Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2006
Authors: Donald W. Brown, A.D. Stoica, Michael L. Benson, T.A. Saleh, Dwaine L. Klarstrom, X.L. Wang, Hahn Choo, Peter K. Liaw
Klarstrom, Metallugical
and Materials Transactions A 35 (2004) 785-796
Muenchen, Materials Science and Engineering A 316 (2001) 66-79
Klarstrom, Materials Science and Engineering A 314 (2001) 162-175
Klarstrom, Mechanics of Materials 36 (2004) 73-84
Bunge, Texture Analysis in Material Science, London Butterworth (1982)
Muenchen, Materials Science and Engineering A 316 (2001) 66-79
Klarstrom, Materials Science and Engineering A 314 (2001) 162-175
Klarstrom, Mechanics of Materials 36 (2004) 73-84
Bunge, Texture Analysis in Material Science, London Butterworth (1982)
Online since: January 2013
Authors: Staš Ondrej, Marian Tolnay, Ernest Gondár, Peter Surový
One of main disadvantages is problematic use of low density materials that change the volume during the operation of sintering.
Use of materials with homogenous properties increases the price of product.
It also reduces possibility of different materials such as plastics powders, recycled materials, composite materials, etc.
Mülhaupt, Rapid Prototyping, Polymer Science: A Comprehensive Reference, Pages 77–99, 2012
Peukertc, Sintering kinetics and mechanism of vitreous nanoparticles, Journal of Aerosol Science, Volume 45, Pages 26–39, March 2012
Use of materials with homogenous properties increases the price of product.
It also reduces possibility of different materials such as plastics powders, recycled materials, composite materials, etc.
Mülhaupt, Rapid Prototyping, Polymer Science: A Comprehensive Reference, Pages 77–99, 2012
Peukertc, Sintering kinetics and mechanism of vitreous nanoparticles, Journal of Aerosol Science, Volume 45, Pages 26–39, March 2012
Online since: August 2012
Authors: Luis Henrique Leme Louro, Sérgio Neves Monteiro, Célio Albano da Costa, E.S. Lima, José Brant de Campos, R.R. de Avillez
Takahashi: Composites Science and Technology, 61 (2001) 2117-2128;
[2] Y.
Kohtoku: Journal of Materials Science, 33 (1998) 1217-1225; [3] P.
Gao: NanoStructured Materials, v. 11, n. 8, p. 1073-80, 1999; [5] T.A.
Waku, Journal of Crystal Growth 244 (2002) 384-392; [7] T.
Materials Science and Engineering A – Structural Materials Properties, v.172, p. 173-179, 1993; [9] R.A.
Kohtoku: Journal of Materials Science, 33 (1998) 1217-1225; [3] P.
Gao: NanoStructured Materials, v. 11, n. 8, p. 1073-80, 1999; [5] T.A.
Waku, Journal of Crystal Growth 244 (2002) 384-392; [7] T.
Materials Science and Engineering A – Structural Materials Properties, v.172, p. 173-179, 1993; [9] R.A.
Online since: February 2012
Authors: Mei Zhu Wang, Wei Liu
[3] Ferrer, G., Swaminathan, J.M.: management science.
Elif.: Journal of operations management. 25(2007),P1161-1183
[9] Sibel Alumur.: European Journal of operational research.190(2008).P1-21
Marinov. : European Journal of operational research.200(2010).P28-35
Jayaraman, Raymond A.Patterson, Erik Rolland.: European Journal of Operational Research 150 (2003).P128–149
Elif.: Journal of operations management. 25(2007),P1161-1183
[9] Sibel Alumur.: European Journal of operational research.190(2008).P1-21
Marinov. : European Journal of operational research.200(2010).P28-35
Jayaraman, Raymond A.Patterson, Erik Rolland.: European Journal of Operational Research 150 (2003).P128–149
Online since: October 2022
Authors: Geng Yuan Liang, Wen Shu Zhao, Yong Lv He, Bo Wen Lei, Suli Xing, Ying Xiao, Jian Wei Zhang
Progress in Materials Science. 2016, 83: 330-382
Materials Today. 2013, 16(5): 166-176
Quantum dot superlattice thermoelectric materials and devices[J]. science. 2002, 297(5590): 2229-2232
Complex thermoelectric materials[M].
