Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: August 2013
Authors: Aishah Najiah Dahnel, Stuart Barnes, Pipat Bhudwannachai
Machining Composite Materials.
Mechanics of Composite Materials. 2nd ed.
Journal of Material Pocessing Technology, Volume 186, pp. 1-7
Composites Science and Technology, Volume 65, pp. 1139-1147
Journal of Materials Processing Technology, Volume 104, pp. 53-58.
Mechanics of Composite Materials. 2nd ed.
Journal of Material Pocessing Technology, Volume 186, pp. 1-7
Composites Science and Technology, Volume 65, pp. 1139-1147
Journal of Materials Processing Technology, Volume 104, pp. 53-58.
Online since: February 2011
Authors: Jian Xin Deng, Xing Ai, Jun Zhao, Pei Yan, Zhen Chen, Yun Song Lian
Originally, simple binary materials such as TiN, CrN, and TiC were used for these applications[[] Raymond Constantin, Baham Miremad: Surface and Coatings Technology.
Recently, more complicated materials were being studied and used, such as multi-layer coatings and ternary materials including Ti(C,N), TiAlN, TiZrN and TiCrN, with higher hardness and better corrosion resistance than TiN film[[] D.
, [] Huang Jiamu, Xu Chengjun, Wang Yaping: Journal of Materials Science & Engineering.
Devia: Microelectronics Journal.
Raju: Materials Letters.
Recently, more complicated materials were being studied and used, such as multi-layer coatings and ternary materials including Ti(C,N), TiAlN, TiZrN and TiCrN, with higher hardness and better corrosion resistance than TiN film[[] D.
, [] Huang Jiamu, Xu Chengjun, Wang Yaping: Journal of Materials Science & Engineering.
Devia: Microelectronics Journal.
Raju: Materials Letters.
Online since: July 2012
Authors: Ai Guo Wang, Jia Li Sun, Min Deng, Zuo Qiao Liang, Dao Sheng Sun
The relationship between gel content
and drying shrinkage
Jiali Sun1,a, Daosheng Sun1,2,b*,Aiguo Wang2,c,
Min Deng1,d, Zuoqiao Liang2
1 College of Materials Science and Engineering, Nanjing University of Technology, Nanjing, 210009, CHINA
2 Anhui key laboratory of advanced building materials, Anhui University of Archicture, Hefei, 230022, CHINA
asuntanley@163.com, b*sundaosheng@163.com, cnjut0205@hotmail.com, ddengmin1965@163.com
Keywords: blended cement; slag; drying shrinkage; gel content
Abstract.
Materials and methods A.
Materials.
", Journal of the AmericanCeramic Society, 70 (1987), pp.323-328
[6] Shuguang Hu, Jian Geng, Linnu Lu, and Qingjun Ding, “Semi-Quantitative Analysis of C-S-H Gel by Modified Water Absorption Method”, Jianzhu Cailiao Xuebao/Journal of Building Materials, 9 (2006), pp.633-37.
Materials and methods A.
Materials.
", Journal of the AmericanCeramic Society, 70 (1987), pp.323-328
[6] Shuguang Hu, Jian Geng, Linnu Lu, and Qingjun Ding, “Semi-Quantitative Analysis of C-S-H Gel by Modified Water Absorption Method”, Jianzhu Cailiao Xuebao/Journal of Building Materials, 9 (2006), pp.633-37.
Online since: May 2013
Authors: Zhen Ya Duan, Rong Li
Due to a variety of factors, such as the materials, the modes, the geometric characteristics of the structure, the equipment quality distribution and the foundation type, the damping ratio of the tower equipment is very difficult to predict at the design stage.
Material damping.
Fig. 1 β/α for cylinders of various thickness ratios and different damping constants, n Table 2 Values for J and n of different materials Material Mild steel 70/30 brass Aluminium Glass fiber reinforced plastics J 447×10-12 30.5×10-12 1221×10-12 4.2×10-12 n 2.15 2.52 2.10 2.90 Table 2 shows n=2.15, J=447×10-12.D/t=34.6, say 30.
Acknowledgment This research work was partly supported by Shandong Natural Science Foundation of China (Grant Number: ZR2009BL022), Science and Technology Planning Project of Shandong Provincial Education Department (Grant Number: J11LD18).
