Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2011
Authors: Ping Hu, Qi Shao, Qian Nie, Wei Dong Li
The adherend materials were steel DC01 and aluminum alloy 6016.
In the experiments, five types of T-joints were made with a combination different materials and thickness of adherend to make three kinds of balanced joints and two kinds of imbalanced joints.
London: Applied Science Publishers; 1984
Adams: International Journal of Adhesion & Adhesives 22 (2002) 311-315
Ashcroft: International Journal of Fatigue 32 (2010) 1146-1158.
In the experiments, five types of T-joints were made with a combination different materials and thickness of adherend to make three kinds of balanced joints and two kinds of imbalanced joints.
London: Applied Science Publishers; 1984
Adams: International Journal of Adhesion & Adhesives 22 (2002) 311-315
Ashcroft: International Journal of Fatigue 32 (2010) 1146-1158.
Online since: September 2014
Authors: Suriati Sufian, Nor Hazwani Amir Hamzah, Abrar Inayat, Sujan Chowdhury, Abdul Aziz Omar
Moreover, ionic liquids have proved to be environmental friendly solvents for synthesizing inorganic materials.
Until now, lots of materials have been synthesized in RTIL.
For characterization of the obtained materials, field emission scanning electron microscopy (FE–SEM), transmission electron microscopy (TEM), X-ray diffraction (XRD) and Brunauer–Emmett–Teller (BET) have been used.
Structures of the solid phase and crystallinities were carried out by XRD with a scan rate of 4 ° (2θ) min-1 (MAC Science, MXP18).
Arpaç, Photocatalytic performance of pure anatase nanocrystallite TiO2 synthesized under low temperature hydrothermal conditions, Materials Research Bulletin, 41 (2006) 2276 – 2285
Until now, lots of materials have been synthesized in RTIL.
For characterization of the obtained materials, field emission scanning electron microscopy (FE–SEM), transmission electron microscopy (TEM), X-ray diffraction (XRD) and Brunauer–Emmett–Teller (BET) have been used.
Structures of the solid phase and crystallinities were carried out by XRD with a scan rate of 4 ° (2θ) min-1 (MAC Science, MXP18).
Arpaç, Photocatalytic performance of pure anatase nanocrystallite TiO2 synthesized under low temperature hydrothermal conditions, Materials Research Bulletin, 41 (2006) 2276 – 2285
Online since: April 2014
Preface
This is the proceedings of the selected papers presented at 12th IUMRS International
Conference on Advanced Materials (IUMRS-ICAM2013) held in Qingdao, China, Sept.
22-28, 2013.
The IUMRS International Conference on Advanced Materials is one of the most important serial conferences of the International Union of Materials Research Societies (IUMRS).
IUMRS-ICAM 2013 had 33 Symposia covering five fields of Energy and environmental materials; Structural materials; Functional materials; Nano-scale and amorphous materials; and Materials processing and Genomic engineering.
By recommendation of symposium organizers and after peer reviewing 235 papers are published on the journal of "Materials Research Innovation", 308 papers are published in the present proceedings, which divided into three volumes of Part 1: Energy, Environment and Functional Materials Part 2: Structural Materials Part 3: Nano-Scale Materials, Materials Processing and Genomic Engineering This is the volume for Part 1 including 37 papers selected from 7 symposia of Area A (Energy and environmental materials) and 43 papers from 8 symposia of Area C (Functional materials).
Editors IUMRS-ICAM 2013 12th IUMRS International Conference on Advanced Materials September 22-28, 2013, Qingdao, China Organized by Chinese Materials Research Society(C-MRS) International Union of Materials Research Societies (IUMRS) Supported by Ministry of Science and Technology of China China Association for Science and Technology National Natural Science Foundation of China Chinese Academy of Sciences Chinese Academy of Engineering Government of Qingdao City, Shandong Province, China American Institute of Physics
The IUMRS International Conference on Advanced Materials is one of the most important serial conferences of the International Union of Materials Research Societies (IUMRS).
IUMRS-ICAM 2013 had 33 Symposia covering five fields of Energy and environmental materials; Structural materials; Functional materials; Nano-scale and amorphous materials; and Materials processing and Genomic engineering.
By recommendation of symposium organizers and after peer reviewing 235 papers are published on the journal of "Materials Research Innovation", 308 papers are published in the present proceedings, which divided into three volumes of Part 1: Energy, Environment and Functional Materials Part 2: Structural Materials Part 3: Nano-Scale Materials, Materials Processing and Genomic Engineering This is the volume for Part 1 including 37 papers selected from 7 symposia of Area A (Energy and environmental materials) and 43 papers from 8 symposia of Area C (Functional materials).
Editors IUMRS-ICAM 2013 12th IUMRS International Conference on Advanced Materials September 22-28, 2013, Qingdao, China Organized by Chinese Materials Research Society(C-MRS) International Union of Materials Research Societies (IUMRS) Supported by Ministry of Science and Technology of China China Association for Science and Technology National Natural Science Foundation of China Chinese Academy of Sciences Chinese Academy of Engineering Government of Qingdao City, Shandong Province, China American Institute of Physics
Online since: January 2020
Authors: Raouf Mahmood Raouf, Hadeel A. Abdalgane, Rand Salih Al-Jadiri
Expermental Section
Materials
P550 was used as a control for this study.