Journal of Materials Science & Technology, 2021, 85: 76-86
Materials Today. 2013, 16(5): 166-176
Quantum dot superlattice thermoelectric materials and devices[J]. science. 2002, 297(5590): 2229-2232
Complex thermoelectric materials[M].
Journal of Materials Science & Technology, 2021, 85: 76-86
Online since: December 2013
Authors: Xiang Hui Hou, Kwang Leong Choy, Rosniza Hussin
The multilayer of two different materials show much improved and special optical properties because of the combination affect between the dissimilar materials as well as the enlarged the surface areas.
Lee, Controlling preffered orientation of ZnO thin films by Atomic layer deposition, Journal of Materials Science 39 (2004) 2195-2197
Elam,Atomic Layer deposition of ZnO in Quatum Dot Thin Films, Advanced Materials 21 (2009) 232-235
Journal.
C.W.Zou, Transactions on electrical and electronic materials vol.11 (2010) 1-10.
Lee, Controlling preffered orientation of ZnO thin films by Atomic layer deposition, Journal of Materials Science 39 (2004) 2195-2197
Elam,Atomic Layer deposition of ZnO in Quatum Dot Thin Films, Advanced Materials 21 (2009) 232-235
Journal.
C.W.Zou, Transactions on electrical and electronic materials vol.11 (2010) 1-10.
Online since: July 2011
Authors: Zhen Qi Song, Li Jing Ru, Hong Chun Xia
The elastic-plastic constitutive relationship and the Drucker-prager yielding criterion are used to simulate the behaviour of non-linear geo- materials.
Introduction The certain methods of abutment pressure obtains the measurements of the doformation of tunnel, the measurements of load of hydraulic support[1], similar materials simulation[2], numerical simulation[3-4], elasitc simiplied calculation[5], et al.
Fig. 1 Finite element model used for numerical computations The choice of yield criterion The Drucker-Prager yielding criterion is used to simulate the behaviour of non-linear geo- materials.
The expression of yield criterion can be written as (1) The yielding surface is a hexagonal circumscribed cone of Mohr-coulomb yielding surface when the parameters of materials , is given, as shown in Fig. 2.
Journal of Liaoning Technical University(Natural Science), Vol. 27(2008), April, p. 184-187
Introduction The certain methods of abutment pressure obtains the measurements of the doformation of tunnel, the measurements of load of hydraulic support[1], similar materials simulation[2], numerical simulation[3-4], elasitc simiplied calculation[5], et al.
Fig. 1 Finite element model used for numerical computations The choice of yield criterion The Drucker-Prager yielding criterion is used to simulate the behaviour of non-linear geo- materials.
The expression of yield criterion can be written as (1) The yielding surface is a hexagonal circumscribed cone of Mohr-coulomb yielding surface when the parameters of materials , is given, as shown in Fig. 2.
Journal of Liaoning Technical University(Natural Science), Vol. 27(2008), April, p. 184-187
Online since: October 2013
Authors: Lin Jie Jiang, Shuang Bei Li, Chunm Mei Mo, Rong Qin
The advantages of both smart materials and the effective control of smart structure can be obtained by the hybrid actuators.
[2] Nguyen Q and Tong L: Materials and Design, Vol. 28(2007), p. 387-399
[6] Lin J.C. and Nien M.H: Journal of Materials Processing Technology Vol. 189(2007), p. 231-236
[8] Xueren Zhang, Jingxu Nie and Yanliang Du: Journal of Composite Materials,Vol.16 (1999), p.147-151, in Chinese
[9] Jun Wang, Zhengneng Li and Junbing Wang: Journal of Composite Materials, Vol. 21(2004), p. 142-146, in Chinese
[2] Nguyen Q and Tong L: Materials and Design, Vol. 28(2007), p. 387-399
[6] Lin J.C. and Nien M.H: Journal of Materials Processing Technology Vol. 189(2007), p. 231-236
[8] Xueren Zhang, Jingxu Nie and Yanliang Du: Journal of Composite Materials,Vol.16 (1999), p.147-151, in Chinese
[9] Jun Wang, Zhengneng Li and Junbing Wang: Journal of Composite Materials, Vol. 21(2004), p. 142-146, in Chinese
Online since: March 2012
Authors: Feng Chun Wei, You Zhou Jiao, Xiu Li Zhang
Introduction
Fiber reinforced composite materials (FRP) were made by using hard fibers for soft reinforcing plastic resin matrices.
