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Online since: August 2013
Authors: Muhamad Zaini Yunos, Zawati Harun, Muhamad Fikri Shohur, Hatijah Basri, Mohd Riduan Jamalludin
Journal of Membrane Science, 342 (2009) 6–13
The Effect of Amorphous Rice Husk Silica to the Polysulfone Membrane Separation Process, Applied Mechanics and Materials, 701 (2013) 319-322
The Effect of Crystalline Rice Husk Silica on Polysulfone Membrane for Wastewater Treatment, Applied Mechanics and Materials, 328 (2013) 798–801
Badarulzaman ,Effect of MgO Additive on Microstructure of Al2O3, Advanced Materials Research, 488 - 489 (2012) 335-339
Badarulzaman, Shell mould composite with rice husk, Key Engineering Materials, 471-472 (2011) 922-927
The Effect of Amorphous Rice Husk Silica to the Polysulfone Membrane Separation Process, Applied Mechanics and Materials, 701 (2013) 319-322
The Effect of Crystalline Rice Husk Silica on Polysulfone Membrane for Wastewater Treatment, Applied Mechanics and Materials, 328 (2013) 798–801
Badarulzaman ,Effect of MgO Additive on Microstructure of Al2O3, Advanced Materials Research, 488 - 489 (2012) 335-339
Badarulzaman, Shell mould composite with rice husk, Key Engineering Materials, 471-472 (2011) 922-927
Online since: September 2016
Authors: A. Gnanavelbabu, K. Rajkumar, P. Sabarinathan, D. Senthil Nathan
Drilling is the most often employed operation for fiber-reinforced polymer materials owing to the need for structure joining.
In fact, the chisel edge of the drill pushes the material down along with removed materials flowed back as it advances in the material.
Experimental details Materials and Preparation method.
TARVERDI, Preparation and properties of polypropylene composites reinforced with wheat and flax straw fibres Journal of materials science, 32, 1997, 443-449
Tsao, Comprehensive analysis of delamination in drilling of composite materials with various drill bits, Journal of Materials Processing Technology 140 (2003) 335–339
In fact, the chisel edge of the drill pushes the material down along with removed materials flowed back as it advances in the material.
Experimental details Materials and Preparation method.
TARVERDI, Preparation and properties of polypropylene composites reinforced with wheat and flax straw fibres Journal of materials science, 32, 1997, 443-449
Tsao, Comprehensive analysis of delamination in drilling of composite materials with various drill bits, Journal of Materials Processing Technology 140 (2003) 335–339
Online since: July 2014
Authors: Y. Guo, C.Y. Wang, H. Yuan, L.J. Zheng, Y.X. Song
SAE Transactions: Journal of Materials \& Manufacturing, 2001. 110: p. 334--352
International Journal of Refractory Metals and Hard Materials, 2008. 26(3): p. 197-206
Journal of materials processing technology, 2006. 179(1): p. 165-171
International Journal of Refractory Metals and Hard Materials, 2008. 26(3): p. 197-206
International Journal of Refractory Metals & Hard Materials 2000. 18(6): p. 287-296
International Journal of Refractory Metals and Hard Materials, 2008. 26(3): p. 197-206
Journal of materials processing technology, 2006. 179(1): p. 165-171
International Journal of Refractory Metals and Hard Materials, 2008. 26(3): p. 197-206
International Journal of Refractory Metals & Hard Materials 2000. 18(6): p. 287-296
Online since: July 2016
Authors: Mohd Noor Ervina Efzan, A.M. Mustafa Al Bakri
Abtew, "Lead-free Solders in Microelectrics," Materials Science and Engineering, vol. 27, pp. 95-141, 2000
Kim, "Sn–Zn low temperature solder," Journal of Materials Science: Materials in Electronics, vol. 18, pp. 121-127, 2007
Peng, "Influence of minor Bi additions on the interfacial morphology between Sn–Zn–xBi solders and a Cu layer," Journal of Materials Science: Materials in Electronics, vol. 20, pp. 1112-1117, 2009
Yu, "Development of Sn–Zn lead-free solders bearing alloying elements," Journal of Materials Science: Materials in Electronics, vol. 21, pp. 1-15, 2010
Jung, "Solid state intermetallic compound layer growth between Sn-8Zn-3Bi solder and bare copper substrate," Journal of Materials Science: Materials in Electronics, vol. 16, pp. 523-528, 2005
Kim, "Sn–Zn low temperature solder," Journal of Materials Science: Materials in Electronics, vol. 18, pp. 121-127, 2007
Peng, "Influence of minor Bi additions on the interfacial morphology between Sn–Zn–xBi solders and a Cu layer," Journal of Materials Science: Materials in Electronics, vol. 20, pp. 1112-1117, 2009
