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Online since: June 2014
Authors: Hong Xun Wang, Wei Fang Zhang, Tian Jiao Liu
Approximately 300t ZrO2 materials are used on TBCs.
Performance Improvements in TBCs Materials.
Journal of Materials Processing Technology. 2007, 187-188:537-541
Materials Review, 2005, 19(4): 42
Materials Science and Engineering A, 2003, 345:172-178.
Performance Improvements in TBCs Materials.
Journal of Materials Processing Technology. 2007, 187-188:537-541
Materials Review, 2005, 19(4): 42
Materials Science and Engineering A, 2003, 345:172-178.
Online since: October 2010
Authors: Prabir Sarker
Materials.
Lopez-Hombrados: ACI Materials Journal Vol.103 (2006), p. 106 – 112
Rangan: ACI Materials Journal, Vol. 101, (2004), p. 467-472
Lukey: Journal of Materials Science, Vol. 42 (2007), p. 3107-3116
Rangan: Journal of Material Science Vol. 42, No. 9 (2007), p. 3124-3130
Lopez-Hombrados: ACI Materials Journal Vol.103 (2006), p. 106 – 112
Rangan: ACI Materials Journal, Vol. 101, (2004), p. 467-472
Lukey: Journal of Materials Science, Vol. 42 (2007), p. 3107-3116
Rangan: Journal of Material Science Vol. 42, No. 9 (2007), p. 3124-3130
Online since: January 2017
Authors: Ling Li Wang, Shi Quan Feng, Hai Yan Wang
Xiong: Materials, Vol. 8 (2015) No.6, p.3101
Umar: Materials Express, Vol. 5 (2015) No.1, p.3
Hu: Journal of Materials Chemistry A, Vol. 1 (2013) No.29, p.8445
Jana: Progress In Materials Science, Vol. 54 (2009) No.1, p.89
Lee:Materials Science and Engineering: B Vol. 107 (2004) No.1, p.301.
Umar: Materials Express, Vol. 5 (2015) No.1, p.3
Hu: Journal of Materials Chemistry A, Vol. 1 (2013) No.29, p.8445
Jana: Progress In Materials Science, Vol. 54 (2009) No.1, p.89
Lee:Materials Science and Engineering: B Vol. 107 (2004) No.1, p.301.
Online since: April 2015
Authors: Chun Li Wang, Jian Hua Wu
Experimental Details
The materials tested were Grade 2 commercially pure titanium (0.024% N, 0.024% C, 0.16% O, 0.111% Fe, 0.001% H, Bal.
Moreover, the three materials showed a more important change of self-corrosion potential when temperature changed from 35 to 65°C than that from 0 to 35°C.
Accordingly, the corrosion rates (CRs) of the three materials increased slightly at temperature from 0 up to 35°C, and then CRs increased greatly above 35°C.
Sargeant: Metals and Materials, Vol. 8(1992), p. 378-382 [2] R.
Gebert: Journal of Applied Electrochemistry, Vol. 33(2003), p. 795-805
Moreover, the three materials showed a more important change of self-corrosion potential when temperature changed from 35 to 65°C than that from 0 to 35°C.
Accordingly, the corrosion rates (CRs) of the three materials increased slightly at temperature from 0 up to 35°C, and then CRs increased greatly above 35°C.
Sargeant: Metals and Materials, Vol. 8(1992), p. 378-382 [2] R.
Gebert: Journal of Applied Electrochemistry, Vol. 33(2003), p. 795-805
Online since: September 2013
Authors: R. Nagarajan, Swaminathan Ponmani, Jitendra Sangwai
Nanotechnology is the study of science of materials at nanoscale which help in enhancing the performance of processes.
Nanoparticles are the nano-sized materials in the range of 1-100 nm.
According to the particles size, they are used for applications in many research areas, such as, pharmaceuticals, materials, energy, and environments.
This may be in terms of development of better materials, drilling fluids, chemical agents for EOR or for exploration and development of an oilfield.
McGhee, Nanowire solar cells, Annual Review of Materials Research, 41, ( 2011 ), 269-295
Nanoparticles are the nano-sized materials in the range of 1-100 nm.
