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Online since: May 2014
Authors: Hong Lei, Ting Jiang
Journal of the electrochemical society, 176-180 (2009) 156
Journal of The Electrochemical Society, 3907-3913 (2000) 147 [3] S.
Homma, et al: Journal of The Electrochemical Society. 3907 (2000) 147 (10) [4] M.
Applied Surface Science 4114–4118(2009) 255 [6] Yongjin Seo, Namhoon Kim, Woosun Lee.
Materials Letters, 1192~1197(2006) 60
Journal of The Electrochemical Society, 3907-3913 (2000) 147 [3] S.
Homma, et al: Journal of The Electrochemical Society. 3907 (2000) 147 (10) [4] M.
Applied Surface Science 4114–4118(2009) 255 [6] Yongjin Seo, Namhoon Kim, Woosun Lee.
Materials Letters, 1192~1197(2006) 60
Online since: July 2016
Authors: Ming Li, Jing Li, Yuan Hua Lin, Ce Wen Nan, Hui Ning Wang, Yang Shen, Ben Cang Cui
Thiel, Mechanical properties of polymer-infiltrated-ceramic-network materials, Dental Materials. 29 (2013) 419-426
Swain, A novel polymer infiltrated ceramic for dental simulation, Journal of Materials Science: Materials in Medicine. 22 (2011) 1639-1643
Shiozawa, et al, Mechanical properties of composite resin blocks for CAD/CAM, Dental Materials Journal. 33 (2014) 705-710
Guess, Interpenetrating network ceramic-resin composite dental restorative materials, Dental Materials. (2015)
Bowman, Recent Advances and Developments in Composite Dental Restorative Materials, Journal of Dental Research. 90 (2011) 402 -416
Swain, A novel polymer infiltrated ceramic for dental simulation, Journal of Materials Science: Materials in Medicine. 22 (2011) 1639-1643
Shiozawa, et al, Mechanical properties of composite resin blocks for CAD/CAM, Dental Materials Journal. 33 (2014) 705-710
Guess, Interpenetrating network ceramic-resin composite dental restorative materials, Dental Materials. (2015)
Bowman, Recent Advances and Developments in Composite Dental Restorative Materials, Journal of Dental Research. 90 (2011) 402 -416
Online since: December 2014
Authors: Jarnail Singh, Hazoor Singh
Table 1 Chemical composition of substrate materials [wt%].
Sawla, Solid particle erosion of al alloy and al-alloy composites: effect of heat treatment and angle of impingement, Journal of Metallurgical and Materials Transactions 35A (2004) 1369
Fontani, Erosion of ductile and brittle materials, Meccanica 36 (2002) 651–661
Babu, Predicting the dilution of plasma transferred arc hardfacing of stellite on carbon steel using response surface methodology, Journal of Metals and Materials International 14 (2008) 779-789
Prasad, A review paper on hardfacing processes and materials”, International Journal of Engineering Science and Technology 2(11) (2010) 6507-6510
Sawla, Solid particle erosion of al alloy and al-alloy composites: effect of heat treatment and angle of impingement, Journal of Metallurgical and Materials Transactions 35A (2004) 1369
Fontani, Erosion of ductile and brittle materials, Meccanica 36 (2002) 651–661
Babu, Predicting the dilution of plasma transferred arc hardfacing of stellite on carbon steel using response surface methodology, Journal of Metals and Materials International 14 (2008) 779-789
Prasad, A review paper on hardfacing processes and materials”, International Journal of Engineering Science and Technology 2(11) (2010) 6507-6510
Online since: February 2024
Authors: Anatoliy Mikhailov, Yevgenii Shtefan, Mikhail Shtern, Oleg Mikhailov
The main theoretical aspects of porous and powder materials technological processing is worked out.
The case 0 ≤ m ≤ 1 corresponds to sintered porous materials with imperfect contacts.
The given meaning can be generalized on more common case of rheological properties of considered materials.
Kadomsky, Mathematical Simulation of the Organic Disperse Material Mechanical Manufacturing, Eastern- European journal of enterprise technologies, Vol. 2, No 12(68), pp. 55-61, (2014)
Shtefan, Modelling of stamping of porous parts for obtaining forgings with the internal cone-shaped surface, Mathematical Models and Computing Experiment in Material Science: Frantsevich Institute for Problems of Materials Science NASU.
