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Online since: October 2015
Authors: Jiří Vala, Stanislav Šťastník, František Šot
Zmeškal, Temperature dependence of thermal parameters of building materials.
Vala, Identification of thermal conductivity of powdery insulation materials.
Advanced Materials Research 2 (2014) 333–339
Geers, Non-local modeling of thermal shock damage in refractory materials.
Materials Science and Engineering A 558 (2012) 21–29
Vala, Identification of thermal conductivity of powdery insulation materials.
Advanced Materials Research 2 (2014) 333–339
Geers, Non-local modeling of thermal shock damage in refractory materials.
Materials Science and Engineering A 558 (2012) 21–29
Online since: December 2012
Authors: Yan Hong Jia, Chang E Dou, Hong Quan Xie
Among them, Peripheral features information including the shelter of the surrounding relief materials, Such as medicine, food, water and generator and important features of the distribution and radiation range, such as hospital, supermarket, etc.; emergency shelter is the fastest route to the shelter the optimal route, victims to an emergency evacuation and relief supplies to provide decision-making basis for fast.
Supply of Relief Materials Management.
Using GIS technology and database technology, to realize the information management of disaster relief materials, including to material classification, quantity, manufacturers, use period, the information such as the loading and unloading of the database entry, organization and query; at the same time, it can check the corresponding materials in saturated and early warning and emergency allocation shortage.
For earthquake emergency shelter of construction, as the people's livelihood engineering important content, need to human, material and financial resources and the support of all departments at all levels of coordination, only leadership attention, can the concrete construction work to implement action, coordination, clear responsibility, do all departments in the effective interaction to solve practical problems encountered in the construction.
References [1] Tailuan Mao, Huicheng Yu, Jinsheng Hu:Journal of Geology Vol.33(2009),P.263(In Chinese) [2] Wei Zhao, Lin Zhou, Wei Li:Journal of Hebei Polytechnic University (Natural Science Edition) Vol.33(2011),P.117(In Chinese) [3] Jianhong Wu, Wenguo Weng:Journal of Tsinghua University(Science and Technology) Vol.51(2011),P.632(In Chinese) [4] Zhiguo Yang, Kang Jiang, Xiangkai Zou:Journal of Safety Science and Technology Vol.7(2011),P.52(In Chinese) [5] Tong Jiang, Kening Zhu, Xiaoxing Song:Technology for Earthquake Disaster Prevention Vol.2(2007),P.305(In Chinese) [6] Pei Mao, Weixuan Song:City and Disaster Reduction (2009) ,P.29(In Chinese) [7] Shuzhi Lin, Jiannan Huang:Fujian Architecture & Construction (2008),P.69(In Chinese)
Supply of Relief Materials Management.
Using GIS technology and database technology, to realize the information management of disaster relief materials, including to material classification, quantity, manufacturers, use period, the information such as the loading and unloading of the database entry, organization and query; at the same time, it can check the corresponding materials in saturated and early warning and emergency allocation shortage.
For earthquake emergency shelter of construction, as the people's livelihood engineering important content, need to human, material and financial resources and the support of all departments at all levels of coordination, only leadership attention, can the concrete construction work to implement action, coordination, clear responsibility, do all departments in the effective interaction to solve practical problems encountered in the construction.
References [1] Tailuan Mao, Huicheng Yu, Jinsheng Hu:Journal of Geology Vol.33(2009),P.263(In Chinese) [2] Wei Zhao, Lin Zhou, Wei Li:Journal of Hebei Polytechnic University (Natural Science Edition) Vol.33(2011),P.117(In Chinese) [3] Jianhong Wu, Wenguo Weng:Journal of Tsinghua University(Science and Technology) Vol.51(2011),P.632(In Chinese) [4] Zhiguo Yang, Kang Jiang, Xiangkai Zou:Journal of Safety Science and Technology Vol.7(2011),P.52(In Chinese) [5] Tong Jiang, Kening Zhu, Xiaoxing Song:Technology for Earthquake Disaster Prevention Vol.2(2007),P.305(In Chinese) [6] Pei Mao, Weixuan Song:City and Disaster Reduction (2009) ,P.29(In Chinese) [7] Shuzhi Lin, Jiannan Huang:Fujian Architecture & Construction (2008),P.69(In Chinese)
Online since: March 2013
Authors: S.F. Nik, A.A. Azira, Mohamad Rusop, F. Mohamed, M.H. Taib, Suriani Abu Bakar
It is also made as raw material in the production of soap and wax.