Properties of raw materials.
References [1] Zhang X, Liu W, Yang D, & Qiu X ,2019, Biomimetic Supertough and Strong Biodegradable Polymeric Materials with Improved Thermal Properties and Excellent UV‐Blocking Performance, Advanced Functional Materials 29(4),1806912
[10] Al-Moameri HH, Jaf LA, & Suppes GJ ,2018, Simulation Approach to Learning Polymer Science, Journal of Chemical Education 95(9),1554-1561
Kinetics of uncatalyzed reaction of toluene diisocyanate with a polyether diol, Journal of applied polymer science 81(13),3149-3160.
Properties of raw materials.
References [1] Zhang X, Liu W, Yang D, & Qiu X ,2019, Biomimetic Supertough and Strong Biodegradable Polymeric Materials with Improved Thermal Properties and Excellent UV‐Blocking Performance, Advanced Functional Materials 29(4),1806912
[10] Al-Moameri HH, Jaf LA, & Suppes GJ ,2018, Simulation Approach to Learning Polymer Science, Journal of Chemical Education 95(9),1554-1561
Kinetics of uncatalyzed reaction of toluene diisocyanate with a polyether diol, Journal of applied polymer science 81(13),3149-3160.
Online since: January 2016
Authors: A.Ghani Supri, M.P.M. Hanif
Introduction
A renewable natural organic fibers act as reinforcing materials which are biodegradable and ecofriendly for the use of glass or carbon fiber and inorganic fillers.
It should be noted that the percentage of water absorption increased generally when more reinforcement materials are used which can be attributed to the hydrophilic nature of lignocellulose materials.
Acknowledgement The authors are grateful to the School of Materials, Universiti Malaysia Perlis (UniMAP) for the provision of laboratory facilities and technical assistance.
Xu, Influence of nanoclay on properties of HDPE/wood composites, Journal of Application Polymer Science. 106 (2007) 3956-3966
Rakesh, Nanoclay-reinforced, polypropylene-based wood–plastic composites, Journal of Polymer Engineering and Science. 50 (10) (2010) 2013-2020
It should be noted that the percentage of water absorption increased generally when more reinforcement materials are used which can be attributed to the hydrophilic nature of lignocellulose materials.
Acknowledgement The authors are grateful to the School of Materials, Universiti Malaysia Perlis (UniMAP) for the provision of laboratory facilities and technical assistance.
Xu, Influence of nanoclay on properties of HDPE/wood composites, Journal of Application Polymer Science. 106 (2007) 3956-3966
Rakesh, Nanoclay-reinforced, polypropylene-based wood–plastic composites, Journal of Polymer Engineering and Science. 50 (10) (2010) 2013-2020
Online since: May 2011
Authors: Bai Yang Lou, Bin Xu, Han Zhou
The Effects of Nano Pt/Carbon Black Compound Coating on the Electro-catalysis Properties of the Graphite Electrode
Lou Baiyanga, Zhou Hanb and Xu Binc
Institute of Materials and Surface Engineering, Zhejiang University of Technology,
Hangzhou 310014, P.R.
Introduction Direct alcohols fuel cells have become one of the hotspots of international materials and energy fields because of its merit of abundant resources, high theoretical energy density and convenience in storing and carrying [1-3], especially the direct methanol fuel cell and the direct ethanol fuel cell have been concerned and studied [4-6].
Experimental materials and methods The basic material of specimen is graphite electrode.
[2] Tian Jian-hua, Gao Peng-fei, Zhang Zhi-yuan, et al: International Journal of Hydrogen Energy Vol.33(2008),p.5686 [3] Zhenhai Wen, Qiang Wang et al: Electrochemistry Communications Vol.10 (2008), p.84 [4] B.
Williams: Journal of Power Sources Vol.83 (1999),p. 15 [5] Zhou W J, Li W Z, Song S Q, et al: Journal of Power Sources Vol.131 (2004),p.217 [6] Ribadeneira E E, Hoyos B A: Journal of Power Sources Vol.180 (2008),p.238 [7] Zheng Zhong, Xu Bo, Huang Lu, et al: Solid State Sciences, Vol.10 (2008),p.316
Introduction Direct alcohols fuel cells have become one of the hotspots of international materials and energy fields because of its merit of abundant resources, high theoretical energy density and convenience in storing and carrying [1-3], especially the direct methanol fuel cell and the direct ethanol fuel cell have been concerned and studied [4-6].
Experimental materials and methods The basic material of specimen is graphite electrode.
[2] Tian Jian-hua, Gao Peng-fei, Zhang Zhi-yuan, et al: International Journal of Hydrogen Energy Vol.33(2008),p.5686 [3] Zhenhai Wen, Qiang Wang et al: Electrochemistry Communications Vol.10 (2008), p.84 [4] B.