Yu, "Development of Sn–Zn lead-free solders bearing alloying elements," Journal of Materials Science: Materials in Electronics, vol. 21, pp. 1-15, 2010
Jung, "Solid state intermetallic compound layer growth between Sn-8Zn-3Bi solder and bare copper substrate," Journal of Materials Science: Materials in Electronics, vol. 16, pp. 523-528, 2005
Online since: October 2025
Authors: Mxolisi Brendon Shongwe, Nicholas Malatji, Lehlogonolo Rudolf Kanyane
Aghion, Materials, 16, 2454 (2023)
Yaqoob, International Journal of Refractory Metals and Hard Materials, 115, 106300 (2023)
Wei, Journal of Materials Research and Technology, 24, 7832-7851 (2023)
Gupta, Materials Today: Proceedings (2023)
Han, Materials Science and Engineering: A, 838, 142748 (2022)
Yaqoob, International Journal of Refractory Metals and Hard Materials, 115, 106300 (2023)
Wei, Journal of Materials Research and Technology, 24, 7832-7851 (2023)
Gupta, Materials Today: Proceedings (2023)
Han, Materials Science and Engineering: A, 838, 142748 (2022)
Online since: January 2012
Authors: Yu Ming Li, Jian Chun Yang, Hong Bai Bai
FATIGUE AND FRACTURE CHARACTER OF METAL RUBBER MATERIAL
Yuming LI1,a, Hongbai BAI1,b JianchunYANG2,c
1University of Ordnance Engineering, China
2University of Science and Technology Beijing, China
aliyuming1976@sina.com, bbhbk11@sina.com, cyjc675266@163.com
Keywords: Metal rubber, Damaging Factor, Fatigue Test, Fracture Face, Electronic Scanning Microscope
Abstract.
Introduction With the development of science and technology in space, the spacecrafts usually work in the worse circumstance such as high or low temperature, so they need to improve their components’ performance of vibration and sealing.
A main reason may be that it is a kind of particular materials, the testing measures and theories of metal material can’t be used here.
The fracture and fatigue character of MR is different from the metal material.
Rahouadj: Nanostructural materials formation by mechanical alloying: morphologic analysis based on transmission and scanning electron microscopic observations, Materials Characterization Vol. 36(1996), p. 185
Introduction With the development of science and technology in space, the spacecrafts usually work in the worse circumstance such as high or low temperature, so they need to improve their components’ performance of vibration and sealing.
A main reason may be that it is a kind of particular materials, the testing measures and theories of metal material can’t be used here.
The fracture and fatigue character of MR is different from the metal material.
Rahouadj: Nanostructural materials formation by mechanical alloying: morphologic analysis based on transmission and scanning electron microscopic observations, Materials Characterization Vol. 36(1996), p. 185
Online since: August 2015
Authors: Joong Kee Lee, Hans Kristianto, Arenst Andreas Arie, Ratna Frida Susanti, Martin Halim
Introduction
The discoveries of fullerenes and carbon nanotubes have resulted in exciting further developments in the nano-science and nanotechnology of carbon materials.
In the last decades, many differently shaped carbon materials have been synthesized and characterized [1-2].
It can be said that the term of carbon spheres refers to all carbon materials that possess a spherical or near spherical shape but do not include the fullerene family of carbons.
The preliminary electrochemical measurements of CNSs as anode materials of lithium secondary batteries were investigated via two-electrode coin-type cells.
Materials Science and Engineering R 70 (2010) 1–28
In the last decades, many differently shaped carbon materials have been synthesized and characterized [1-2].
It can be said that the term of carbon spheres refers to all carbon materials that possess a spherical or near spherical shape but do not include the fullerene family of carbons.
The preliminary electrochemical measurements of CNSs as anode materials of lithium secondary batteries were investigated via two-electrode coin-type cells.
Materials Science and Engineering R 70 (2010) 1–28
Online since: September 2014
Preface
This book reports the proceedings of the 3rd International Conference on Process Engineering
and Advanced Materials (ICPEAM2014) under the banner of World Engineering, Science &
Technology Congress (ESTCON2014) from June 03 June 05, 2014 will be held in Kuala
Lumpur, Malaysia.