Ando, Single-Wall and Multi-Wall Carbon Nanotubes from Camphor--a Botanical Hydrocarbon, Diamond and Related Materials 12 (2003) 1845-1850
Umeno, Carbon Nanotubes by Spray Pyrolysis of Turpentine Oil at Different Temperatures and Their Studies, Microporous and Mesoporous Materials 96 (2006) 184-190
Jimbo, A Simple Method of Producing Single-Walled Carbon Nanotubes from a Natural Precursor: Eucalyptus Oil, Materials Letters 61 (2007) 3768-3770
Misra, Ftir Studies of Nitrogen Doped Carbon Nanotubes, Diamond and Related Materials 15 (2006) 385-388
Ando, Single-Wall and Multi-Wall Carbon Nanotubes from Camphor--a Botanical Hydrocarbon, Diamond and Related Materials 12 (2003) 1845-1850
Umeno, Carbon Nanotubes by Spray Pyrolysis of Turpentine Oil at Different Temperatures and Their Studies, Microporous and Mesoporous Materials 96 (2006) 184-190
Jimbo, A Simple Method of Producing Single-Walled Carbon Nanotubes from a Natural Precursor: Eucalyptus Oil, Materials Letters 61 (2007) 3768-3770
Misra, Ftir Studies of Nitrogen Doped Carbon Nanotubes, Diamond and Related Materials 15 (2006) 385-388
Online since: September 2013
Authors: Qi Jun Zhang
Materials and experimental apparatus
To provide three kinds of food raw materials, which consist of flour, water and mug bean that are mixed in certain proportion.
At the same time, these measurements are used to estimate the parameters’ rheological materials.
Material(1) Material(2) Material(3) a Three types of confectionery materials Material(1+2) Material(2+3) Material(1+3) b A hierarchical object compression from the top surface Material(1+2) Material(2+3) c A hierarchical object compression from the center of top surface Figure 1.
Journal of Chongqing university (Natural science edition), 2010, 29 (2):140-143
Journal of industrial Management engineering, 2009(3): 132-140
At the same time, these measurements are used to estimate the parameters’ rheological materials.
Material(1) Material(2) Material(3) a Three types of confectionery materials Material(1+2) Material(2+3) Material(1+3) b A hierarchical object compression from the top surface Material(1+2) Material(2+3) c A hierarchical object compression from the center of top surface Figure 1.
Journal of Chongqing university (Natural science edition), 2010, 29 (2):140-143
Journal of industrial Management engineering, 2009(3): 132-140
Online since: September 2015
ICPMMT 2015 collects excellent papers on original and unpublished researches in
all area of precision machinery, manufacturing technology, fasteners manufacturing
process and applications, mold-and-die design and manufactures, engineering
materials and applications.
The topics are as follows: Chapter 1: Researching and Design of Manufacturing Equipments; Chapter 2: Technologies of Mechanical Processing; Chapter 3: Materials and Technologies for Microelectronics and Surface Engineering.
The papers submitted to ICPMMT 2015 through peer reviewing processes can be published in Journal of Key Engineering Materials.
Jeong-Whan Yoon (Deakin University, Australia) Scientific Committee: Gow-Yi Tzou (Fortune Institute of Technology, Taiwan) Thomas Neitzert (Auckland University of Technology, New Zealand) Timotius Pasang (Auckland University of Technology, New Zealand) Maziar Ramezani (Auckland University of Technology, New Zealand) Jeong-Whan Yoon (Deakin University, Australia) Guy Littlefair (Deakin University, Australia) Cheng Lu (Wollongong University, Australia) Peter Groche (TU Darmstadt, Germany) Yeong-Maw Hwang (Sun Yat-sen University, Taiwan) Cheng-Tang Pan (Sun Yat-sen University, Taiwan) You-Min Huang (Taiwan University of Science and Technology) Jinn-Jong Sheu (Kaohsiung University of Applies Science, Taiwan) Chao-Cheng Chang (Kaohsiung University of Applies Science, Taiwan) Cho-Pei Jiang (Formosa University, Taiwan) Wen-Hsiang Hsieh (Formosa University, Taiwan) Dyi-Cheng Chen (Chunghua University of Education, Taiwan)
The topics are as follows: Chapter 1: Researching and Design of Manufacturing Equipments; Chapter 2: Technologies of Mechanical Processing; Chapter 3: Materials and Technologies for Microelectronics and Surface Engineering.