The case 0 ≤ m ≤ 1 corresponds to sintered porous materials with imperfect contacts.
The given meaning can be generalized on more common case of rheological properties of considered materials.
Kadomsky, Mathematical Simulation of the Organic Disperse Material Mechanical Manufacturing, Eastern- European journal of enterprise technologies, Vol. 2, No 12(68), pp. 55-61, (2014)
Shtefan, Modelling of stamping of porous parts for obtaining forgings with the internal cone-shaped surface, Mathematical Models and Computing Experiment in Material Science: Frantsevich Institute for Problems of Materials Science NASU.
Online since: October 2014
Authors: Yan Song Zhang, Ang Ding, Jing Hui Huang, Song Ji, Kun Ming Qian, Jie Hao, Chun Yang Qian, Zu Jun Zhang
Phase component materials
No
Comp.
Materials Science ang Engineering 1995, B3: 4204-4209
Materials Science and Technology. 1992. 3
Materials Science and Technology. 2013, 29(11): 1324-1327
Advanced Materials Research. 2013, 716: 276-280
Materials Science ang Engineering 1995, B3: 4204-4209
Materials Science and Technology. 1992. 3
Materials Science and Technology. 2013, 29(11): 1324-1327
Advanced Materials Research. 2013, 716: 276-280
Online since: April 2018
Authors: Mikhail G. Giorbelidze, Valery I. Bogdanovich
The solution for the powder materials heating and melting problem is an important part of the technology that allows to control the micro structure and properties of the coating.
Numerical Study of Particle Heating in a Plasma Jet, Journal of Engineering Physics and Thermophysics, 2 (2017) 397-404
The analysis of melting and refining process for in-flight particles in supersonic plasma spraying, Computational Materials Science, 103 (2015) 8-19
Mathematical simulation of surface heating during plasma spraying, IOP Conference Series: Materials Science and Engineering, 1 (2017), article number 012057
Metallographic Study of Mesostructure-Ordered Plasma Ceramic Coatings, Key Engineering Materials, 743 (2017) 118-123.
Numerical Study of Particle Heating in a Plasma Jet, Journal of Engineering Physics and Thermophysics, 2 (2017) 397-404
The analysis of melting and refining process for in-flight particles in supersonic plasma spraying, Computational Materials Science, 103 (2015) 8-19
Mathematical simulation of surface heating during plasma spraying, IOP Conference Series: Materials Science and Engineering, 1 (2017), article number 012057
Metallographic Study of Mesostructure-Ordered Plasma Ceramic Coatings, Key Engineering Materials, 743 (2017) 118-123.
Online since: May 2015
Authors: Panagiotis Kyratsis, Eva Dimou, Athanasios Manavis, Nikolaos Bilalis
Fashion design is a highly competitive and innovative field, which requires materials scientists and industrial designers to work on the cutting-edge of emerging technologies.
High quality materials can increase the added value to a great extent and increase the profitability of the company involved.
Bar-Cohen, Nature as a Model for Mimicking and Inspiration of New Technologies, International Journal of Aeronautical and Space Sciences. 13(1), (2012) 1-13
Mete, The creative role of sources of inspiration in clothing design, International Journal of Clothing Science and Technology. 18(4) (2006) 278 – 293
Parazzoli, Bio-inspired approaches to design smart fabrics, Materials and Science. 36 (2012) 829 – 839
High quality materials can increase the added value to a great extent and increase the profitability of the company involved.
Bar-Cohen, Nature as a Model for Mimicking and Inspiration of New Technologies, International Journal of Aeronautical and Space Sciences. 13(1), (2012) 1-13
Mete, The creative role of sources of inspiration in clothing design, International Journal of Clothing Science and Technology. 18(4) (2006) 278 – 293
Parazzoli, Bio-inspired approaches to design smart fabrics, Materials and Science. 36 (2012) 829 – 839
Online since: August 2014
Authors: Hui Ju Chang, Tian Ynan Wu, Yung Jin Weng
It is believed that additional materials are required to implement the energy education among the schools based on current teaching style.
