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Online since: February 2012
Authors: Tao Jiang, Yin Biao Guo, Yong Bo Wu, Zhen Zhong Wang, Yun Feng Peng
Schematic diagram of chip formation in EVAC of a brittle material
The chip thickness of brittle materials is usually very small.
As a property of brittle materials, fracture toughness expresses the ability of a material to resist the growth of a pre-existing crack or flaw.
Lim: Materials and Manufacturing Processes, Vol. 18 (2003), p. 825-834
Symposium on Micro-NanoMechatronics and Human Science, (2004), p. 133-138
Yasuto: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 127 (2005), p. 522-532
As a property of brittle materials, fracture toughness expresses the ability of a material to resist the growth of a pre-existing crack or flaw.
Lim: Materials and Manufacturing Processes, Vol. 18 (2003), p. 825-834
Symposium on Micro-NanoMechatronics and Human Science, (2004), p. 133-138
Yasuto: Transactions of the ASME: Journal of Manufacturing Science and Engineering, Vol. 127 (2005), p. 522-532
Online since: January 2014
Authors: Zhong De Shan, Yong Sheng Ye, Bao Yu Wang, Chao Jiang, Bai Liang Zhuang
However, since the material performance requirements of hot-stamping dies have not been standardized, and special die materials have not been developed, the choice of materials is based on improving the safety coefficient, which leads to material waste and increased costs.
In this article, the performance requirements of hot-stamping dies are analyzed to obtain the main force indices and a material selection formula, providing a scientific basis for the selection of hot-stamping die materials.
Tekkaya.A review on hot stamping[J].Journal of Materials Processing Technology, 2010, 210(15):2103-2118
International Journal of Precision Engineering and Manufacturing. 2012, 13(7): 1101-1106
Mechanical engineering materials,2001,25(12):36-40.
In this article, the performance requirements of hot-stamping dies are analyzed to obtain the main force indices and a material selection formula, providing a scientific basis for the selection of hot-stamping die materials.
Tekkaya.A review on hot stamping[J].Journal of Materials Processing Technology, 2010, 210(15):2103-2118
International Journal of Precision Engineering and Manufacturing. 2012, 13(7): 1101-1106
Mechanical engineering materials,2001,25(12):36-40.
Online since: July 2013
Authors: Noorsidi Aizuddin Mat Noor
Floor Materials
The choice of environmentally friendly materials is an important step in the path towards sustainable building.
The quality satisfaction of floor materials in location 1 improves from merely 5 % above average up to 45.1%.
Journal of Facilities, Vol. 18(1/2) (2002), p. 66-67 [2] Novick, D.
Journal of Management in Engineering.
Blackwell Science Ltd., Oxford. (1997).
The quality satisfaction of floor materials in location 1 improves from merely 5 % above average up to 45.1%.
Journal of Facilities, Vol. 18(1/2) (2002), p. 66-67 [2] Novick, D.
Journal of Management in Engineering.
Blackwell Science Ltd., Oxford. (1997).
Online since: September 2016
Authors: Evgenij Korolev, Dmitrij Husid, Vitaliy Gladkikh
., 26, 129337, Moscow,
Russian Federation
agladkich_87@mail.ru, bkorolev@nocnt.ru, cinfo@nocnt.ru
Keywords: innovative sulfur-extended materials, sulfur-bitumen binder, material science
Abstract.
Nowadays in material science modification of the bitumen by sulfur is considered as an effective way to enhance the properties of pavements.
Stroitel'nye materialy [Building materials]. 11 (2009) 20-23
Stroitel'nye materialy [Building materials]. 10 (2011) 12-13
Advanced Materials Research. 1040 (2014) 525-528
Nowadays in material science modification of the bitumen by sulfur is considered as an effective way to enhance the properties of pavements.
Stroitel'nye materialy [Building materials]. 11 (2009) 20-23
Stroitel'nye materialy [Building materials]. 10 (2011) 12-13
Advanced Materials Research. 1040 (2014) 525-528
Online since: October 2013
Authors: Ya Li Zhang, Wei Xia, Ai Hua Ren
Polymer materials cladding the surface of nano particle may also affect the properties of nano materials[4].