The papers submitted to ICPMMT 2015 through peer reviewing processes can be published in Journal of Key Engineering Materials.
Jeong-Whan Yoon (Deakin University, Australia) Scientific Committee: Gow-Yi Tzou (Fortune Institute of Technology, Taiwan) Thomas Neitzert (Auckland University of Technology, New Zealand) Timotius Pasang (Auckland University of Technology, New Zealand) Maziar Ramezani (Auckland University of Technology, New Zealand) Jeong-Whan Yoon (Deakin University, Australia) Guy Littlefair (Deakin University, Australia) Cheng Lu (Wollongong University, Australia) Peter Groche (TU Darmstadt, Germany) Yeong-Maw Hwang (Sun Yat-sen University, Taiwan) Cheng-Tang Pan (Sun Yat-sen University, Taiwan) You-Min Huang (Taiwan University of Science and Technology) Jinn-Jong Sheu (Kaohsiung University of Applies Science, Taiwan) Chao-Cheng Chang (Kaohsiung University of Applies Science, Taiwan) Cho-Pei Jiang (Formosa University, Taiwan) Wen-Hsiang Hsieh (Formosa University, Taiwan) Dyi-Cheng Chen (Chunghua University of Education, Taiwan)
Online since: May 2016
Authors: Ding Wen Yu, Zhi Jun Wu, Yuan Ma, Ping Fa Feng, Sarwar Ali Abbasi, X.C. Cai
[2] Tang Aijun, Liu Zhanqiang, Deformations of thin wall plate due to static end milling force, Journal of Materials Processing Technololgy. 206, (2008), 345-351
[7] Tae Soon Lim, Chea-Moon Lee, Seok-Won Kim, Deug-Woo Lee, Evaluation of cutter orientations in 5-axes high speed milling of turbine blade, Journal of Materials Processing Technology. 130-131, (2002), 401-406
[9] C.M.Lee, S.W.Kim, Y.H.Lee, D.W.Lee, The optimal cutter orientation in ball end milling of cantilever- shaped thin plate, Journal of Materials Processing Technology, 153-154, (2004), 900-906
Nor, Effectiveness of un-coated WC-Co and PCD inserts in end milling of titanium alloy–Ti6Al4V, Journal of Materials Processing Technology. 192-193, (2007), 147-158
[13] Germain G., and Morel A., Identification of material constitutive laws representative of machining conditions for two titanium alloys: Ti6Al4V and Ti555-3, Journal of Engineering Materials and Technology. 135/ 031002-1 to 11, (2013).
[7] Tae Soon Lim, Chea-Moon Lee, Seok-Won Kim, Deug-Woo Lee, Evaluation of cutter orientations in 5-axes high speed milling of turbine blade, Journal of Materials Processing Technology. 130-131, (2002), 401-406
[9] C.M.Lee, S.W.Kim, Y.H.Lee, D.W.Lee, The optimal cutter orientation in ball end milling of cantilever- shaped thin plate, Journal of Materials Processing Technology, 153-154, (2004), 900-906
Nor, Effectiveness of un-coated WC-Co and PCD inserts in end milling of titanium alloy–Ti6Al4V, Journal of Materials Processing Technology. 192-193, (2007), 147-158
[13] Germain G., and Morel A., Identification of material constitutive laws representative of machining conditions for two titanium alloys: Ti6Al4V and Ti555-3, Journal of Engineering Materials and Technology. 135/ 031002-1 to 11, (2013).
Online since: February 2021
Authors: Mukhlis M. Ismail, Wafaa A. Hussain, Entessar H.A. Al-Mosawe, Luay H. Alwan
Introduction
The scientific study (biological and physical) of specific materials and their interactions throughout the body is called biomaterial science [1].