The purpose of this is Chemical Engineering based conference that aims to provide a platform for experts from academia and industry to showcase the latest findings in their areas of expertise that include material science and engineering, nanotechnology, environmental technologies, process systems engineering, separation technology and reaction engineering Papers.
In ICPEAM2014, over 300 participants have registered to attend this conference where more than 200 papers were selected and will be presented and published in a selected SCOPUS indexed journal.
Iqbal Ahmed Guest Editor (ICPEAM2014) Department of Chemical Engineering Universiti Teknologi PETRONAS Bandar Sri Iskandar, Tronoh 31750 Perak Tel: +605-3657582 Fax: +605-3656176 Email: iqbal.ahmed@petronas.com.my ORGANIZING COMMITTEE Chairman AP Dr Mohamad Azmi Bustam Co- Chairman Dr Nooryusmiza Yusoff Treasurer Ir Dr Abdul Halim Shah B Maulud (L) Dr Asna Bt Mohd Zain Secretary Dr Oh Pei Ching (L) Dr Lemma Dendena Tufa Technical Dr Bawadi B Abdullah (L) Dr Ghulam Murshid (EDAS) Nasser B M Ramli Chairman of Session and Reviewers Environmental Engineering - Prof Dr Thanabalan Murugesan Advanced Material &Reaction Engineering - Prof Dr Yoshimitsu Uemura Process Systems Engineering - Prof Dr Saibal Ganguly Separation Process &Thermodynamics -Prof Dr Khairun Azizi Others - Prof Dr Duvvuri Subbarao Publication & Technical Review Proceeding Dr Sujan Chowdhury (L) Dr Periyasamy Balasubramanian AP Dr Mohd Azmuddin
B Abdullah Journal Journal 1 Dr Iqbal Ahmed (L) Dr Anis Suhaila Shuib Journal 2 Dr Muhammad Moniruzzaman AP Dr ShuhaimiMahadzir Journal 3 Dr Rajashekhar Pendyala Journal 4 AP Dr M Ramasamy AP Dr Zakaria Man Chairman of Session and Reviewers Environmental Engineering - Prof Dr Thanabalan Murugesan Advanced Material & Reaction Engineering - Prof Dr YoshimitsuUemura Process Systems Engineering - Prof Dr Saibal Ganguly Separation Process & Thermodynamics - Prof Dr Khairun Azizi Others - Prof Dr Duvvuri Subbarao Sponsorship AP Dr Suzana Bt Yusup (L) Prof Dr Azmi B Mohd Shariff AP Dr Mohamed Ibrahim B Abdul Mutalib AP Ir Abdul Aziz Omar Logistic Dr Lukman B Ismail (L) Azry B Borhan Event Management Azizul B Buang (L) Dr Lau Kok Keong IT & Media Dr Yeong Yin Fong (L) Dr Nurlidia Mansor Promotion & Publicity Zamri B Abdullah (L) Dr Risza Rusli Food & Beverage Dr Suriati Sufian (L) AP Dr Ku Zilati Ku
The purpose of this is Chemical Engineering based conference that aims to provide a platform for experts from academia and industry to showcase the latest findings in their areas of expertise that include material science and engineering, nanotechnology, environmental technologies, process systems engineering, separation technology and reaction engineering Papers.
In ICPEAM2014, over 300 participants have registered to attend this conference where more than 200 papers were selected and will be presented and published in a selected SCOPUS indexed journal.