According to the particles size, they are used for applications in many research areas, such as, pharmaceuticals, materials, energy, and environments.
This may be in terms of development of better materials, drilling fluids, chemical agents for EOR or for exploration and development of an oilfield.
McGhee, Nanowire solar cells, Annual Review of Materials Research, 41, ( 2011 ), 269-295
Online since: June 2011
Authors: Maher Baili, Daniel Lallement, Vincent Wagner, Gilles Dessein, Julien Sallaberry
Le Maître, "Machinability of titanium alloys (Ti6Al4V and Ti-5553)", International Journal of Materials Processing Technology Research, Vol. 209-5, pp. 2223-2230, 2009
Liu, “Crater Wear Modeling in Conventional Speed Machining”, International Journal of Advanced Materials Research, Vol. 97-101, pp.1891-1894, 2010
Jackson, “Thermomechanical processing of Ti–5Al–5Mo–5V–3Cr”, Materials Science and Engineering.
Lallement, “Experimental study of coated carbide tools behavior”, International Journal of Machining and Machinability of Materials, in press, 2009
Tounsi, “ Identification of Material Constitutive Laws for Machining-Part II: Generation of the Constitutive Data and Validation of the Constitutive Law”, Journal of Manufacturing Science and Engineering, Vol. 132, N°5, 2010
Liu, “Crater Wear Modeling in Conventional Speed Machining”, International Journal of Advanced Materials Research, Vol. 97-101, pp.1891-1894, 2010
Jackson, “Thermomechanical processing of Ti–5Al–5Mo–5V–3Cr”, Materials Science and Engineering.
Lallement, “Experimental study of coated carbide tools behavior”, International Journal of Machining and Machinability of Materials, in press, 2009
Tounsi, “ Identification of Material Constitutive Laws for Machining-Part II: Generation of the Constitutive Data and Validation of the Constitutive Law”, Journal of Manufacturing Science and Engineering, Vol. 132, N°5, 2010
Online since: April 2019
Authors: Swetha Madhusudanan, Lilly Rose Amirtham, S. Nallusamy
Alternative building materials using industrial and agricultural waste, Key Engineering Materials, 650 (2015) 01-12
Effect of micro silica on the strength of concrete with ordinary Portland cement, Research Journal of Engineering Science, 1(3) (2012) 1-4
Application of small scale experimental models for thermal comfort assessment of sustainable building materials, International Journal of Civil Engineering, 12(4) (2014) 01-08
Development of sustainable construction material using construction and demolition waste, Indian Journal of Engineering and Material Science, 21 (2014) 451-457
Properties of concrete incorporating silica fume and nano SiO2, Indian Journal of Science and Technology, 6(1) (2013) 45-52
Effect of micro silica on the strength of concrete with ordinary Portland cement, Research Journal of Engineering Science, 1(3) (2012) 1-4
Application of small scale experimental models for thermal comfort assessment of sustainable building materials, International Journal of Civil Engineering, 12(4) (2014) 01-08
Development of sustainable construction material using construction and demolition waste, Indian Journal of Engineering and Material Science, 21 (2014) 451-457
Properties of concrete incorporating silica fume and nano SiO2, Indian Journal of Science and Technology, 6(1) (2013) 45-52
Online since: February 2019
Authors: Denis B. Solovev, Evgenij Korolev, Ruslan A. Ibragimov, T.R. Deberdeev, V.V. Leksin
Improving the efficiency of construction composites is a relevant problem for modern-day material science.
Introduction The production of construction materials can be made more efficient by implementing new devices with low specific energy and material consumption while featuring a high degree of impact on the processed material.
Effects of supplementary cementitious materials on apparent activation energy.
Journal of ASTM International. 7 (2010) 46-51
Advance cement based materials. 1 (1993) 12–21
Introduction The production of construction materials can be made more efficient by implementing new devices with low specific energy and material consumption while featuring a high degree of impact on the processed material.
Effects of supplementary cementitious materials on apparent activation energy.
Journal of ASTM International. 7 (2010) 46-51
Advance cement based materials. 1 (1993) 12–21
Online since: March 2022
Authors: Norshaheeda Mohd Zainal@Zulkifli, Agus Geter Edy Sutjipto
They were mixed in desire composition of starting materials.