The interface between glass fibers and matrix materials in this paper is weakly connected; the interface bonding strength is low.
Beaumont, Micro-mechanical theory of macroscopic stress-corrosion cracking in unidirectional GFRP, Journal of Materials Science.2006(41), 4604-4610, DOI: 10.1007/s10853-006-0328-9 [5] H.
Beaumont, Micromechanically derived lowest threshold stress intensity factor for macroscopic stress-corrosion cracking in unidirectional GFRP composites, Journal of Materials Science. 2010(45):5988–5992, DOI 10.1007/s10853-010-4802-z [6] Xiuli Zhang,Changhong Jin,Zhenguo Zhang, Study on incision of glass fiber-reinforced composites (in Chinese), Journal of Functional Materials. 2010(3):505-507 [7] Xiuli Zhang,Chaohui Xie,Heng Zhang, An experimental investigation into the machining quality of composites influenced by fiber orientation (in Chinese), China Mechanical Engineering. 2009,20(21):2617-2620 [8] Xiuli Zhang,Liang Yan, Hongmei He, Study on the orthogonal cutting technologies of GFRP (in Chinese), Materials Review. 2011,25(5):59-61
[9] Xiuli Zhang,Zhenguo Zhang,Fengchun Wei, Study on milling of glass fiber-reinforced composites (in Chinese), Materials Review. 2009,23(4):84-87 [10] Zhifang Yang, Xiuli Zhang,Heng Zhang, Experiment study of drilling thick composite laminates (in Chinese), Journal of Henan University of Science and Technology Natural Science. 2008(1):1-5 [11] Lijun He,Guozhi Lv, Analysis of partly bridge-toughening in fiber-reinforced composites (in Chinese), Ningxia Engineering Technology. 2002,1(3):208-211
The interface between glass fibers and matrix materials in this paper is weakly connected; the interface bonding strength is low.
Beaumont, Micro-mechanical theory of macroscopic stress-corrosion cracking in unidirectional GFRP, Journal of Materials Science.2006(41), 4604-4610, DOI: 10.1007/s10853-006-0328-9 [5] H.
Beaumont, Micromechanically derived lowest threshold stress intensity factor for macroscopic stress-corrosion cracking in unidirectional GFRP composites, Journal of Materials Science. 2010(45):5988–5992, DOI 10.1007/s10853-010-4802-z [6] Xiuli Zhang,Changhong Jin,Zhenguo Zhang, Study on incision of glass fiber-reinforced composites (in Chinese), Journal of Functional Materials. 2010(3):505-507 [7] Xiuli Zhang,Chaohui Xie,Heng Zhang, An experimental investigation into the machining quality of composites influenced by fiber orientation (in Chinese), China Mechanical Engineering. 2009,20(21):2617-2620 [8] Xiuli Zhang,Liang Yan, Hongmei He, Study on the orthogonal cutting technologies of GFRP (in Chinese), Materials Review. 2011,25(5):59-61
[9] Xiuli Zhang,Zhenguo Zhang,Fengchun Wei, Study on milling of glass fiber-reinforced composites (in Chinese), Materials Review. 2009,23(4):84-87 [10] Zhifang Yang, Xiuli Zhang,Heng Zhang, Experiment study of drilling thick composite laminates (in Chinese), Journal of Henan University of Science and Technology Natural Science. 2008(1):1-5 [11] Lijun He,Guozhi Lv, Analysis of partly bridge-toughening in fiber-reinforced composites (in Chinese), Ningxia Engineering Technology. 2002,1(3):208-211
Online since: March 2013
Authors: C. Guo, Zhen Dong Dai, Zhi Xian Yang, Ze Hua Liu
Nano indentation techniques are convenient to study the biological materials.
Some questions are wandering in our minds like as ‘Can we learn from this to produce bio-inspired materials?
The mechanical properties of these raw materials are common.
Bolshakov: Journal of Materials Research Vol. 17 (2002), p.2660 [24] I.N.
Guo: Chinese Science Bulletin Vol. 55(2010), p.771
Some questions are wandering in our minds like as ‘Can we learn from this to produce bio-inspired materials?
The mechanical properties of these raw materials are common.
Bolshakov: Journal of Materials Research Vol. 17 (2002), p.2660 [24] I.N.
Guo: Chinese Science Bulletin Vol. 55(2010), p.771