In this study, energy teaching strategies can be classified into the following types with their connotations: (1) Collaborative learning: using team learning for a collaborative achievement and jigsaw method, teacher can group the students and divide the teaching materials into units.
Computer aided teaching, concept mapping, metaphor and analogy can be used to help the teaching activity; (3) Thinking approach: using some properly designed materials, we can enrich and philosophize the teaching for thinking with some utilities and help the students in their thinking.
We evaluated the number of science and living technology teachers in whole Taiwan region based on this ratio.
Journal of Elementary Education, Sep., 65-79.
In this study, energy teaching strategies can be classified into the following types with their connotations: (1) Collaborative learning: using team learning for a collaborative achievement and jigsaw method, teacher can group the students and divide the teaching materials into units.
Computer aided teaching, concept mapping, metaphor and analogy can be used to help the teaching activity; (3) Thinking approach: using some properly designed materials, we can enrich and philosophize the teaching for thinking with some utilities and help the students in their thinking.
We evaluated the number of science and living technology teachers in whole Taiwan region based on this ratio.
Journal of Elementary Education, Sep., 65-79.
Online since: September 2017
Authors: R.T. Akhmetova, L.N. Shafigullin, Alsu Yusupova
Sulfur Composite Materials Based on Sulfide Containing Industrial Waste
A.A.
Goretyi, Sulfur-based construction materials, Penza, 2003, 372 p [5] V.B.
Karchevskii, Elemental sulfur: from raw material to new substances and materials, Vestnik Bashkirskogo universiteta. 2 (2004) 31-34
Ahmetova, G., Medvedeva, Technology and properties of sulfide composition materials, Materials of 8th European Congress of Chemical Engineering ECCE/1st European Congress of Applied Biotechnology ECAB September 25-29, ICC Berlin, Germany, (2011)
Lakhno, Production and investigation of properties of sulfide composite materials based on technogenic sulfur waste with titanium chloride as an activator, Research Journal of Pharmaceutical, Biological and Chemical Sciences. 6 (2016) 1614-1619
Goretyi, Sulfur-based construction materials, Penza, 2003, 372 p [5] V.B.
Karchevskii, Elemental sulfur: from raw material to new substances and materials, Vestnik Bashkirskogo universiteta. 2 (2004) 31-34
Ahmetova, G., Medvedeva, Technology and properties of sulfide composition materials, Materials of 8th European Congress of Chemical Engineering ECCE/1st European Congress of Applied Biotechnology ECAB September 25-29, ICC Berlin, Germany, (2011)
Lakhno, Production and investigation of properties of sulfide composite materials based on technogenic sulfur waste with titanium chloride as an activator, Research Journal of Pharmaceutical, Biological and Chemical Sciences. 6 (2016) 1614-1619
Online since: April 2021
Authors: Alokesh Pramanik, Sujan Debnath, Abdul Hamid, Dominick Wong, Izman Sudin, Mahmood Anwar
In the study of composite materials, the matrix is the component that binds the filler particles to form the new material.
Reinforcing materials are a form of fillers, they are added into the matrix of the parent material to enhance its mechanical properties.
As such, polymeric composite materials have been a competitive alternative to typical metallic and alloy materials such as aluminum and steel [13].
Wang, Flame retardant polymeric nanocomposites through the combination of nanomaterials and conventional flame retardants Progress in Materials Science 114, 100687 (2020)
Lomov, Voids in fiber-reinforced polymer composites: A review on their formation, characteristics, and effects on mechanical performance Journal of Composite Materials 53, 1579-1669 (2018)
Reinforcing materials are a form of fillers, they are added into the matrix of the parent material to enhance its mechanical properties.
As such, polymeric composite materials have been a competitive alternative to typical metallic and alloy materials such as aluminum and steel [13].
Wang, Flame retardant polymeric nanocomposites through the combination of nanomaterials and conventional flame retardants Progress in Materials Science 114, 100687 (2020)
Lomov, Voids in fiber-reinforced polymer composites: A review on their formation, characteristics, and effects on mechanical performance Journal of Composite Materials 53, 1579-1669 (2018)