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Online since: May 2011
Authors: Jia Hui Peng, Chen Yang Zou, Leng Bai, Mei Li, Xian Feng Liu
College of Materials Science and Engineering, Chongqing University, Chongqing 400045, China
2.
It is fine cementing material and widely applied in ceramics, precision manufacturing, aviation, art of building, industrial arts and so on as mold[1-5].
InterCeram: International Ceramic Review, Vol.58, pp.1-4(2009)
Journal of Thermal Analysis and Calorimetry, Vol.101, pp.119-127(2010)
Journal of Shenyang Jianzhu University (Natural Science), Vol.25, pp. 521-525 (2009).
It is fine cementing material and widely applied in ceramics, precision manufacturing, aviation, art of building, industrial arts and so on as mold[1-5].
InterCeram: International Ceramic Review, Vol.58, pp.1-4(2009)
Journal of Thermal Analysis and Calorimetry, Vol.101, pp.119-127(2010)
Journal of Shenyang Jianzhu University (Natural Science), Vol.25, pp. 521-525 (2009).
Online since: February 2014
Authors: Ke Sheng Wang, Yi Yong Yang, Lin Hong Ji, Xing Kuo Wang, Jia Cheng, Yu Chun Sun, Ming Lu Cao, Chuan Kun Han
Modeling of Electrostatic Chuck and Simulation of Electrostatic Force
Xingkuo Wang1,a, Jia Cheng2,b, Kesheng Wang2,3,c, Yiyong Yang1,d,
Yuchun Sun2,e, Minglu Cao2,f, Chuankun Han1,g and Linhong Ji2,h
1School of Engineering and Technology, China University of Geosciences (Beijing), Beijing 100083;
2Department of Mechanical Engineering, Tsinghua University, Beijing 100084;
3Department of Mechanical Engineering, Academy of Armored Force Engineering of PLA, Beijing 100072
axingkuowang@163.com, bchengjia@tsinghua.edu.cn, cwks11@mails.tsinghua.edu.cn, dyangyy@cugb.edu.cn, esunyc05@mails.tsinghua.edu.cn, fmarrilu@163.com, ghan02308209@126.com, hjilh@tsinghua.edu.cn
Keywords: Electrostatic Chuck (ESC), Electrostatic Force, COMSOL, Modeling, Simulation.
Journal of Vacuum Science & Technology B, 1995, 13(4): 1910-1916
Journal of Materials Science, 1994, 29(13): 3510-3516
Proceedings of the International Conference on Electrical Machines and Systems, 2007, 1371-1375
Electrostatic chuck with a thin ceramic insulation layer for wafer holding[C].
Journal of Vacuum Science & Technology B, 1995, 13(4): 1910-1916
Journal of Materials Science, 1994, 29(13): 3510-3516
Proceedings of the International Conference on Electrical Machines and Systems, 2007, 1371-1375
Electrostatic chuck with a thin ceramic insulation layer for wafer holding[C].
Online since: January 2009
Authors: De Hua Deng, Jing Liu, Ming Yin, Xu Li Hu
Over the last nearly 20 years, high performance concrete (HPC) has been widely used in
marine construction engineering.
Ocean Engineering, 2004, 31: 779-789
Journal of the Chinese Ceramic Society, 2004, 32: 1345-1361
Journal of Architecture and Civil Engineering, 2006, 23: 19-20
Materials Journal of the Chinese Ceramic Society, 2006, 5: 44-46
Ocean Engineering, 2004, 31: 779-789
Journal of the Chinese Ceramic Society, 2004, 32: 1345-1361
Journal of Architecture and Civil Engineering, 2006, 23: 19-20
Materials Journal of the Chinese Ceramic Society, 2006, 5: 44-46
Online since: March 2014
Authors: Muhammad Farid, Zhao Gang, Tran Linh Khuong, Zhuang Zhi Sun
Grasshopper knee joint - Torque Analysis of actuators using Ionic Polymer Metal Composites (IPMC)
Muhammad Farid1a*, Zhao Gang1, b, Tran Linh Khuong1, c, Zhuang-ZHI Sun1, d
1Muhammad Farid, Department of Mechanical and electrical Engineering, Harbin Engineering University, Harbin 150001, Heilongjiang, PR China
amuhammadfarid1978@gmail.com, bzhaogang@hrbeu.edu.cn, clinhkhuongktq@gmail.com, dsunzhuangzhi@hrbeu.edu.cn
Keywords: Ionic Polymer Metal Composites, Biomimetic, Torque, Transcendental mechanics
Abstract
Biomimetic is the field of engineering which involves analyzing the biological beings and incorporating their designs and systems for manufacturing mechanical systems.