Furthermore, biosynthesis of nano materials is an emerging area.
Structural diversity and chemical trends in hybrid inorganic–organic framework materials.
JOURNAL OF BEIHUA UNIVERSITY (Natural Science).
JOURNAL OF BEIHUA UNIVERSITY (Natural Science), Vol.8(2007), p.145.
Furthermore, biosynthesis of nano materials is an emerging area.
Structural diversity and chemical trends in hybrid inorganic–organic framework materials.
JOURNAL OF BEIHUA UNIVERSITY (Natural Science).
JOURNAL OF BEIHUA UNIVERSITY (Natural Science), Vol.8(2007), p.145.
Online since: January 2015
Authors: Qing Jun Ding, Fan Shen, Ji Lu, Ming Yu Zhao
Research on Microstructure Structure Formation Mechanism of Cement-Emulsifying Asphalt and waterborne Epoxy cementing materials
Fan Shen1, a*, Mingyu Zhao 2, b, Ji Lu2, c, Qingjun Ding2, d
1School of Material Science and Engineering, Wuhan Institute of Technology, Hubei, Wuhan, 430073, China
2State Key Laboratory of Silicate Materials for Architectures, Wuhan University of Technology, Hubei, Wuhan, 430070, China
awwwsf5227@163.com, bzmyzhaomingyu@126.com, clujijay@163.com, ddingqj@whut.edu.cn
Keywords: CAE; Structure Formation Mechanism; SEM
Abstract.
Raw materials and design of proportion Raw materials.This experiment adopts the cationic slow crack-modified emulsion asphalt, huaxin P.O 4.5 ordinary Portland cement, homemade nonionic curing agent self emulsifying waterborne epoxy resin.
Huang: Journal of Building Materials, Vol.15 (2012), p91-95
Hu: Journal of Southeast University (Natural Science Edition), Vol.5 (2002), p.480-487
Ding: Journal of Central South University: Science and Technology, Vol.43 (2012), p.105-110
Raw materials and design of proportion Raw materials.This experiment adopts the cationic slow crack-modified emulsion asphalt, huaxin P.O 4.5 ordinary Portland cement, homemade nonionic curing agent self emulsifying waterborne epoxy resin.
Huang: Journal of Building Materials, Vol.15 (2012), p91-95
Hu: Journal of Southeast University (Natural Science Edition), Vol.5 (2002), p.480-487
Ding: Journal of Central South University: Science and Technology, Vol.43 (2012), p.105-110
Online since: August 2014
Authors: Karol Balog, Jozef Harangozó, Mária Draxlerová
Effects of retardants on the ignition of wood materials
MÁRIA DRAXLEROVÁ, JOZEF HARANGOZÓ, KAROL BALOG
Mária DRAXLEROVÁ, Ing., Institute of Safety, Environment, and Quality, maria.draxlerova@stuba.sk
Jozef HARANGOZÓ, Ing.
European Journal of Environmental and Safety Sciences.
Journal of Thermal Analysis and Calorimetry an International Forum for Thermal Studies. 110/1. 2012.
Europen Journal of Environmental and Safety Sciences. (1/1): 1-7. 2013 [7] Košík, M. et al.1986.
(Polymeric Materials and Their Fire Protection) Bratislava:ALFA, p.54 [8] Osvald, A.: Požiarno-technické vlastnosti dreva a materiálov na báze dreva (Fire-technical Characteristics of Wood and Wood-Based Materials), 8/97/A, ES TU Zvolen, 1997, ISBN 80-228-0656-0 [9] Harangozó, J., Sledovanie vplyvu retardérov horenia na proces iniciácie plameňového a bezplameňového horenia tuhých materiálov(Study of the Effects of Flame Retardants on the Initiation Process of the Flame and Flameless Combustion of Solids), Dissertation, Trnava, 2011 [10] Draxlerová, M., Vplyv retardérov na iniciáciu horenia tuhých materiálov (Effects of Retardants on the Ignition of Solid Materials), Diploma Work, Trnava, 2013
European Journal of Environmental and Safety Sciences.
