Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: July 2020
Authors: Francesco La Via, Peter J. Wellmann, Marcin Zielinski, Marco Mauceri, Michael Schöler, Philipp Schuh, Johannes Steiner, Manuel Kollmuss
Materials Science in Semiconductor Processing, 2018. 78: p. 57-68
Materials Science Forum, 2015. 821-823: p. 77-80
Materials Science Forum, 2019. 963: p. 157-160
Materials (Basel), 2019. 12(13)
Materials Science Forum, 2014. 778-780: p. 457-460
Materials Science Forum, 2015. 821-823: p. 77-80
Materials Science Forum, 2019. 963: p. 157-160
Materials (Basel), 2019. 12(13)
Materials Science Forum, 2014. 778-780: p. 457-460
Online since: October 2012
Authors: Hyun Do Yun, Young Jae Song
A series of studies have been carried out to investigate the effect of shrinkage compensation of HPFRCCs with richer mixtures on the mechanical properties and to propose the optimum amount of EXA to improve the mechanical properties of SHCC materials [4].
Experimental Investigation Mixture Proportion and Materials.
**Tensile strain at the peak tensile stress To investigate the mechanical properties of SHCC materials, the shrinkage test, compressive and direct tensile tests were conducted on the two SHCC and concrete mixtures.
Li; ACI Structural Journal, Vol. 99, No. 1 (2002), p. 104 [2] H.D.
Yun; Journal of the Korea Concrete Institute Vol. 22, No. 5 (2010), p. 617 [5] H.bischoff; Journal of materials in civil engineering, Vol.15, No. 2 (2003), p.174-482 [6] M.p.
Experimental Investigation Mixture Proportion and Materials.
**Tensile strain at the peak tensile stress To investigate the mechanical properties of SHCC materials, the shrinkage test, compressive and direct tensile tests were conducted on the two SHCC and concrete mixtures.
Li; ACI Structural Journal, Vol. 99, No. 1 (2002), p. 104 [2] H.D.
Yun; Journal of the Korea Concrete Institute Vol. 22, No. 5 (2010), p. 617 [5] H.bischoff; Journal of materials in civil engineering, Vol.15, No. 2 (2003), p.174-482 [6] M.p.
Online since: November 2012
Authors: Hui Fen Liu, Jian Chao Hao, Xian Zhi Lu, Xiu Ping Tian
The caisson is composed of ceramsite box, three matrix materials (medical stone, limestone and ceramic) were installed, four kinds of plants (Ceratophyllum demersum, Myriophyllum verticillatum, Cyperus alternifolius and Iris pseudacorus) were planted.
Environmental Science & Technology, 2007, 30(4):4-6.
Environmental Science & Technology, 2009, 32(6):53-58.
Journal of Heilongjiang Bayi Agricultural University, 2008, 12:19-22.
Journal of Shenyang Jianzhu University (Natural Science), 2006, 22(6):985-988.
Environmental Science & Technology, 2007, 30(4):4-6.
Environmental Science & Technology, 2009, 32(6):53-58.
Journal of Heilongjiang Bayi Agricultural University, 2008, 12:19-22.
Journal of Shenyang Jianzhu University (Natural Science), 2006, 22(6):985-988.
Online since: December 2013
Authors: Jin He Zhang, Hong Tao Jiang, Lu Yang, Ze Hua Liu
Although currently GDP is the economic output indictor which is well-known for all and most statistical materials are complete.
Journal Of Natural Resources.
Journal of Cleaner Production, 10(1), 2002, pp.57-67
Emergy as a tool for Ecodesign: evaluating materials selection for beverage packages in Brazil.
Resource Science.
Journal Of Natural Resources.
Journal of Cleaner Production, 10(1), 2002, pp.57-67
Emergy as a tool for Ecodesign: evaluating materials selection for beverage packages in Brazil.
Resource Science.
Online since: April 2011
Authors: Stefania Rizzuti, Paolo Claudio Priarone, Luca Settineri, Giovanna Rotella
Austin: Current opinion in solid state and materials science, Vol. 4 (1999), p 239-242
Tetsui: Current opinion in solid state and materials science, Vol. 4 (1999), p 243-248
Aspinwall: Journal of materials processing technology, Vol. 118 (2001), p 143-150
[9] Cormier, D., Harrysson, O., Mahale, T., West, H., 2007, Research Letters in Materials Science, Hindawi Publishing Corporation, 2007:1-4
Sheng: Journal of Materials Processing Technology, Vol. 53/3 (1995), p. 736-758
Tetsui: Current opinion in solid state and materials science, Vol. 4 (1999), p 243-248
Aspinwall: Journal of materials processing technology, Vol. 118 (2001), p 143-150
[9] Cormier, D., Harrysson, O., Mahale, T., West, H., 2007, Research Letters in Materials Science, Hindawi Publishing Corporation, 2007:1-4
Sheng: Journal of Materials Processing Technology, Vol. 53/3 (1995), p. 736-758
Online since: August 2008
Authors: Pai Shan Pa
The materials uses
nickel chromium molybdenum steel forgings for general use (SFNCM-740).
