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Online since: December 2010
Authors: Jian Li, Kai Zhang, Xun Zhang Yu
Research on the Molding Parameters
for Low Pressure Sheet Molding Compounds
Jian Li1,a Xunzhang Yu2,b Kai Zhang3,c
1 Department of Materials Engineering, Hubei Automotive Industries Institute, Shiyan, 442002;
2 Shanghai FRP Research Institute, Shanghai, 201404;
3712th Research Institute, CSIC, Wuhan, 430064
aemail:lijian_0711@126.com; bemail: letgo508@163.com; cemail: kai__zhang@126.com
Key words: Low pressure sheet molding compound; Molding parameters; Fiber orientation; Flexural strength; Surface quality
Abstract.
The technology employed in molding SMC part is compression molding which consists of four steps: materials preparation, mold filling, curing, ejection and cooling.
Acknowledgements The authors express their thanks to Natural Science Foundation of Hubei Province (2009CDA037) and school foundation of Hubei Automotive Industries Institute (BK201001) for providing financial support for this work.
Journal of Materials Processing Technology Vol. 155~156 (2004), p. 1577~1582 [4] HUANG Gu.
Materials & Design Vol. 30 (2009), p. 1337~1340, in Chinese [5] P.T.
The technology employed in molding SMC part is compression molding which consists of four steps: materials preparation, mold filling, curing, ejection and cooling.
Acknowledgements The authors express their thanks to Natural Science Foundation of Hubei Province (2009CDA037) and school foundation of Hubei Automotive Industries Institute (BK201001) for providing financial support for this work.
Journal of Materials Processing Technology Vol. 155~156 (2004), p. 1577~1582 [4] HUANG Gu.
Materials & Design Vol. 30 (2009), p. 1337~1340, in Chinese [5] P.T.
Online since: January 2012
Authors: Alaaeldin H. Mustafa
The blades material was identified as IN-738 superalloy.
EDS was used to identify material chemical composition.
Journal of Engineering Failure Analysis 16 (2009), p 810-815
Materials and Design 30 (2009), p. 3121-3125
Materials Science and Engineering A203 (1995), p. 388-398 [7] Z.Mazur,A.Hernandez-Rossette, R.Garcia-Illescas and A.Luna-Ramirez.
EDS was used to identify material chemical composition.
Journal of Engineering Failure Analysis 16 (2009), p 810-815
Materials and Design 30 (2009), p. 3121-3125
Materials Science and Engineering A203 (1995), p. 388-398 [7] Z.Mazur,A.Hernandez-Rossette, R.Garcia-Illescas and A.Luna-Ramirez.
Online since: January 2022
Authors: Yun Hui Fang, Zhan Hua Chen, Xiao Fang Zhang, Zhi Jun Lin, Hao Chen, Yu Liang Ke, Xiu Xing Ma
Effect of Ether-Typed Polycarboxylate Superplasticizer on the Adsorption, Rheology and Concrete Properties
Yun-Hui FANG1,2,a,*, Zhan-Hua CHEN1,b, Xiao-Fang ZHANG1,c, Zhi-Jun LIN1,d, Hao CHEN1.e, Yu-Liang KE1.f and Xiu-Xing MA1,g
1KZJ New Materials Group CO., LTD., Fengling Road 760, Xiamen, Fujian, China.
2College of Civil Engineering and Architecture, Zhejiang University, Hangzhou, Zhejiang, China.
Experiments Materials.
The dosage of admixture in concrete was 0.5 wt% (solid content) according to the binding material.
Science and Technology of Concrete Admixtures[M]. 2016:219-256
Journal Building Materials, 2005, 8(4): 410-416
Experiments Materials.
The dosage of admixture in concrete was 0.5 wt% (solid content) according to the binding material.
Science and Technology of Concrete Admixtures[M]. 2016:219-256
Journal Building Materials, 2005, 8(4): 410-416
Online since: November 2010
Authors: Li Bin Guo, Zhi Jie Chen, Ji Hong Shen
With the rapid development in modern manufacturing process, Micro-EDM
has become especially valuable in the machining of super-tough, electrically conductive materials,
which is a process that is used to remove metal through the action of an electrical discharge of short
duration and high current density between the tool and the workpiece [1].
Blunt: Materials Processing Technology, Vol.148 (2004), p. 155 [2] Sanjeev Kumar, Rupinder Singh, T.P.
Sethi: Materials Processing Technology, Vol. 209 (2009), p. 3675 [3] H.F Li, X.Q Jiang and Z.