Journal of Thermal Analysis and Calorimetry an International Forum for Thermal Studies. 110/1. 2012.
Europen Journal of Environmental and Safety Sciences. (1/1): 1-7. 2013 [7] Košík, M. et al.1986.
(Polymeric Materials and Their Fire Protection) Bratislava:ALFA, p.54 [8] Osvald, A.: Požiarno-technické vlastnosti dreva a materiálov na báze dreva (Fire-technical Characteristics of Wood and Wood-Based Materials), 8/97/A, ES TU Zvolen, 1997, ISBN 80-228-0656-0 [9] Harangozó, J., Sledovanie vplyvu retardérov horenia na proces iniciácie plameňového a bezplameňového horenia tuhých materiálov(Study of the Effects of Flame Retardants on the Initiation Process of the Flame and Flameless Combustion of Solids), Dissertation, Trnava, 2011 [10] Draxlerová, M., Vplyv retardérov na iniciáciu horenia tuhých materiálov (Effects of Retardants on the Ignition of Solid Materials), Diploma Work, Trnava, 2013
Online since: September 2013
Authors: Hong Zhang, Lu Jun Zan, Bo Zhao, Hui Dong Qiu
Experimental
Materials and Instruments.
All energetic materials are industrial products.
Chinese Journal of Energetic Materials (Hanneng Cailiao ), Vol.15 (2007), p.633
Journal of Thermal Analysis and Calorimetry , Vol.37( 1991), p.2031
Fire Safety Science, Vol.10(2001), p.149
All energetic materials are industrial products.
Chinese Journal of Energetic Materials (Hanneng Cailiao ), Vol.15 (2007), p.633
Journal of Thermal Analysis and Calorimetry , Vol.37( 1991), p.2031
Fire Safety Science, Vol.10(2001), p.149
Online since: June 2014
Authors: Jun Zhu, Ji Hui Wang
China
2School of Materials Science and Engineering, Wuhan University of Technology, No. 122, Luoshi Road, Wuhan, 430070, P.
Daniel, Effects of material and geometric nonlinearities on the tensile and compressive behavior of composite materials with fiber waviness, Composites Science and Technology 61 (2001) 125-134
Chou, Flexible composites, Journal of Materials Science 24 (1989) 761-783
Chou, Effect of fiber waviness on the nonlinear elastic behavior of flexible composites, Journal of Composite Materials 22 (1988) 1004-1025
Daniel, Fabrication methods for unidirectional and crossply composites with fiber waviness, Journal of advanced materials 26 (1995) 19-26
Daniel, Effects of material and geometric nonlinearities on the tensile and compressive behavior of composite materials with fiber waviness, Composites Science and Technology 61 (2001) 125-134
Chou, Flexible composites, Journal of Materials Science 24 (1989) 761-783
Chou, Effect of fiber waviness on the nonlinear elastic behavior of flexible composites, Journal of Composite Materials 22 (1988) 1004-1025
Daniel, Fabrication methods for unidirectional and crossply composites with fiber waviness, Journal of advanced materials 26 (1995) 19-26
Online since: September 2013
Authors: Ze Jiang Zhang, Li Jun Li, Feng Li
Furthermore, the test results of CONE have an important reference sense to the evaluation of materials, material design, and fire prevention [2].
Fire risk of the materials is determined to a variety of factors.
Fire risk of materials depends primarily on the toxicity of smoke.
It is consistent with risk of materials in the actual fire scene.
(In Chinese) [3] Xu Xiao-nan: China Safety Science Journal, Vol. 13 (2003), p 19.
Fire risk of the materials is determined to a variety of factors.
Fire risk of materials depends primarily on the toxicity of smoke.
It is consistent with risk of materials in the actual fire scene.
(In Chinese) [3] Xu Xiao-nan: China Safety Science Journal, Vol. 13 (2003), p 19.