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Online since: October 2023
Authors: Jaume Gual, Kudama Habib, Jose V. Abellán-Nebot, Julio Serrano
Materials and Methods
The selection of materials for RT in injection molding has an impact on the injection molding process.
Therefore, high thermal conductivity is mandatory in mold materials.
Advantages and disadvantages of the techniques and materials analyzed.
Elangovan, “Mechanical behaviour of aluminum particulate epoxy composite–experimental study and numerical simulation,” International Journal of Mechanical and Materials Engineering, 7 (2012) 214–221
Verma, “Mechanical behaviour of copper and aluminium particles reinforced epoxy resin composites,” American J. of Materials Science, 5 (2015) 84–89
Therefore, high thermal conductivity is mandatory in mold materials.
Advantages and disadvantages of the techniques and materials analyzed.
Elangovan, “Mechanical behaviour of aluminum particulate epoxy composite–experimental study and numerical simulation,” International Journal of Mechanical and Materials Engineering, 7 (2012) 214–221
Verma, “Mechanical behaviour of copper and aluminium particles reinforced epoxy resin composites,” American J. of Materials Science, 5 (2015) 84–89
Online since: February 2013
Authors: Xi Wei Zhang, Xiao Hua Gu, Jia Liang Zhou, Bao Yun Xu
Study on preparation and characterization of modified montmorillonite with the aromatic isocyanate
XiaoHua GU 1,a, XiWei ZHANG1,b,JiaLiang ZHOU 1,c, Baoyun Xu 1,d,
1College of Material Science and Engineering, Qiqihar University, Qiqihar 161006, P.
It provides highly active terminal isocyanate groups in situ polymerization for the montmorillonite and smart materials.
Acknowledgements This work was financially supported by Natural Science Foundation of Heilongjiang Province (E201259).
[4] Ahmet Gultek, Turgay Seckin, Yunus Onal, et al.Preparation and Phenol captivating properties of polyvinyl montmorillonite biomaterials[J].Journal of Applied Polymer Science, 2001, 81, 2, 512-519
Journal of Beijing Institute of Technology, 2002,22,2,240-243.
It provides highly active terminal isocyanate groups in situ polymerization for the montmorillonite and smart materials.
Acknowledgements This work was financially supported by Natural Science Foundation of Heilongjiang Province (E201259).
[4] Ahmet Gultek, Turgay Seckin, Yunus Onal, et al.Preparation and Phenol captivating properties of polyvinyl montmorillonite biomaterials[J].Journal of Applied Polymer Science, 2001, 81, 2, 512-519
Journal of Beijing Institute of Technology, 2002,22,2,240-243.
Online since: May 2012
Authors: Sheng Han Li
At the end of life of building materials, disposal of the waste materials has become problems, such as environmental pollution and waste of resources.
Therefore, a concept of closed-loop material flows has been proposed, indicating the recovery of demolished materials so that materials collected at the deconstruction phase could be inked back into material flows in the same or different condition after recovery [5].
In this analysis, the amount of materials only for main structure use is considered and materials for inner decoration are not taken into account.
:Life-Cycle environmental performance of renewable building materials.
Wilson: Life-cycle analysis of wood products: Cradle to gate LCI of residential wood building materials, Journal of Wood Fiber Sci, Vol. 37(5) (2005), p.18-29 [23] M.J.
Therefore, a concept of closed-loop material flows has been proposed, indicating the recovery of demolished materials so that materials collected at the deconstruction phase could be inked back into material flows in the same or different condition after recovery [5].
In this analysis, the amount of materials only for main structure use is considered and materials for inner decoration are not taken into account.
:Life-Cycle environmental performance of renewable building materials.
Wilson: Life-cycle analysis of wood products: Cradle to gate LCI of residential wood building materials, Journal of Wood Fiber Sci, Vol. 37(5) (2005), p.18-29 [23] M.J.
Online since: January 2014
Authors: Peng Yue, Chen Shi, Jian Ping Li
Materials Science and Engineering A, 1993, 173(1-2): 169-172
Materials Science and Engineering A, 2007, 448(1-2): 189–203.
Journal of Huazhong University of Science and Technology(Natural Science Edition), 2010, 38(12): 126-132.
Materials Science and Engineering A, 2003, 341(1-2) : 296-306
Materials and Design, 2009, 30(7): 2685–2692.
