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Online since: March 2010
Authors: Shi Ming Ji, Li Zhang, Guo Da Chen, Ming Sheng Jin
Kawashima: Journal of Materials Processing Technology, Vols.
143-144 (2003), p. 682-686
[3] A.M.
Khatri: Journal of Materials Processing Technology, Vol. 190 (2007), p. 282-290 [4] M.
Komanduri: Journal of Manufacturing Science and Engineering , Vol. 119 (1997), p. 520-528 [5] S.H.
Yuan: Key Engineering Materials, Vols. 304-305 (2006), p. 113-117 [8] S.M.
Chen: Key Engineering Materials, Vol. 416 (2009), p. 583-587 [9] H.B.
Khatri: Journal of Materials Processing Technology, Vol. 190 (2007), p. 282-290 [4] M.
Komanduri: Journal of Manufacturing Science and Engineering , Vol. 119 (1997), p. 520-528 [5] S.H.
Yuan: Key Engineering Materials, Vols. 304-305 (2006), p. 113-117 [8] S.M.
Chen: Key Engineering Materials, Vol. 416 (2009), p. 583-587 [9] H.B.
Online since: January 2013
Authors: Zhi Xue Wu, Shu Ai Tian
For the given combination of materials, the three materials junction has stronger stress singularities (lower eigenvalues) on singular points and the strength of the bi-material junction is stronger than tri-material junction.
Comparing figure 6 and figure 8, it can be known that the stress functions in softer materials vary slower than in harder materials with increasing θ.
But for the displacements, shows in figure 7 and figure 9, values in softer materials vary much more rapidly than in harder materials.
All these performances are consistent with mechanical behavior of materials.
Munz, Y.Y.Yang: International Journal of Fracture Vol. 60(1993), p. 169-177
Comparing figure 6 and figure 8, it can be known that the stress functions in softer materials vary slower than in harder materials with increasing θ.
But for the displacements, shows in figure 7 and figure 9, values in softer materials vary much more rapidly than in harder materials.
All these performances are consistent with mechanical behavior of materials.
Munz, Y.Y.Yang: International Journal of Fracture Vol. 60(1993), p. 169-177
Online since: December 2018
Authors: Koorosh Gharehbaghi, Farshid Rahmani
The purpose of this mechanism is to produce materials, which are stronger, lighter, or less expensive when compared to traditional materials.
Conclusion The purpose of Composite materials is to produce materials, which are stronger, lighter, or less expensive when compared to traditional materials.
First, the composite materials (Geo-polymer) were utilized in conjunction with other traditional materials including Concrete and Steel.
[2] Gharehbaghi, K, and Chenery, R, (2017), "Fiber Reinforced Concrete (FRC) for High Rise Construction: Case Studies", IOP Conference Series: Materials Science and Engineering, Institute of Physics, United Kingdom, vol. 272, pp. 223-229
[14] Ramdasi Aditya and Tande, N, (2014), Lateral load analysis of High Rise Structures, International Journal of Engineering Science and Technology, Vol 6, Issue 6, p 268-275
Conclusion The purpose of Composite materials is to produce materials, which are stronger, lighter, or less expensive when compared to traditional materials.
First, the composite materials (Geo-polymer) were utilized in conjunction with other traditional materials including Concrete and Steel.
[2] Gharehbaghi, K, and Chenery, R, (2017), "Fiber Reinforced Concrete (FRC) for High Rise Construction: Case Studies", IOP Conference Series: Materials Science and Engineering, Institute of Physics, United Kingdom, vol. 272, pp. 223-229
[14] Ramdasi Aditya and Tande, N, (2014), Lateral load analysis of High Rise Structures, International Journal of Engineering Science and Technology, Vol 6, Issue 6, p 268-275
Online since: January 2012
Authors: Wan Qing Li, Zhe Zhao, Ling Yu Meng
Approach for Setting Project Buffer with Engineering Materials Based on the Theory of Unascertained Rational Number
Wanqing Li1, Zhe Zhao 1 Lingyu Meng 2
1 Hebei University of Engineering. 056038,Handan,China
2 Hebei University of Engineering. 056038,Handan,China
yiyayiyo@yahoo.com.cn
Key words: CCM; unascertained rational numbers; buffer size,Engineering materials
Abstract.
Journal of Industrial Engineering and Engineering Management. 72--75 (2002) [4] Mi-yuan Shan, Ying Long: An approach for improving buffer of critical chain management and its application.
Science Press.
Journal of Jiangsu University of Science and Technology(Natural Science Edition). 75--78 (2009) [7] Wan-qing Li, Wen-qing Meng, technology of engineering network design.
Science Press.
Journal of Industrial Engineering and Engineering Management. 72--75 (2002) [4] Mi-yuan Shan, Ying Long: An approach for improving buffer of critical chain management and its application.
Science Press.
Journal of Jiangsu University of Science and Technology(Natural Science Edition). 75--78 (2009) [7] Wan-qing Li, Wen-qing Meng, technology of engineering network design.
Science Press.