References [1] Adel Mahmood Hassan: The effects of ball- and roller-burnishing on the surface roughness and hardness of some non-ferrous metals, Journal of Materials Processing Technology, 72(15) (1997), Pages 385-391 [2] A.M.
Maqableh: The effect of initial burnishing parameters on non-ferrous components, Journal of Materials Processing Technology, Vol.102 (2000), p.115-121
Pa: Design of Forming Sheet Electrodes in Electrochemical Finishing of ZDC2 Castings Surface, Materials Science Forum, Vol. 532-533 (2006), p965-968
Pa: Design of Completely Inserted and Feeding Electrode for Female Screw in Electrochemical Finishing, Key Engineering Materials, Vols. 329 (2006), p231-236
References [1] Adel Mahmood Hassan: The effects of ball- and roller-burnishing on the surface roughness and hardness of some non-ferrous metals, Journal of Materials Processing Technology, 72(15) (1997), Pages 385-391 [2] A.M.
Maqableh: The effect of initial burnishing parameters on non-ferrous components, Journal of Materials Processing Technology, Vol.102 (2000), p.115-121
Pa: Design of Forming Sheet Electrodes in Electrochemical Finishing of ZDC2 Castings Surface, Materials Science Forum, Vol. 532-533 (2006), p965-968
Pa: Design of Completely Inserted and Feeding Electrode for Female Screw in Electrochemical Finishing, Key Engineering Materials, Vols. 329 (2006), p231-236
Online since: June 2020
Authors: Xu Peng Gu, Ming Yang Luo, Xiao Pan Zhang, Tao Qu, Lei Shi, Fei Lv, Yuan Tian, Hao Du
Materials Review, 2009, 23(11): 73-76
Materials Review, 2015, 29(17):79-83
Chinese Journal of Vacuum Science and Technology, 2011, 31(3):341-347
Chinese Journal of Vacuum Science and Technology, 2012, 32(11): 77-83
Materials Reports, 2019, 33(08):159-164
Materials Review, 2015, 29(17):79-83
Chinese Journal of Vacuum Science and Technology, 2011, 31(3):341-347
Chinese Journal of Vacuum Science and Technology, 2012, 32(11): 77-83
Materials Reports, 2019, 33(08):159-164
Online since: July 2017
Authors: B. Ravi Kumar
Introduction
Nanoscale engineering materials have significant mechanical, electrical and thermal performances that are superior to the conventional structural materials.
Carbon nanotubes are the strongest and stiffest materials yet discovered in terms of tensile strength and elastic modulus respectively [2],[7], and [13].
Journal of applied physics 54.9 (1983): 4703-4710
International Journal of Engineering Science 45.2 (2007): 288-307
Computational Materials Science 50.3 (2011): 1052-1056
Carbon nanotubes are the strongest and stiffest materials yet discovered in terms of tensile strength and elastic modulus respectively [2],[7], and [13].
Journal of applied physics 54.9 (1983): 4703-4710
International Journal of Engineering Science 45.2 (2007): 288-307
Computational Materials Science 50.3 (2011): 1052-1056
Online since: January 2012
Authors: Yong Xiang Fu, Chuan Sheng Wang, Rui Qin Wang, Yuan Wang
Study on Curing Process of Resin Nanocomposites
Chuansheng Wang1a, Ruiqin Wang1b, Yuan Wang1c and Yongxiang Fu1d
1Shandong Provincial Key Laboratory of Polymer Material Advanced Manufacturing Technology
College of Electromechanical Engineering, Qingdao University of Science & Technology, Qingdao, 266061, Shandong, China
awcsmta@qust.edu.cn, bKing.3-3@163.com, cwangkatze@126.com
Key words: resin nanocomposites; curing process; epoxy resin
Abstract.
In order to get an optimum performance of composite materials, it is of crucial importance to select the best curing process, on condition that resin and curing agent system is determined.
Finally we determined the best curing process range of the system. 1 Introduction This study calculates the reaction kinetics parameters combined with its curable DSC testing technology, and confirms the best curing process of the nanoSiO2 / resin composite materials synthesis, and provides the theoretical foundation for practical application, through the investigation of different resin nanocomposites prepared by different methods ( ordinary ultrasound method, the shock waves method), and combined with the preliminary results of nanometerSiO2 / epoxy resin composite material. 2 The specimen preparation Raw material: Epoxy resin(E-44)6101, Epoxy value 0.41~0.47 eq/100g; nmSiO2 (processed by silane coupling, average particle diameter30±5nm, specific surface area 160±20 m2/g) ,the product code SSl-5702; Methyl tetrahydrophthalic anhydride (MeTHPA).