Iqbal Ahmed Guest Editor (ICPEAM2014) Department of Chemical Engineering Universiti Teknologi PETRONAS Bandar Sri Iskandar, Tronoh 31750 Perak Tel: +605-3657582 Fax: +605-3656176 Email: iqbal.ahmed@petronas.com.my ORGANIZING COMMITTEE Chairman AP Dr Mohamad Azmi Bustam Co- Chairman Dr Nooryusmiza Yusoff Treasurer Ir Dr Abdul Halim Shah B Maulud (L) Dr Asna Bt Mohd Zain Secretary Dr Oh Pei Ching (L) Dr Lemma Dendena Tufa Technical Dr Bawadi B Abdullah (L) Dr Ghulam Murshid (EDAS) Nasser B M Ramli Chairman of Session and Reviewers Environmental Engineering - Prof Dr Thanabalan Murugesan Advanced Material &Reaction Engineering - Prof Dr Yoshimitsu Uemura Process Systems Engineering - Prof Dr Saibal Ganguly Separation Process &Thermodynamics -Prof Dr Khairun Azizi Others - Prof Dr Duvvuri Subbarao Publication & Technical Review Proceeding Dr Sujan Chowdhury (L) Dr Periyasamy Balasubramanian AP Dr Mohd Azmuddin
B Abdullah Journal Journal 1 Dr Iqbal Ahmed (L) Dr Anis Suhaila Shuib Journal 2 Dr Muhammad Moniruzzaman AP Dr ShuhaimiMahadzir Journal 3 Dr Rajashekhar Pendyala Journal 4 AP Dr M Ramasamy AP Dr Zakaria Man Chairman of Session and Reviewers Environmental Engineering - Prof Dr Thanabalan Murugesan Advanced Material & Reaction Engineering - Prof Dr YoshimitsuUemura Process Systems Engineering - Prof Dr Saibal Ganguly Separation Process & Thermodynamics - Prof Dr Khairun Azizi Others - Prof Dr Duvvuri Subbarao Sponsorship AP Dr Suzana Bt Yusup (L) Prof Dr Azmi B Mohd Shariff AP Dr Mohamed Ibrahim B Abdul Mutalib AP Ir Abdul Aziz Omar Logistic Dr Lukman B Ismail (L) Azry B Borhan Event Management Azizul B Buang (L) Dr Lau Kok Keong IT & Media Dr Yeong Yin Fong (L) Dr Nurlidia Mansor Promotion & Publicity Zamri B Abdullah (L) Dr Risza Rusli Food & Beverage Dr Suriati Sufian (L) AP Dr Ku Zilati Ku
Online since: June 2013
Authors: Ai Hong Guo, Fu Sheng Niu, Li Nan Tian, Li Jun Yin
Mullite whiskers can be used for metal matrix composite and ceramic matrix composites to enhance the mechanical properties of materials.
Kyanite breaks up into mullite and α-cristobalite in high temperature, so adding a certain amount of alumina into kyanite can make all raw materials into mullite.
Journal of the European Ceramic Society, 2008, 28: 329-344 [2] Ni Wen, Liu Fengmei.
Journal of University of Science and Technology Beijing, 2000, 1: 4-7 [3] Yuan Jianjun, Liu Zhien, Han Yu.
Journal of Inorganic Materials, 1996: 76-78 [4] Xie Qingfeng, Chen Senfeng, Lu Difen.
Kyanite breaks up into mullite and α-cristobalite in high temperature, so adding a certain amount of alumina into kyanite can make all raw materials into mullite.
Journal of the European Ceramic Society, 2008, 28: 329-344 [2] Ni Wen, Liu Fengmei.
Journal of University of Science and Technology Beijing, 2000, 1: 4-7 [3] Yuan Jianjun, Liu Zhien, Han Yu.
Journal of Inorganic Materials, 1996: 76-78 [4] Xie Qingfeng, Chen Senfeng, Lu Difen.
Online since: January 2013
Authors: Krzysztof Adamaszek, Zbigniew Jurasz, Zbigniew Grzesik, Stanisław Mrowec
Mrowec1,d
1University of Science and Technology, Faculty of Materials Science and Ceramics,
Department of Solid State Chemistry, al.
Werber, Modern Scaling-Resistant Materials, ed.
Masjuki, “Compatibility of automotive materials in biodiesel: A review”, Fuel, 90 (2011) 922-931
Pint, Design strategies for new oxidation-resistant high temperature alloys in Developments in High-temperature Corrosion and Protection of Materials, Woodhead Publishing in Materials, Cambridge, England, 2008, pp.398-432
Bonnet, The Early Stages of the Scale Growth on FeCrAl(+RE)-Type Alumina Formers, Materials Science Forum, 696 (2011) 70-75
Werber, Modern Scaling-Resistant Materials, ed.
Masjuki, “Compatibility of automotive materials in biodiesel: A review”, Fuel, 90 (2011) 922-931
Pint, Design strategies for new oxidation-resistant high temperature alloys in Developments in High-temperature Corrosion and Protection of Materials, Woodhead Publishing in Materials, Cambridge, England, 2008, pp.398-432
Bonnet, The Early Stages of the Scale Growth on FeCrAl(+RE)-Type Alumina Formers, Materials Science Forum, 696 (2011) 70-75