Materials Science and Engineering A, 2007, 448(1-2): 189–203.
Journal of Huazhong University of Science and Technology(Natural Science Edition), 2010, 38(12): 126-132.
Materials Science and Engineering A, 2003, 341(1-2) : 296-306
Materials and Design, 2009, 30(7): 2685–2692.
Online since: February 2006
Authors: Yasuo Marumo, Hiroyuki Saiki, Hiroshi Nishitake, Masahiro Hazama, Fuminori Sakata
Deformation Characteristics of Epoxy Compounds
for Semiconductor Integrated Circuits
Hiroyuki Saiki1, Yasuo Marumo
1a, Hiroshi Nishitake2,
Masahiro Hazama1, Fuminori Sakata
1
1
Department of Mechanical Engineering and Materials Science, Kumamoto University,
2-39-1 Kurokami, Kumamoto 860-8555, Japan
2
Sony Semiconductor Kyusyu Ltd, Japan
a
marumo@gpo.kumamoto-u.ac.jp
Keywords: Deformation characteristics, Epoxy molding compounds, IC package
Abstract.
Barrett, C.O'Mathuna, Journal of Materials Processing Technology, 54(1995)199-204
[7] S.Yi, H.Hilton, M.F.Ahmad, Mechanics of Composite Materials Structures, 5(1998)81-101
Schanin, Polymer Engng. and Science, 23-15 (1983) 849-859
Materials and Technology, 93-3 (1976), 193-202.
Barrett, C.O'Mathuna, Journal of Materials Processing Technology, 54(1995)199-204
[7] S.Yi, H.Hilton, M.F.Ahmad, Mechanics of Composite Materials Structures, 5(1998)81-101
Schanin, Polymer Engng. and Science, 23-15 (1983) 849-859
Materials and Technology, 93-3 (1976), 193-202.
Online since: September 2024
Authors: Hidenori Ohashi, Ahmed S.G. Khalil, Mohsen A. Hassan, Felix A. Kwarteng
Methodology
Materials.
Overall, the prepared activated biochar presents much better statistics than previously reported materials.
Bimaghra: Materials Today: Proceedings. (2022) 66:259-67
Cha: Journal of Dispersion Science and Technology. (2019)
Urabe: International Journal of Environmental Science and Development. 2013 1;4(5):558
Overall, the prepared activated biochar presents much better statistics than previously reported materials.
Bimaghra: Materials Today: Proceedings. (2022) 66:259-67
Cha: Journal of Dispersion Science and Technology. (2019)
Urabe: International Journal of Environmental Science and Development. 2013 1;4(5):558
Online since: August 2007
Authors: Jong Taek Yeom, Nho Kwang Park, Dong Geun Lee, Jeoung Han Kim, Eun Jeoung Jung, Seung Sik Choi, Chong Soo Lee
Process Design of Profile Ring Rolling for Turbine Diaphragm
using FEM Simulation
Jong Taek Yeom
1,2, a, Eun Jeoung Jung1,b, Jeoung Han Kim
1,c, Dong-Geun
Lee
1,d, Nho-Kwang Park1,e , Seung Sik Choi3,f and Chong Soo Lee2,g
1
Materials Technology Institute, KIMM, Changwon 641-010, South Korea
2
Department of Materials Science and Engineering, POSTECH, Pohang 790-784, South Korea
3
Taewoong Co., Busan 618-270, South Korea
a
yjt96@kmail.kimm.re.kr, beuny012@nate.com, ckjh1754@kmail.kimm.re.kr,
d
leechodg@kmail.kimm.re.kr, epnk@kmail.kimm.re.kr, fseungsik.choi@taewoong.com,
g
chlee@postech.ac.kr
Keywords: Profile ring rolling, Turbine Diaphragm, Finite Element Method, Dynamic Materials
Model, Optimum Process Design
Abstract.
Based on the compression test results of the low alloy steel, deformation processing map was generated using the combination of the dynamic materials model (DMM) and stable or unstable forming criteria.
Profiled ring shape for turbine diagram. 4188 3218 4188 3218 Characterization of Processing Maps using Dynamic Materials Model(DMM) In order to determine the optimum condition in profile ring rolling process of low carbon steel, the processing maps was generated using the combination of the dynamic materials model (DMM) [3] and stable or unstable forming criteria.
Acknowledgement This research was partly made by Comprehensive Materials and Components Technology Support Program and also partly supported by a grant through 2003 National Research Laboratory Program.