Williams: Journal of Power Sources Vol.83 (1999),p. 15 [5] Zhou W J, Li W Z, Song S Q, et al: Journal of Power Sources Vol.131 (2004),p.217 [6] Ribadeneira E E, Hoyos B A: Journal of Power Sources Vol.180 (2008),p.238 [7] Zheng Zhong, Xu Bo, Huang Lu, et al: Solid State Sciences, Vol.10 (2008),p.316
Online since: January 2017
Authors: Moola Mohan Reddy, D. Sujan, V.C.C. Lee, S.E.M. Chien
This is also inherent in high temperature alloys and high work hardening materials.
Wang, Behaviors of end milling Inconel 718 superalloy by cemented carbide tools, Journal of Materials Processing Technology, 201 (1-3) (2008) 460-465
Ismail, Development of temperature statistical model when machining of aerospace alloy materials, Thermal Science 18 (1) (2014) 269-282
Ridgway, Optimisation of tool life and productivity when end milling Inconel 718TM, Journal of Materials Processing Technology, 189 (1-3) (2007) 153-161
Turgut, Optimization of machining parameters in milling of Ti-6Al-4V alloy using Taguchi method, e-Journal of New World Sciences Academy Engineering Science 6 (1) (2011) 428-440.
Wang, Behaviors of end milling Inconel 718 superalloy by cemented carbide tools, Journal of Materials Processing Technology, 201 (1-3) (2008) 460-465
Ismail, Development of temperature statistical model when machining of aerospace alloy materials, Thermal Science 18 (1) (2014) 269-282
Ridgway, Optimisation of tool life and productivity when end milling Inconel 718TM, Journal of Materials Processing Technology, 189 (1-3) (2007) 153-161
Turgut, Optimization of machining parameters in milling of Ti-6Al-4V alloy using Taguchi method, e-Journal of New World Sciences Academy Engineering Science 6 (1) (2011) 428-440.
Online since: October 2010
Authors: Annemarie Preiss, Bo Su, Simon Collins, Peter Ellison
Materials Science and Engineering A, 1999. 262(1-2): p. 192-203.
2.
Vandeperre, Electrophoretic deposition of materials.
Annual Review of Materials Science, 1999. 29: p. 327-352. 5.
Journal of Materials Science, 2004. 39(3): p. 803-811. 6.
Progress in Materials Science, 2007. 52(1): p. 1-61. 7.
Vandeperre, Electrophoretic deposition of materials.
Annual Review of Materials Science, 1999. 29: p. 327-352. 5.
Journal of Materials Science, 2004. 39(3): p. 803-811. 6.
Progress in Materials Science, 2007. 52(1): p. 1-61. 7.
Online since: December 2011
Authors: Xi Wen Cheng, Ming Zhong Tang, Gang Li
Polymer materials science and engineering:, Vol. 18 (2002)p. 115-118
[11] Chen Huimin, Chen Deliang, Zhang Rui.
Polymer materials science and engineering:, Vol. 19 (2003)p. 220-223 [13] Xie Xuming, Li Ying, Zhang Chunjing.
Polymer materials science and engineering:, Vol. 24 (2008)p. 62-64 [15] Shi Tiejun, Xu Ding, Wu Defeng et al.
Polymer materials science and engineering, Vol. 20 (2004)p. 66-68 [19] Touioukian Y S.
Polymer materials science and engineering:, Vol. 16 (2000)p. 17-21
Polymer materials science and engineering:, Vol. 19 (2003)p. 220-223 [13] Xie Xuming, Li Ying, Zhang Chunjing.
Polymer materials science and engineering:, Vol. 24 (2008)p. 62-64 [15] Shi Tiejun, Xu Ding, Wu Defeng et al.
Polymer materials science and engineering, Vol. 20 (2004)p. 66-68 [19] Touioukian Y S.
Polymer materials science and engineering:, Vol. 16 (2000)p. 17-21
Online since: September 2007
Authors: N. Ignjatović, Magdalena Stevanović, Ivana Jovanović, B. Nedeljković
Ignjatović1,c
1
Institute of Technical Sciences of the Serbian Academy of Sciences and Arts, Belgrade, Serbia
2
Faculty of Technical Sciences, Čačak, Serbia
a
ivanajov@gmail.com, bmagir@eunet.yu, cadvamat@itn.sanu.ac.yu
Keywords: Drug delivery, Microspheres, PLLA, Precipitation.
Albertsson: Advances in Polymer Science Vol. 157 (2002), p.67
Gander: Journal of Controlled Release Vol. 102 (2005), p. 313
Burt: International Journal of Pharmaceutics Vol. 222 (2001), p. 19
Uskoković: Journal of Material Sciences: Materials in Medicine, (2006 accepted)
Albertsson: Advances in Polymer Science Vol. 157 (2002), p.67
Gander: Journal of Controlled Release Vol. 102 (2005), p. 313
Burt: International Journal of Pharmaceutics Vol. 222 (2001), p. 19
Uskoković: Journal of Material Sciences: Materials in Medicine, (2006 accepted)