys are the structural materials widely used in manufacturing of some of medical equipment.
Materials and research techniques Commercially pure titanium VT1 - 0 and titanium alloy VT6 in as delivery condition were taken as a base material.
Such materials can be recommended for the construction of frictional couples.
Application of titanium and titanium-based materials in medicine // Ti – 2006 in CIS, 2006. p. 324-327
Antifriction properties of polytetrafluoroethylene-based composite materials. – М.: Nauka (Science), 1981. – 148p
Materials and research techniques Commercially pure titanium VT1 - 0 and titanium alloy VT6 in as delivery condition were taken as a base material.
Such materials can be recommended for the construction of frictional couples.
Application of titanium and titanium-based materials in medicine // Ti – 2006 in CIS, 2006. p. 324-327
Antifriction properties of polytetrafluoroethylene-based composite materials. – М.: Nauka (Science), 1981. – 148p
Online since: August 2014
Authors: Marian Miculescu, Florin Miculescu, Marin Bane, Mihai Branzei, Daniela Meghea
The casting was performed in an induction furnace with controlled atmosphere developed in the laboratory of the Institute of Complex Materials (IKM) of the Institute of Materials (IFW), belonging to the Leibniz network of research institutes who works with Technical University of Dresden.
References [1] Craig R., Powers J.M.Restorative dental materials, 11-th editon.
Journal of Biomedical Materials Research, 41:614-23,1998; [4].
Journal of Dental Research, 49:27-33, 1990; [6].
Anusavice, Dental casting and soldering alloys, Phillips Science of Dental materials. 11th ed.
References [1] Craig R., Powers J.M.Restorative dental materials, 11-th editon.
Journal of Biomedical Materials Research, 41:614-23,1998; [4].
Journal of Dental Research, 49:27-33, 1990; [6].
Anusavice, Dental casting and soldering alloys, Phillips Science of Dental materials. 11th ed.
Online since: August 2013
Authors: Shuo Zhang, Yan Zhou Li, Cai Gui Huang, Wei Wang
(1)
The Material Reaction.
Figure 2: The force diagram of material Set the density of material is, the centrifugal force on the micro block is:
(6) In the calculation formula —the centrifugal pressure of the material —the density of the material — the outside radius of the material —the inside radius of the material The Centrifugal Pressure of Filter Screen.
(7) In the calculation :--the mass of the filter screen; — the inside radius of then rotary drum; --the speed; —the height of the inner wall of the rotary drum The basis for strength: according to JB/TSO51—《The Rules of Strength Calculation of Centrifuge》 of our country, the allowable stress of material science:
Journal of Mechanical Strength,2002,24(2):295-297 [7] Jiang Yongtao.Finite-element Analysis and Structural Optimization for Drum of Hang Type Centrifuge [D].
Figure 2: The force diagram of material Set the density of material is, the centrifugal force on the micro block is:
(6) In the calculation formula —the centrifugal pressure of the material —the density of the material — the outside radius of the material —the inside radius of the material The Centrifugal Pressure of Filter Screen.
(7) In the calculation :--the mass of the filter screen; — the inside radius of then rotary drum; --the speed; —the height of the inner wall of the rotary drum The basis for strength: according to JB/TSO51—《The Rules of Strength Calculation of Centrifuge》 of our country, the allowable stress of material science:
Journal of Mechanical Strength,2002,24(2):295-297 [7] Jiang Yongtao.Finite-element Analysis and Structural Optimization for Drum of Hang Type Centrifuge [D].
Online since: September 2013
Authors: Li Yang, Jin Guo Ge, Min He, Ning Zhang
Experimental materials and methods
Experimental materials.
XKY2011209), and Xuzhou Engineering Research Center of Nonferrous Metal and New Materials Processing.
Laser cladding for wear-resistant Cr-alloyed Ni2Si-NiSi intermetallie composite coatings[J], Materials Letters, 2003, (57): 2914-2918
Laser cladding of aerospac materials[J], Journal of Materials Processing Technology, 2002, (122): 63-68
Journal ofMaterials Processing Technology[J], 2005, 160:401-409
XKY2011209), and Xuzhou Engineering Research Center of Nonferrous Metal and New Materials Processing.
Laser cladding for wear-resistant Cr-alloyed Ni2Si-NiSi intermetallie composite coatings[J], Materials Letters, 2003, (57): 2914-2918
Laser cladding of aerospac materials[J], Journal of Materials Processing Technology, 2002, (122): 63-68
Journal ofMaterials Processing Technology[J], 2005, 160:401-409
Online since: October 2010
Authors: Yin Qun Hua, Zheng Rong Cai, Yu Xiao Chen, Hui Jiang, Rui Fang Chen
Introduction
Laser shock processing (LSP) is a new surface modification technology, which makes use of the
mechanical effect of high pressure shock wave generating in the process of interaction between
metal materials and high power density, short pulse.
It changes the surface of materials, internal organizational structure and stress state, improves strength of materials, fatigue resistance, wearresistant and stress corrosion resistant[1-2], thereby improves the fatigue life of metal materials , the security and the authenticity.
Zhang and Y.L.Yao: ASME Journal of Manufacturing Science and Engineering, Vol.124(2002) No.4, pp.369-378.
LEE: Advanced Materials & Processes, Vol.157 (2000) No.13, pp.75-80
Shi: Journal of Materials Processing Technology,Vol.138 (2003) No.10, pp.489-493
It changes the surface of materials, internal organizational structure and stress state, improves strength of materials, fatigue resistance, wearresistant and stress corrosion resistant[1-2], thereby improves the fatigue life of metal materials , the security and the authenticity.
Zhang and Y.L.Yao: ASME Journal of Manufacturing Science and Engineering, Vol.124(2002) No.4, pp.369-378.
LEE: Advanced Materials & Processes, Vol.157 (2000) No.13, pp.75-80
Shi: Journal of Materials Processing Technology,Vol.138 (2003) No.10, pp.489-493