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Bandyopadhyay: Journal of Materials Processing Technology.
Fathima: Journal of Electronics Materials: Vol.31 (2002), pp.1039-1046
Li: Journal of Materials Processing Technology, Vol. 185 (2007), pp.2-16
Li: Journal of Materials Processing Technology, Vol.105 (2000), pp.284-293
Shi: Journal of Materials Processing Technology, Vol.129 (2002), pp.41-44

Raw coal MIPS calculation model Mi is the weight of various materials consumed by producing a product or providing some services.
The classification of material input in MIPS method In the MIPS method, all of the natural materials which involve in producing product or serving are classified.
Journal of Arid Land Resources and Environment, vol.27(2013), p.106-110.
Resources Science, vol.29(2007), p. 2-6.
Journal of Industrial Ecology, vol.7(2003), p. 43~64

Lachmann, International Journal of Refractory Metals and Hard Materials, 28 (2010) 489–497
[3] Xinglong Tan, Shaoyu Qiu, Wenyan He, Daifu Lei, Journal of Metastable and Nanocrystalline Materials 23, (2005) 179-182
Letlena, MATERIALS SCIENCE, 18 (2012) 75-78
Riedel, Materials Chemistry and Physics 81 (2003) 195–201
Sudarashan, Materials Modification, Inc, 27, (1997)

Zhang, Solar Energy Materials and Solar Cells, 105 (2012), 242-248
Meng, Journal of Power Sources, 195 (2010), 7684-7690
Cheng, Solar Energy Materials and Solar Cells, 102 (2012), 36-43
Biçer, Solar Energy Materials and Solar Cells, 101 (2012), 114-122
Lu, Solar Energy Materials and Solar Cells, 96 (2012), 202-209

Effect of Temperature on Dielectric Parameters of Ferroelectric Materials at Microwave Frequency Bhagwan K.
The composite materials of ST & BT ceramics were prepared by using solid state reaction method.
Synthesis of material: ST& BT ferroelectric materials were prepared by using SSR.
In the present study of BaTiO3 materials, the highest value of ε'=62.72 is observed at temperature = –10oC and at δr =1.
Gawali, “Effect of particle size and temperature on dielectric parameters of PLZT ceramics at 9.85 GHz”, International Journal of Physics and Mathematical Sciences.

Conclusion The development of low-carbon construction is a systematic project , low-carbon building materials and energy-saving equipment are its material and technical support , and the essential meaning of the quality of the various stages involved in the life cycle carbon emissions .From an overall point of view, the entire life cycle of low-carbon building development is the successful development of low-carbon buildings.
National Cheng Kung University Institute of Architecture , 2007 [7] Leng Faguang, Zhang Renytu , Xing Feng.The development and application of the green building materials and green high-performance concrete .
The trend of the development of new energy-saving building materials.
Journal of Hei longjiang science and technology information, 2008 (36):34-37 [9] Mao Zhibing,Yu Zhenping.
Journal of construction technology, 2012 (12):49-52.

CFRP contains at least two phases of materials to possess different mechanical properties, which leads to the different mechanism of material removal from that of machining single-phased materials, such as metals [1-3].
Miranda: Journal of Materials Processing Technology, Vol.92-93(1999), pp.135-140
[3] Y.G.Wang, X.P.Yan: Advanced Materials Research .Vol. 215 (2011), pp.14-18
[6] X.Wang, L.J.Wang, J.P.Tao: Journal of Materials Processing Technology, Vol.148 (2004), pp.239-244
Paulo Davim, Pedro Reis: Journal of Materials Processing Technology, Vol.160 (2005), pp.160-167

Paolucci, et.al.: Journal of Membrane Science.
Gomez, et.al.: Journal of Membrane Science.
Luo, et.al.: Journal of Membrane Science.
Kamaruddin, et.al.: Journal of Membrane Science.
Xu: Journal of Membrane Science.

Songklanakarin Journal of Science and Technology 2007, C29(3): 857–868
International Journal of Advanced and Applied Sciences 2019, 6(9): 71–75
Journal of Engineering Science and Technology 2019, 15(5): 2509 -2521
[15] T.M.G Selva, J.S.G Selva, R.B Prata, Sensing Materials: Diamond-Based Materials.
Materials 2019, 12(15): 2483

Research aims and introduction The erosion of surface materials of the Cultural Heritage due to environment conditions affects the main proprieties of the materials [1-3].
Hockey, Effect of material parameters on the erosion resistance of brittle materials, Journal of Material Science, 18, pp.766-768, (1983)
Scattergood, On lateral cracks in glass, Journal of material science, 22, pp. 3463-3469, (1987)
Salem, Interaction of cracks between two adjacent indents in glass, Journal of Material Science, 28, pp. 501-505, (1993)
Abbadi; et al, Glass damage by impact spallation , Materials science and engineering a-structural materials properties microstructure and processing  Volume: 407   Issue: 1-2, pp 256-264, ( 2005) [30] J.