Introduction Biomimetic is the study of the composition and function of natural systems to provide basic concepts for the engineering design of materials and machines.
In this sense, they are large deflection actuators operating under low voltage compared with other actuators such as piezo-ceramics or Shape Memory Alloys (SMA).
References [1] Information on www.whatis.techtarget.com/definition/biomimetics [2] Akle Barber et al; Design and development of Bio-inspired Underwater jellyfish Robot using Ionic polymer metal composites (IPMC) Actuators, Electroactive Polymers actuators and devices, 79 (2011), 11- [3] Viljar Palmere et al; An IPMC-enabled bio-inspired bending/twisting fin for underwater applications, Smart material and Structures, 22 (2011), 12- [4] Jaewook Ryu et al; A ciliary motion based 8-legged walking micro-robot using cast IPMC actuators, International Symposium on micro-mechatronics and human science, 78 (2002), [5] Nguyen Q et al; Characteristics of a beetle’s free flight and a flapping-wing system that mimics beetle flight, Journal of Bionic Engineering, 7 (2010), 77–86
Salehi, Dynamic Modeling of Tow Flexible Link, World Academy of Science, Engineering and Technology, 22 [2008]
Introduction Biomimetic is the study of the composition and function of natural systems to provide basic concepts for the engineering design of materials and machines.
In this sense, they are large deflection actuators operating under low voltage compared with other actuators such as piezo-ceramics or Shape Memory Alloys (SMA).
References [1] Information on www.whatis.techtarget.com/definition/biomimetics [2] Akle Barber et al; Design and development of Bio-inspired Underwater jellyfish Robot using Ionic polymer metal composites (IPMC) Actuators, Electroactive Polymers actuators and devices, 79 (2011), 11- [3] Viljar Palmere et al; An IPMC-enabled bio-inspired bending/twisting fin for underwater applications, Smart material and Structures, 22 (2011), 12- [4] Jaewook Ryu et al; A ciliary motion based 8-legged walking micro-robot using cast IPMC actuators, International Symposium on micro-mechatronics and human science, 78 (2002), [5] Nguyen Q et al; Characteristics of a beetle’s free flight and a flapping-wing system that mimics beetle flight, Journal of Bionic Engineering, 7 (2010), 77–86
Salehi, Dynamic Modeling of Tow Flexible Link, World Academy of Science, Engineering and Technology, 22 [2008]
Online since: August 2021
Authors: Eduard S. Klimov, Volodymyr V. Kukhar, Oleksandr S. Anishchenko
Prüß, Potentials of ceramic die materials for isothermal forging purposes of a titanium alloy, Key Engineering Materials. 611-612 (2014) 202-211
Shchipkovskyi, The development of the method for the calculation of the shaping force in the production of vehicle wheel rims, International Journal of Engineering & Technology (UAE). 7(4.3) (2018) 30-34
Andryushchenko, Rotary flaring of faceted flairs on pipe blanks, Soviet Engineering Research. 11(5) (1991) 95-97
Dragobetskii, Improvement of the method for calculation the metal temperature loss on a coilbox unit at the rolling on hot strip mills, International Journal of Engineering & Technology (UAE). 7(4.3) (2018) 35-39
Dragnea, Numerical simulation of plastic deformation processes from cast iron parts, Academic Journal of Manufacturing Engineering. 12(2) (2014) 29-36
