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However due to the complexity of interaction mechanism of electromagnetic field and composite materials, applying microwave ovens on an industrial level requires comprehensive experimental and numerical investigation to determine and predict the materials behavior during the curing process.
Eq.1 shows the amount of power (P [W/m³]) absorbed by materials interacted with electromagnetic field.
S., Journal of Composite Materials, 18(4)(1984) 387-409
S., International Journal of Material Forming, 1 (1) (2008) 1323-1326
K., Datta, S., & Basu, D., Bulletin of materials science, 31 (7) (2008) 943-956

The materials are nano porous aerogels, rubber and asbestos plates, all of which are high polymer organic materials and inorganic materials with the typical property of low temperature resistance.
[2] Wu Chuanlin, in: New building materials, 2003(5), Application and development of thermal insulation materials in electric power industry.
(In Chinese) [6] Lee J K, Gould G L, Rhine W, in: Journal of sol-gel Science and Technology, 2009, 49(2):209-220
[7] Xue-Nong G, in: Journal of South China University of Technology, 2007, 35(5):113-111.
[10] Jiang H, Yin Z, in: Journal of Wuhan University of Technology, 2002, 24 (3): 1-1528

Study on Fire Prevention of Wall Insulation Organic Materials Wang Pengxiang1, Zhang Cunwei2, Li Xiangmei3, Yang Rongjie3 School of Materials Science &Engineering, Beijing Institute of Technology National Engineering Research Center of Flame Retardant Materials,100081,Beijing Keywords: Organic, Wall Insulation Materials, Fire Prevention, Development Abstract: This article described the technical progress of the wall insulation organic materials and analyzed other relevant factors in recent years about the insulation materials policies changes and market changes.
The second type of wall insulation materials are composite materials, such as phenolic foam insulation materials, reaching flame retardant materials B1 level (fire).
They belong to the combustible materials (B2 fire).
A: incombustible materials.
B2: combustible construction materials.

Materials Science and Engineering 23 (1976) 199-205
Computational Materials Science 29 (2004) 301-308
Computational Materials Science 44 (2009) 1397-1407
Computational Materials Science 47 (2010) 951-961
Computational Materials Science 77 (2013) 387-398

Kamil, Preparation of PVA/Corn Starch Blend Films and Studying the Influence of Gamma Irradiation on Mechanical Properties, International Journal of Materials Science and Applications 3 (2014) 25-28
Sedlacekova, Food Packaging Materials: Comparison of Materials Used for Packaging Purposes, Bachelor Thesis, Helsinki Metropolia University of Applied Sciences, 2017
Hasirci, PCL and PCL-based materials in biomedical application, Journal of Biomaterials Science, Polymer Edition 29 (2018) 863-893
Chiralt, Combination of Poly(lactic) Acid and Starch for Biodegradable Food Packaging, Material MDPI Journal, Materials 10 (2017)
Bressler, Progress in bio-based plastics and plasticizing modifications, Journal of Materials Chemistry A.

Hashin, The elastic moduli of heterogeneous materials, Journal of Applied Mechanics. 29, 1962, 143-150
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Bi-materials Fracture Experiment Specimen preparation.
(a) Sketch photo of bi-materials specimen.
(b) σ1 of bi-materials specimen for α=45°.
On the other hand, KI in single-materials specimens are slightly greater than ones in bi-materials, while KI (KI<0) is the main resistance to the crack propagation.
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Influence barrier property of thin film packaging materials are the main factors.
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It is well known that imbibitions of fibrous materials are of practical importance in many industrial processes [7-10].
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