Piacentini: International Journal of Machine Tools and Manufacture, Vol. 33 (1995), p. 525 [6] R.
Truckenbrodt: Materials Processing Technology, Vol. 145 (2004), p. 40 [7] M.C.
Blunt: Materials Processing Technology, Vol.148 (2004), p. 155 [2] Sanjeev Kumar, Rupinder Singh, T.P.
Sethi: Materials Processing Technology, Vol. 209 (2009), p. 3675 [3] H.F Li, X.Q Jiang and Z.
Piacentini: International Journal of Machine Tools and Manufacture, Vol. 33 (1995), p. 525 [6] R.
Truckenbrodt: Materials Processing Technology, Vol. 145 (2004), p. 40 [7] M.C.
Online since: October 2012
Authors: Muhamad Nur Amalina, Mohamad Rusop Mahmood, N.A. Rasheid
The weak peak of Si, Na and O shows in the EDX spectra are correspond to the glass substrate material.
Komatsu, Exciton transitions in the hexagonal CuI microcrystallites grown on polymers, Journal of Luminescence 87-89 (200) 516-518
Tennakone, Recombination processes in dye-sensitized solid-state solar cells with CuI as the hole collector, Solar Energy Materials and Solar Cells 79 (2003) 249-255
Tennakone, Dye-Sensitized Solid-State Solar Cells: Use of Crystal Growth Inhibitors for Deposition of the Hole Collector, Chemistry of Materials 14 (2002) 954-955
Meng, Effects of film thickness on microstructure and electrical properties of the pyrite films, Materials Science and Engineering: B 137 (2007) 310-314
Komatsu, Exciton transitions in the hexagonal CuI microcrystallites grown on polymers, Journal of Luminescence 87-89 (200) 516-518
Tennakone, Recombination processes in dye-sensitized solid-state solar cells with CuI as the hole collector, Solar Energy Materials and Solar Cells 79 (2003) 249-255
Tennakone, Dye-Sensitized Solid-State Solar Cells: Use of Crystal Growth Inhibitors for Deposition of the Hole Collector, Chemistry of Materials 14 (2002) 954-955
Meng, Effects of film thickness on microstructure and electrical properties of the pyrite films, Materials Science and Engineering: B 137 (2007) 310-314
Online since: March 2004
Authors: Chang Won Kang, Hee Sup Jang, Seon Jin Kim
%Zn)3Hf Prepared by MA and SPS
Chang Won Kang
, Hee Sup Jang, Seon-Jin Kim
Division of Materials Science and Engineering, Hanyang University
17 Haengdang-dong, Seongdong-gu, Seoul, 133-791, Korea
Keywords: nanocrystalline intermetallics; Hafnium trialuminide; mechanical alloying; spark plasma
sintering
Abstract.
Introduction Al3X (X = Hf, Ti or Zr) intermetallic compounds have been considered as potential materials for high temperature structural applications due to the high specific strength, high melting point and good chemical stability.
Experimental Al, Hf and Zn powders with 99.9 % purity and average particle size of about 45� were used as the starting materials.
However, average grain sizes of both specimens were maintained below Journal Title and Volume Number (to be inserted by the publisher) 5 100nm even after annealing up to 1300 � for 1hr.
Shull: Nanostructured materials, 2, (1993) 213 [3] S.
Introduction Al3X (X = Hf, Ti or Zr) intermetallic compounds have been considered as potential materials for high temperature structural applications due to the high specific strength, high melting point and good chemical stability.
Experimental Al, Hf and Zn powders with 99.9 % purity and average particle size of about 45� were used as the starting materials.
However, average grain sizes of both specimens were maintained below Journal Title and Volume Number (to be inserted by the publisher) 5 100nm even after annealing up to 1300 � for 1hr.
Shull: Nanostructured materials, 2, (1993) 213 [3] S.
Online since: August 2011
Authors: Qian Wang, Dong Feng Zhou, Yong Sheng Zhu, Chun Tao Bai
At present, the technologies about the FED panel had been developed extensively, either for the panel manufacture process or for the panel structure and fabrication materials.
Applied surface science, Vol.256 (2010), p.7600
Key engineering materials.
Microelectronics journal.
Diamond and related materials.
Applied surface science, Vol.256 (2010), p.7600
Key engineering materials.
Microelectronics journal.
Diamond and related materials.