Therefore, by calculating and analyzing the curing reaction kinetics parameters, we can confirme the best curing process for the nanoSiO2 /epoxy resin composite material synthesis is 110℃ with heat preservation 1hr, and 150℃ with heat preservation 2hrs.
Acknowledgement: Thanks for the supported by National Natural Science foundation of China(50375075) References [1] Y.X.Fu: Reserch on Preparation and Performance of Resin Nanocomposite by Liouid Shock Wave, Ms D Thesis.Qingdao; Qingdao University of Science & Technology (2010) [2] X.B.Chen: Hi-Tech Fiber & Application Vol.27, No.6 (2002), p. 15-20 [3] D.S.Fu ,G.M.Zhu and J.N.Han: China Adhesives Vol.12, No.3 (2003), p. 51-53 [4] X.L.Song ,H.B.Wang and X.L.Wu: Chemical Industry and Engineering Progress Vol.24, No.3(2005), p.24-27 [5] M.L.Zhang ,L.G.Ding and X.Y.Jing: Applied Science and Technology Vol.31, No.6 (2004), p. 64-66 [6] K.N.Madhusoodanan and S.Varghese: Journal of Applied Polymer Science Vol.102,No.3(2006), p.2537-2543 [7] Y.F.Lu ,M.C.Lu and J.M.Huang .et.a1: Journal of the American Chemical Society Vol.125, No.5 (2003), p. 1269-1277 [8] L.Elias ,E.FenouiIlot and J.C.Majeste: Polymer Vol.48, No.20 (2007), p. 6029-6040
In order to get an optimum performance of composite materials, it is of crucial importance to select the best curing process, on condition that resin and curing agent system is determined.
Finally we determined the best curing process range of the system. 1 Introduction This study calculates the reaction kinetics parameters combined with its curable DSC testing technology, and confirms the best curing process of the nanoSiO2 / resin composite materials synthesis, and provides the theoretical foundation for practical application, through the investigation of different resin nanocomposites prepared by different methods ( ordinary ultrasound method, the shock waves method), and combined with the preliminary results of nanometerSiO2 / epoxy resin composite material. 2 The specimen preparation Raw material: Epoxy resin(E-44)6101, Epoxy value 0.41~0.47 eq/100g; nmSiO2 (processed by silane coupling, average particle diameter30±5nm, specific surface area 160±20 m2/g) ,the product code SSl-5702; Methyl tetrahydrophthalic anhydride (MeTHPA).
Therefore, by calculating and analyzing the curing reaction kinetics parameters, we can confirme the best curing process for the nanoSiO2 /epoxy resin composite material synthesis is 110℃ with heat preservation 1hr, and 150℃ with heat preservation 2hrs.
Acknowledgement: Thanks for the supported by National Natural Science foundation of China(50375075) References [1] Y.X.Fu: Reserch on Preparation and Performance of Resin Nanocomposite by Liouid Shock Wave, Ms D Thesis.Qingdao; Qingdao University of Science & Technology (2010) [2] X.B.Chen: Hi-Tech Fiber & Application Vol.27, No.6 (2002), p. 15-20 [3] D.S.Fu ,G.M.Zhu and J.N.Han: China Adhesives Vol.12, No.3 (2003), p. 51-53 [4] X.L.Song ,H.B.Wang and X.L.Wu: Chemical Industry and Engineering Progress Vol.24, No.3(2005), p.24-27 [5] M.L.Zhang ,L.G.Ding and X.Y.Jing: Applied Science and Technology Vol.31, No.6 (2004), p. 64-66 [6] K.N.Madhusoodanan and S.Varghese: Journal of Applied Polymer Science Vol.102,No.3(2006), p.2537-2543 [7] Y.F.Lu ,M.C.Lu and J.M.Huang .et.a1: Journal of the American Chemical Society Vol.125, No.5 (2003), p. 1269-1277 [8] L.Elias ,E.FenouiIlot and J.C.Majeste: Polymer Vol.48, No.20 (2007), p. 6029-6040
Online since: July 2014
Authors: Yi Min Zhang, Wei Huang, Shen Xu Bao
Experimental
Materials
A commercial PVDF (polyvinylidene fluoride) hollow fiber membrane was employed in this work.
Journal of Membrane Science Vol. 250 (2005), p. 269-276 [6] Z.
Journal of Membrane Science Vol. 255 (2005), p. 79-87 [8] G.
Journal of Membrane Science Vol. 375 (2011), p. 211-219 [9] K.W.
Journal of Membrane Science Vol. 285 (2006), p. 4-29 [11] Z.W.
Journal of Membrane Science Vol. 250 (2005), p. 269-276 [6] Z.
Journal of Membrane Science Vol. 255 (2005), p. 79-87 [8] G.
Journal of Membrane Science Vol. 375 (2011), p. 211-219 [9] K.W.
Journal of Membrane Science Vol. 285 (2006), p. 4-29 [11] Z.W.