Zhang: Journal of Vibration and Shock Vol. 2 (1982), p. 12 (in Chinese) [9] C.M.
Material damping.
Fig. 1 β/α for cylinders of various thickness ratios and different damping constants, n Table 2 Values for J and n of different materials Material Mild steel 70/30 brass Aluminium Glass fiber reinforced plastics J 447×10-12 30.5×10-12 1221×10-12 4.2×10-12 n 2.15 2.52 2.10 2.90 Table 2 shows n=2.15, J=447×10-12.D/t=34.6, say 30.
Acknowledgment This research work was partly supported by Shandong Natural Science Foundation of China (Grant Number: ZR2009BL022), Science and Technology Planning Project of Shandong Provincial Education Department (Grant Number: J11LD18).
Zhang: Journal of Vibration and Shock Vol. 2 (1982), p. 12 (in Chinese) [9] C.M.
Online since: June 2014
Authors: Federico Castañeda, Ivan R. Terol-Villalobos, Carlos A. Paredes-Orta, Federico Manriquez-Guerrero, Julieta Torres-González
Herrera-Ruiz: Journal of Materials Processing Technology Vol. 210 (2010), p. 335
[3] N.
Vratko: Materials Science and Engineering A Vol. 502, (2009) p. 54 [4] T.
Moenes: Materials Science and Engineering A Vol 504 (2009), p. 81 [6] A.D.
Sikora.: Journal of Materials Processing Technology Vol. 209 (2009), p. 5545 [7] R.C.
Reed: Materials Science and Engineering A Vol. 374 (2007), p. 445 [9] P.
Vratko: Materials Science and Engineering A Vol. 502, (2009) p. 54 [4] T.
Moenes: Materials Science and Engineering A Vol 504 (2009), p. 81 [6] A.D.
Sikora.: Journal of Materials Processing Technology Vol. 209 (2009), p. 5545 [7] R.C.
Reed: Materials Science and Engineering A Vol. 374 (2007), p. 445 [9] P.
Online since: June 2013
Authors: Xuan Guo Xu, Xiao Fei Li, Yun Fei Wang
The common features of the project are: 1. automation demand is not high; 2. various types of workforce to participate; 3.work processes are similar: pro-preparation (field, materials, personnel, construction tools, detailed program) → materials transport → material lifting → Installation (general installation, special installation, installation modification) → check → acceptance; 4: single-piece production mode.
Journal of Management Sciences in China.
Soft Science.
International Journal of Computer Science Issues.
Journal of Wuhan University of Technology.
Journal of Management Sciences in China.
Soft Science.
International Journal of Computer Science Issues.
Journal of Wuhan University of Technology.
Online since: November 2014
Authors: Indra Putra Almanar, Zuhailawati Hussain, Wan Abdul Rahman Assyahid Wan Ibrahim, Nurulhuda Bashirom, Wan Mohd Hilmi Hussein Wan Omar
Materials Science & Engineering A. 527 (2010) 4897–4905
Materials Science and Engineering A, 505 (2009), 27–30
Journal of Materials Processing Technology 209 (2009), 5601–5605 [7] G.V.
Materials and Design, 32 (2011), 3293-3298
Materials and Design, 58 (2014), 168–174
Materials Science and Engineering A, 505 (2009), 27–30
Journal of Materials Processing Technology 209 (2009), 5601–5605 [7] G.V.
Materials and Design, 32 (2011), 3293-3298
Materials and Design, 58 (2014), 168–174
Online since: February 2013
Authors: Chao Li Ma, Xiao Ning Hao, Li Rong Hao, Han Yang, Rui Xiao Zheng
Microstructure and Mechanical Properties of a Multi-modal Al Alloy with High Strength
Xiaoning Hao1,a, Ruixiao Zheng1,b, Lirong Hao2,c, Han Yang1,d and Chaoli Ma1,e
1Key Laboratory of Aerospace Advanced Materials and Performance of Ministry of Education, School of Materials Science and Engineering, BeiHang University, Xue Yuan Road No.37,HaiDian District, Beijing 100191, China
3Hebei Sitong New Metal Material co., Ltd, Baoding Hebei 071100, China
ahaoxiaoning369@yahoo.cn, bzhengrx1987@163.com, cchaolirong85885@sina.com,dyanghan881125@yahoo.com.cn, eclma2001@gmail.com
Keywords: Al alloy, High energy ball milling, Multi-modal, Nanocrystalline.