Shchipkovskyi, The development of the method for the calculation of the shaping force in the production of vehicle wheel rims, International Journal of Engineering & Technology (UAE). 7(4.3) (2018) 30-34
Andryushchenko, Rotary flaring of faceted flairs on pipe blanks, Soviet Engineering Research. 11(5) (1991) 95-97
Dragobetskii, Improvement of the method for calculation the metal temperature loss on a coilbox unit at the rolling on hot strip mills, International Journal of Engineering & Technology (UAE). 7(4.3) (2018) 35-39
Dragnea, Numerical simulation of plastic deformation processes from cast iron parts, Academic Journal of Manufacturing Engineering. 12(2) (2014) 29-36
Online since: February 2015
Authors: Khairur Rijal Jamaludin, Sufizar Ahmad, N.I. Mad Rosip, Fazimah Mat Noor
Ahmad1, d
1UTM Razak School of Engineering & Advanced Technology,
Universiti Teknologi Malaysia Kuala Lumpur, 54100 Jalan Semarak, Kuala Lumpur, Malaysia
2 Faculty of Mechanical & Manufacturing Engineering,
Universiti Tun Hussein Onn Malaysia (UTHM), 86400 Parit Raja, Batu Pahat, Johor, Malaysia
afazimah@uthm.edu.my, bnooridayu.mr@gmail.com, ckhairur.kl@utm.my, dsufizar@uthm.edu.my
Keywords: Stainless Steel Foam, Foam Replication Method.
Upadhyaya, Sintered Metallic and Ceramic Materials: Preparation, Properties and Applications.
Nor, “Development and Characterization of Titanium Alloy Foams.,” International Journal of Mechanical and Materials Engineering (IJMME), Vol. 5, No.2, 244-250, 2010
Upadhyaya, Sintered Metallic and Ceramic Materials: Preparation, Properties and Applications.
Nor, “Development and Characterization of Titanium Alloy Foams.,” International Journal of Mechanical and Materials Engineering (IJMME), Vol. 5, No.2, 244-250, 2010
Online since: October 2014
Authors: Feng Jiao, Ying Niu, Jie Li, Jia Fei Zhang
Study on the Effect of Vibration Amplitude in Two-dimension
Ultrasonic Vibration Cutting
Ying NIU1, a, Feng JIAO 1, b,*, Jie LI1, Jia-fei ZHANG1
1School of Mechanical and Power Engineering, Henan Polytechnic University, Henan, China.
China Mechanical Engineering, Vol. 16 (2005), p. 1983-1990
International Journal of Machine Tools and Manufacture, Vol. 44 (2004), p. 1305-1310
Kuppattan: Micro Removal of Ceramic Material (Al2O3) in the Precision Ultrasonic Machining.
Precision Engineering, Vol. 23 (1999), p. 73-78.
China Mechanical Engineering, Vol. 16 (2005), p. 1983-1990
International Journal of Machine Tools and Manufacture, Vol. 44 (2004), p. 1305-1310
Kuppattan: Micro Removal of Ceramic Material (Al2O3) in the Precision Ultrasonic Machining.
Precision Engineering, Vol. 23 (1999), p. 73-78.
Online since: October 2010
Authors: Qin He Zhang, Yu Jie Zhu, Xiu Zhuo Fu, Guang Hua Bao
International Journal of Machine Tools & Manufacture. 48, 446-458(2008)
[3] Kai Egashira, Akihiro Matsugasako, Hachiro Tsuchiya.
Precision Engineering. 30, 414-420(2006) [4] Yao-Yang Tsai, Takehisa Masuzawa.
Journal of Materials Processing Technology. 149,304-309(2004) [5] Hung Sung Liu, Biing Hwa Yan, Chien Liang Chen, Fuang Yuan Huang.
International Journal of Machine Tools & Manufacture. 46,80-87(2006) [6] Naotake Mohri, Hideki Takezawa, Katsushi Furutan, Yoshiro Ito.
International Journal of Machine Tools & Manufacture. 48, 446-458(2008)
Precision Engineering. 30, 414-420(2006) [4] Yao-Yang Tsai, Takehisa Masuzawa.