Online since: November 2014
Authors: Zhi Gang Kong, Feng Min Shi
Nogita: Journal of Electronic Materials Vol. 37(2008), p.32
[3] C.M.
Nogita: Journal of Electronic Materials, Vol. 37(2012), p.51~60 [4] K.Nogita, C.M.
Gourlay: Materials Transactions, Vol. 49(2008), p.443 [5] H.L.
Zavalij: Journal of Electronic Materials Vol. 30(2001), p.1157 [8] S.H.
Nishimura: Materials Transactions Vol. 46(2005), p.2419 [13] K.
Nogita: Journal of Electronic Materials, Vol. 37(2012), p.51~60 [4] K.Nogita, C.M.
Gourlay: Materials Transactions, Vol. 49(2008), p.443 [5] H.L.
Zavalij: Journal of Electronic Materials Vol. 30(2001), p.1157 [8] S.H.
Nishimura: Materials Transactions Vol. 46(2005), p.2419 [13] K.
Online since: May 2012
Authors: Malik Ahmed, M. Mushtaq Tariq
This paper explains software development to test different materials in design of a multicell beam.
Two sample materials from each group are defined, thus there are total 20 materials pre-defined in 3CSS-3 software.
The software can analyze not only isotropic materials, but also quasi-isotropic composite materials provided equivalent elastic constants are provided.
Development and use of this software provides an easy to use tool, for quick check of proposed materials, loadings and design in three cell beams composed of isotropic materials.
Callister, Jr: Materials science and engineering An introduction, John Wiley and Sons, Inc.
Two sample materials from each group are defined, thus there are total 20 materials pre-defined in 3CSS-3 software.
The software can analyze not only isotropic materials, but also quasi-isotropic composite materials provided equivalent elastic constants are provided.
Development and use of this software provides an easy to use tool, for quick check of proposed materials, loadings and design in three cell beams composed of isotropic materials.
Callister, Jr: Materials science and engineering An introduction, John Wiley and Sons, Inc.
Online since: October 2014
Authors: Tian Shu Song, Ahmed Hassan
Introduction
Piezoelectric materials are important smart materials that utilized widely in modern science technology.
The piezoelectric bi-materials' conjunction are shown in Fig. 2.The two semi-infinite media are separated at Y=0.
International Journal of Solids and Structures, 38 (5) (2000) 815-831
Loboda: Electrically permeable crack with contact zones between two piezoelectric materials.
International Journal of Solids and Structures, 45 (16) (2008) 4590-4599
The piezoelectric bi-materials' conjunction are shown in Fig. 2.The two semi-infinite media are separated at Y=0.
International Journal of Solids and Structures, 38 (5) (2000) 815-831
Loboda: Electrically permeable crack with contact zones between two piezoelectric materials.
International Journal of Solids and Structures, 45 (16) (2008) 4590-4599
Online since: September 2011
Authors: Yun Shan Wang, Jian Bo Lei, Zhen Wang
Through the experimental results, we concluded that the different welding quality of different materials and absorbing agent, and analyzed its material characteristic reasons.
The absorption can be adjusted by different filler materials or filler agents.
Kontopoulou: Journal of Thermoplastic Composite Materials.
Katsiropoulos: Journal of Composite Materials.
Zak: Journal of Heat Transfer.
The absorption can be adjusted by different filler materials or filler agents.
Kontopoulou: Journal of Thermoplastic Composite Materials.
Katsiropoulos: Journal of Composite Materials.
Zak: Journal of Heat Transfer.
Online since: December 2012
Authors: Sriharsha Sripathi, Anantha Padmanabhan
Schlipf: Materials Science and Technology Vol. 12 (1996), p. 391
[3] K.
Gleiter: Materials Science and Engineering A Vol. 381 (2004), p. 28 [4] N.
Little: Journal of Materials Science Vol. 25 (1990), p. 753 [5] Y.
Nagano: Journal of Materials Science Vol. 26 (1991), p. 241 [8] T.
Schlipf: Materials Science and Technology Vol. 12 (1996), p. 635 [9] K.
Gleiter: Materials Science and Engineering A Vol. 381 (2004), p. 28 [4] N.
Little: Journal of Materials Science Vol. 25 (1990), p. 753 [5] Y.
Nagano: Journal of Materials Science Vol. 26 (1991), p. 241 [8] T.
Schlipf: Materials Science and Technology Vol. 12 (1996), p. 635 [9] K.
Online since: January 2013
Authors: Ying Xiang Jiang, Gui Zhen Li, Zhi Lin Li
According to materials physical and chemical properties, the paper expounded materials choice of rotating seal joint parts.
The materials of rotating sealing face are usually chosen by physical properties and chemical erosion resistance of materials.
Guangxi Journal of Light Industry.11(2009), P.91-92
Pressure piping code―Industrial piping part 2: materials[S]
Journal of Iron and Steel Research.
The materials of rotating sealing face are usually chosen by physical properties and chemical erosion resistance of materials.
Guangxi Journal of Light Industry.11(2009), P.91-92
Pressure piping code―Industrial piping part 2: materials[S]
Journal of Iron and Steel Research.