Theophile, Infrared Spectroscopy: Materials Science, Engineering and Technology, InTech, Janeza Trdine 9, 51000 Rijeka, Croatia, 2012
Khalid, Porous hydroxyapatite for artificial bone applications, Science and Technology of Advanced Materials 8 (2007) 116–123 [20] A.
Yung, Deformation and failure of protein materials in extreme conditions and disease, Nature Materials 8 (2009) 175-188
Journal of applied science and engineering 23 (2020) 61-68
Theophile, Infrared Spectroscopy: Materials Science, Engineering and Technology, InTech, Janeza Trdine 9, 51000 Rijeka, Croatia, 2012
Khalid, Porous hydroxyapatite for artificial bone applications, Science and Technology of Advanced Materials 8 (2007) 116–123 [20] A.
Yung, Deformation and failure of protein materials in extreme conditions and disease, Nature Materials 8 (2009) 175-188
Journal of applied science and engineering 23 (2020) 61-68
Online since: January 2022
Authors: Ying Liu, Zi Xin Liao, Xiao Hao Li, Ying Bin Xue, Zheng Wei Wu, Nai De Yang
Materials and Methods
Experimental materials.
Other materials include quartz sand used to grow soybean seedlings.
Chinese Journal of Animal Science, 2017, 53(4): 160-165, 178.
Journal of Environment Quality. 2000, 129: 167-175
International Journal of Pure and Applied Sciences, 2008, 2(3): 27-31
Other materials include quartz sand used to grow soybean seedlings.
Chinese Journal of Animal Science, 2017, 53(4): 160-165, 178.
Journal of Environment Quality. 2000, 129: 167-175
International Journal of Pure and Applied Sciences, 2008, 2(3): 27-31
Online since: December 2016
Authors: Subramaniam Krishnan, Ahmad Majdi Abdul-Rani, T.V.V.L.N. Rao, Winson Ambaraj, Ramanathan Ramiah, T. Nagarajan
Sater, "Smart Structures and Materials 1997: Industrial and Commercial Applications of Smart Structures Technologies," in Smart Structures and Materials 1997: Industrial and Commercial Applications of Smart Structures Technologies, 1997
Ölander, "An electrochemical investigation of solid cadmium-gold alloys," Journal of the American Chemical Society, vol. 54, pp. 3819-3833, 1932
Morgan, "Medical shape memory alloy applications—the market and its products," Materials Science and Engineering: A, vol. 378, pp. 16-23, 2004
Renström, "Prevalence of musculoskeletal injuries in Swedish elite track and field athletes," The American journal of sports medicine, vol. 40, pp. 163-169, 2012
VOJTĚCH, "Influence of Heat Treatment of Shape Memory NiTi Alloy on its Mechanical Properties," Czech Academy of Science, 2010.
Ölander, "An electrochemical investigation of solid cadmium-gold alloys," Journal of the American Chemical Society, vol. 54, pp. 3819-3833, 1932
Morgan, "Medical shape memory alloy applications—the market and its products," Materials Science and Engineering: A, vol. 378, pp. 16-23, 2004
Renström, "Prevalence of musculoskeletal injuries in Swedish elite track and field athletes," The American journal of sports medicine, vol. 40, pp. 163-169, 2012
VOJTĚCH, "Influence of Heat Treatment of Shape Memory NiTi Alloy on its Mechanical Properties," Czech Academy of Science, 2010.
Online since: July 2016
Authors: Koichi Tanaka, Taichi Yoshida
Silicon materials, such as a-Si, poly-Si, Si-nanocrystallites, and porous-Si, are also expected as new element of display [1, 2].
In order to use the silicon materials for display, emitting sources and mechanism have to be solved.
We fabricated Si:SiO2 films as one of nanoscale order materials by radio frequency (rf) sputter.
Martín-Palma: Journal of Materials Science, Vol. 45 (2011), p. 2823 [2] K.
George: Surface Science, Vol. 245 (1991), p. 360 [13] M.
In order to use the silicon materials for display, emitting sources and mechanism have to be solved.
We fabricated Si:SiO2 films as one of nanoscale order materials by radio frequency (rf) sputter.
Martín-Palma: Journal of Materials Science, Vol. 45 (2011), p. 2823 [2] K.
George: Surface Science, Vol. 245 (1991), p. 360 [13] M.