Besides grain size strengthening, improvement in mechanical strength in such materials can also be achieved by the incorporation of reinforcement particles into the material matrix [3].
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science. 46 (2001) 181-184
Wang, Structural change of rapidly solidified 2024 aluminium alloy powders in mechanical milling and subsequent consolidation process, Journal of Materials Processing Technology. 58 (1996) 247-250
Lavernia, Spark plasma sintering of a nanocrystalline Al-Cu-Mg-Ni-Sc alloy, Metallurgical and materials transactions A. 19 (2005) 1343-1353.
Besides grain size strengthening, improvement in mechanical strength in such materials can also be achieved by the incorporation of reinforcement particles into the material matrix [3].
Suryanarayana, Mechanical alloying and milling, Progress in Materials Science. 46 (2001) 181-184
Wang, Structural change of rapidly solidified 2024 aluminium alloy powders in mechanical milling and subsequent consolidation process, Journal of Materials Processing Technology. 58 (1996) 247-250
Lavernia, Spark plasma sintering of a nanocrystalline Al-Cu-Mg-Ni-Sc alloy, Metallurgical and materials transactions A. 19 (2005) 1343-1353.
Online since: July 2013
Authors: Jian Li Yu, Rui Fang Zhou
Conclusions
Many varieties and small batch production are common production mode of modern enterprises.This production mode need frequently change raw materials,adjust machine setting and collecting data automatically,ect.It leads to highly autocorrelation process output.
[2] Dehui Wu: Journal of system simulation,2007,3:98-104,In Chinese
[8] Weihan Wan: Journal of sysytem simulation, 2001,13(S1):152-155,In Chinese
[9] Janli Yu, Zongwei Zhang: Journal of southeast university(Natural science edition, 2009, 39 (Sup):1-5,In Chinese. [10] [11] Corzo G., Solomatine D: Hydrological Sciences Journal/Journal des Sciences Hydrologiques, 2007, 52(3):491-507 [12] Jain A, Kumar A.
M.: Applied Soft Computing Journal, 2007, 7(2):585-592
[2] Dehui Wu: Journal of system simulation,2007,3:98-104,In Chinese
[8] Weihan Wan: Journal of sysytem simulation, 2001,13(S1):152-155,In Chinese
[9] Janli Yu, Zongwei Zhang: Journal of southeast university(Natural science edition, 2009, 39 (Sup):1-5,In Chinese. [10] [11] Corzo G., Solomatine D: Hydrological Sciences Journal/Journal des Sciences Hydrologiques, 2007, 52(3):491-507 [12] Jain A, Kumar A.
M.: Applied Soft Computing Journal, 2007, 7(2):585-592
Online since: December 2013
Authors: Gen Ge, Jia Xu
Introduction
Shape Memory Alloy (SMA) is a kind of smart materials and applied in engineering field widely.
Acknowledgements This work was supported by the National Natural Science Foundation of China (Grant No. 11272229) and Science Foundation of Tianjin education committee (Grant No.20120902) References [1] J.G.Boyd, D.C.Lagoudas: International Journal of P1asticity Vol. 12 (1996), pp. 805-873
[2] E.J.Graesser, F.A.Cozzarelli: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), pp. 78-89 [3] F.Auricchio, J.Lubliner: International Journal of Solids and Structures Vol. 34 (1997), pp. 3601-3618 [4] Z W Zhu, J Wang and J Xu: Applied Mechanics and Materials.
Acknowledgements This work was supported by the National Natural Science Foundation of China (Grant No. 11272229) and Science Foundation of Tianjin education committee (Grant No.20120902) References [1] J.G.Boyd, D.C.Lagoudas: International Journal of P1asticity Vol. 12 (1996), pp. 805-873
[2] E.J.Graesser, F.A.Cozzarelli: Journal of Intelligent Material Systems and Structures Vol. 5 (1994), pp. 78-89 [3] F.Auricchio, J.Lubliner: International Journal of Solids and Structures Vol. 34 (1997), pp. 3601-3618 [4] Z W Zhu, J Wang and J Xu: Applied Mechanics and Materials.