Journal of Materials Processing Technology. 149,304-309(2004) [5] Hung Sung Liu, Biing Hwa Yan, Chien Liang Chen, Fuang Yuan Huang.
International Journal of Machine Tools & Manufacture. 46,80-87(2006) [6] Naotake Mohri, Hideki Takezawa, Katsushi Furutan, Yoshiro Ito.
International Journal of Machine Tools & Manufacture. 48, 446-458(2008)
Online since: December 2023
Authors: Mohammed Manzoor Hussain, Pooja Angolkar
Rana, “Additive Manufacturing in Aerospace Application,” International Advanced Research Journal in Science, Engineering and Technology, vol. 8, no. 11, 2021, doi: 10.17148/IARJSET.2021.81118
Ahn, “Direct metal additive manufacturing processes and their sustainable applications for green technology: A review,” International Journal of Precision Engineering and Manufacturing - Green Technology, vol. 3, no. 4.
Korean Society for Precision Engineering, pp. 381–395, Oct. 01, 2016. doi: 10.1007/s40684-016-0048-9
Frazier, “Metal additive manufacturing: A review,” Journal of Materials Engineering and Performance, vol. 23, no. 6.
Ahn, “Direct metal additive manufacturing processes and their sustainable applications for green technology: A review,” International Journal of Precision Engineering and Manufacturing - Green Technology, vol. 3, no. 4.
Ahn, “Direct metal additive manufacturing processes and their sustainable applications for green technology: A review,” International Journal of Precision Engineering and Manufacturing - Green Technology, vol. 3, no. 4.
Korean Society for Precision Engineering, pp. 381–395, Oct. 01, 2016. doi: 10.1007/s40684-016-0048-9
Frazier, “Metal additive manufacturing: A review,” Journal of Materials Engineering and Performance, vol. 23, no. 6.
Ahn, “Direct metal additive manufacturing processes and their sustainable applications for green technology: A review,” International Journal of Precision Engineering and Manufacturing - Green Technology, vol. 3, no. 4.
Online since: August 2017
Authors: M. Mary Jaculine, D.J. Vidhya Raj, J. Ermine Jose, S. Jerome Das, K. Raja, L. Ansel Mely, P. Annie Vinosha
Jerome Das1*
1Department of Physics, Loyola College, Chennai, India - 600 034
2Department of Physics, Velammal Engineering College, Chennai, India - 600 066
3Department of Physics,Ramakrishna Mission Vivekananda College, Chennai, India - 600 004
4Department of Electrical and Electronics Engineering, Loyola –ICAM College of Engineering
and Technology, Chennai, India 600 034
*Corresponding Author: melyansel@gmail.com, jerome@loyolacollege.edu
Keywords: Tin mono-sulphide, hydrothermal, semiconductors, photovoltaic.
Nagaraju, Growth and photovoltaic performance of SnS quantum dots, Materials Science and Engineering: B 177 13 (2012) 1023-1028
[18] Yanbao Zhao, Zhijun Zhang, Hongxin Dang, Weimin Liu, Synthesis of tin sulfide nanoparticles by a modified solution dispersion method, Materials Science and Engineering: B 113 2 (2004) 175-178
Brownson, Zi-Feng Yan, Yan, Microwave-and conventional-hydrothermal synthesis of CuS, SnS and ZnS: optical properties, Ceramics International 39 5 (2013) 4757-4763
New Age International, 1991
Nagaraju, Growth and photovoltaic performance of SnS quantum dots, Materials Science and Engineering: B 177 13 (2012) 1023-1028
[18] Yanbao Zhao, Zhijun Zhang, Hongxin Dang, Weimin Liu, Synthesis of tin sulfide nanoparticles by a modified solution dispersion method, Materials Science and Engineering: B 113 2 (2004) 175-178
Brownson, Zi-Feng Yan, Yan, Microwave-and conventional-hydrothermal synthesis of CuS, SnS and ZnS: optical properties, Ceramics International 39 5 (2013) 4757-4763
New Age International, 1991