Lee: submitted to Journal of Materials Processing Technology (2006) [2] R.
Based on the compression test results of the low alloy steel, deformation processing map was generated using the combination of the dynamic materials model (DMM) and stable or unstable forming criteria.
Profiled ring shape for turbine diagram. 4188 3218 4188 3218 Characterization of Processing Maps using Dynamic Materials Model(DMM) In order to determine the optimum condition in profile ring rolling process of low carbon steel, the processing maps was generated using the combination of the dynamic materials model (DMM) [3] and stable or unstable forming criteria.
Acknowledgement This research was partly made by Comprehensive Materials and Components Technology Support Program and also partly supported by a grant through 2003 National Research Laboratory Program.
Lee: submitted to Journal of Materials Processing Technology (2006) [2] R.
Online since: October 2012
Authors: Xiao Chen Wang, Fei He, An Min Yin, You Zhao Sun, Quan Yang
[4] W.M.Mao, Y.N.Yu, Y.P.Zeng: Journal of University of Science and Technology Beijing, Vol.18 (1996) No.2, p.136.
[10] L.Chen, W.M.Mao, H.P.Feng, Y.N.Yu: Materials Science Forum, Vols.408-412(2002), p.227
[13] W.M.Mao, X.M.Zhang: Texture Quantitative Analysis of Crystalline Materials (Metallurgical Industry Press, China 1993).
[14] H.J.Bunge: Texture Analysis in Material Science (Butterworth, London 1982)
[16] L.Chen, W.M.Mao, H.P.Feng, Y.N.Yu: Journal of University of Science and Technology Beijing, Vol. 25(2003) No. 2, p.156.
[10] L.Chen, W.M.Mao, H.P.Feng, Y.N.Yu: Materials Science Forum, Vols.408-412(2002), p.227
[13] W.M.Mao, X.M.Zhang: Texture Quantitative Analysis of Crystalline Materials (Metallurgical Industry Press, China 1993).
[14] H.J.Bunge: Texture Analysis in Material Science (Butterworth, London 1982)
[16] L.Chen, W.M.Mao, H.P.Feng, Y.N.Yu: Journal of University of Science and Technology Beijing, Vol. 25(2003) No. 2, p.156.
Online since: September 2013
Authors: Hai Yan Wu, Yan Song, Xiao Hong Yang
Materials and methods
Materials and reagents.
West China Journal of Pharmaceutical Sciences,2012,6
Study on Leucaena leaf flavonoids [J]; Journal of Hainan Normal University;2008 02 [5] LI J X.
Isolation and identification of a sterol composition parsley [J]. traditional Chinese medicinal materials,2000,23(9):546
Henan Vocational Technical Teachers College Journal,2004,32(1):48-50.
West China Journal of Pharmaceutical Sciences,2012,6
Study on Leucaena leaf flavonoids [J]; Journal of Hainan Normal University;2008 02 [5] LI J X.
Isolation and identification of a sterol composition parsley [J]. traditional Chinese medicinal materials,2000,23(9):546
Henan Vocational Technical Teachers College Journal,2004,32(1):48-50.
Online since: February 2019
Authors: T.A. Khezhev, Yu.V. Pukharenko, Sergei V. Klyuev, Alexander V. Klyuev
Fibre concretes with finely fibrous fillers, Low-rise construction in the framework of the national project “affordable and comfortable housing for citizens of Russia: technologies and materials, problems and development prospects in Volgograd region” materials of the international scientific practical conference. (2009) 89–90
High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
Fine-Grain concrete reinforced by polypropylene fiber, Research Journal of Applied Sciences. 10 (2015) 624–628
The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (2015) 701 – 706
Disperse reinforced steel fibre concrete // Building materials. 9 (2006) 54–55
High-Strength Fiber-Reinforced Concrete Containing Technogenic Raw Materials and Composite Binders with Use of Nanodispersed Powder, Research Journal of Applied Sciences. 9 (2014) 1153–1157
Fine-Grain concrete reinforced by polypropylene fiber, Research Journal of Applied Sciences. 10 (2015) 624–628
The Development of textile fine-grained fiber concrete using technogenic raw materials, Research Journal of Applied Sciences. 10 (2015) 701 – 706
Disperse reinforced steel fibre concrete // Building materials. 9 (2006) 54–55