Materials and Experiment Method Materials.
Fatile, Characterization of Vitrified Porcelain Tiles using Feldspar from Three Selected Deposits in Nigeria, European International Journal of Science and Technology. 3 (2014) No. 5
[4] H Baccour, M Medhioub, F Jamoussi, T Mhiri, Influence of firing temperature on the ceramic properties of Triassic clays from Tunisia, Journal of Materials Processing Technology. 209 (6) (2009) 2812-2817
Sayong Clay Material for Biocatalyst Immobilization, Materials Science Forum. 737 (2013) 145-152
Materials and Experiment Method Materials.
Fatile, Characterization of Vitrified Porcelain Tiles using Feldspar from Three Selected Deposits in Nigeria, European International Journal of Science and Technology. 3 (2014) No. 5
[4] H Baccour, M Medhioub, F Jamoussi, T Mhiri, Influence of firing temperature on the ceramic properties of Triassic clays from Tunisia, Journal of Materials Processing Technology. 209 (6) (2009) 2812-2817
Sayong Clay Material for Biocatalyst Immobilization, Materials Science Forum. 737 (2013) 145-152
Online since: April 2014
Authors: Quan Jiang, Li Ping Ma, Ping Zhao, Chun Zhi Zhao
Comparative Study on Life Cycle Assessment for Typical Building Thermal Insulation Materials in China
Liping Ma1,3,4,a, Quan Jiang1,2,3,4,b, Ping Zhao4,c, Chunzhi Zhao1,3,4,d
1China Building Material Test & Certification Group Co., Ltd., Beijing 100024, China.
2College of Materials Science and Engineering, Wuhan University of Technology,
Wuhan 430070, China
3National Key Lab for Green Building Materials, Beijing 100024, China
4China Building Material Academy, Beijing 100024, China
a mlp@ctc.ac.cn, b jq@ctc.ac.cn, c czz@ctc.ac.cn, d zhaoping@cbmaemail.com.cn
Keywords: Polystyrene board, Rock wool board, Rigid foam polyurethane board, Life cycle assessment.
Subject "the Research and Application of Life Cycle Assessment Technology to the Building Materials for Building Engineering in Typical Regions" of the National Science & Technology Pillar Program during the Twelfth Five-year Plan Period (No.: 2011BAJ04B06) Introduction As the policies for building energy efficiency has been fully implemented and the green building action widely carried out, the technology for the assessing and verifying green building materials is vital and needs to be established as soon as possible.
At present, the study on life cycle assessment for thermal insulation materials [8,9] is rarely reported in China.
This paper has performed the life cycle assessment on three most widely used thermal insulation materials (namely, the polystyrene board, the polyurethane board and rock wool board) in the current domestic building engineering based on the LCA method, combining the characteristics of the employing of such materials in different regions, and is aimed to illustrate the basic information of the life cycle environmental load of thermal insulation materials in this industry and to provide data support to the establishment of localized LCA database for thermal insulation materials and the assessment of green building materials.
Journal of Environmental Science. 2010, 30(10):2136-2144
Subject "the Research and Application of Life Cycle Assessment Technology to the Building Materials for Building Engineering in Typical Regions" of the National Science & Technology Pillar Program during the Twelfth Five-year Plan Period (No.: 2011BAJ04B06) Introduction As the policies for building energy efficiency has been fully implemented and the green building action widely carried out, the technology for the assessing and verifying green building materials is vital and needs to be established as soon as possible.
At present, the study on life cycle assessment for thermal insulation materials [8,9] is rarely reported in China.
This paper has performed the life cycle assessment on three most widely used thermal insulation materials (namely, the polystyrene board, the polyurethane board and rock wool board) in the current domestic building engineering based on the LCA method, combining the characteristics of the employing of such materials in different regions, and is aimed to illustrate the basic information of the life cycle environmental load of thermal insulation materials in this industry and to provide data support to the establishment of localized LCA database for thermal insulation materials and the assessment of green building materials.
Journal of Environmental Science. 2010, 30(10):2136-2144