Online since: September 2013
Authors: M.M. Mohtar, Z.A. Ahmad, Z.M. Ripin
Ahmad3
1Center of Excellence Geopolymer and Green Technology (CEGeoGTech), School of Materials Engineering, Universiti Malaysia Perlis (UniMAP), P.O.
Turkiewicz: Applied Surface Science 254 (2008) p. 7410–7416
Ahmad: Journal of Scientific & Industrial Research Vol. 69 (2010) p.830-834
MacKenzie, Handbook of Aluminium - Volume 2 - Alloy Production and Materials Manufacturing, Marcel Dekker Inc., New York, 2003
Stephen: Materials Chemistry and Physics 99 (2006) p. 117–126
Turkiewicz: Applied Surface Science 254 (2008) p. 7410–7416
Ahmad: Journal of Scientific & Industrial Research Vol. 69 (2010) p.830-834
MacKenzie, Handbook of Aluminium - Volume 2 - Alloy Production and Materials Manufacturing, Marcel Dekker Inc., New York, 2003
Stephen: Materials Chemistry and Physics 99 (2006) p. 117–126
Online since: May 2014
Authors: Gerardo Antonio Rosas Trejo, C. Patiño-Carachure, R. Pérez, J. Luis López-Miranda, F. de la Rosa, M. Abatal
Liu, Moisture induced environmental embrittlement of Intermetallics, International Materials Reviews 46 (2001) 253-270
Rosas-Trejo, Hydrogen embrittlement assisted by ball-milling to obtain AlCuFe nanoparticles, Journal of Non-Crystalline Solids 355 (2009) 1713-1718
Rosas, Electron Microscopy Characterization of Humidity Ball-Milling AlCuFe Intermetallic Powders, Materials Research Society Symposium Proceedings 1242 (2010) 3-8
Rosas, DSC-TGA hydrogen evaluation during mechanical milling of AlFe intermetallic, Materials Science Forum 755 (2013) 105-110
Perez, On the nature of quasicrystal phase transitions in AlCuFe alloys, Materials Letters 36, (1998) 229-234
Rosas-Trejo, Hydrogen embrittlement assisted by ball-milling to obtain AlCuFe nanoparticles, Journal of Non-Crystalline Solids 355 (2009) 1713-1718
Rosas, Electron Microscopy Characterization of Humidity Ball-Milling AlCuFe Intermetallic Powders, Materials Research Society Symposium Proceedings 1242 (2010) 3-8
Rosas, DSC-TGA hydrogen evaluation during mechanical milling of AlFe intermetallic, Materials Science Forum 755 (2013) 105-110
Perez, On the nature of quasicrystal phase transitions in AlCuFe alloys, Materials Letters 36, (1998) 229-234
Online since: January 2014
Authors: Hélio Lucena Lira, Edcleide Maria Araújo, Dayanne Diniz Souza Morais, Keila Machado Medeiros, Luana Rodrigues Kojuch, Taciana Regina de Gouveia Silva
STUDY OF MORPHOLOGY MEMBRANE OF POLYMERIC NANOCOMPOSITES OBTAINED BY PHASES INVERSION
MEDEIROS Keila Machado1,a, SILVA Taciana Regina de Gouveia1,b, MORAIS Dayanne Diniz Souza1,c, KOJUCH Luana Rodrigues1,d, ARAUJO Edcleide Maria1,e and LIRA Helio Lucena1,f
1Department of Materials Engineering/UFCG - Av.
Experimental Materials For this study, it was used the following materials: Brasgel PA clay supplied by Bentonit União Nordeste Industry (BUN), located in Campina Grande-PB.
Acknowledgements The authors thank to the Bentonit União Nordeste (BUN), to Rhodia/SP, to LabMat (Laboratory of Materials Engineering /CCT/UFCG), to MCT/CNPq, CAPES/PROCAD-NF and PRH-25/ANP for financial support.
Anadão: Membrane Science and Technology.
Cheng: European Polymer Journal Vol. 42 (2006), p. 356
Experimental Materials For this study, it was used the following materials: Brasgel PA clay supplied by Bentonit União Nordeste Industry (BUN), located in Campina Grande-PB.
Acknowledgements The authors thank to the Bentonit União Nordeste (BUN), to Rhodia/SP, to LabMat (Laboratory of Materials Engineering /CCT/UFCG), to MCT/CNPq, CAPES/PROCAD-NF and PRH-25/ANP for financial support.
Anadão: Membrane Science and Technology.
Cheng: European Polymer Journal Vol. 42 (2006), p. 356