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Online since: January 2022
Authors: Nilanjan Mallik
Note that predictions by strength of materials approach and modified strength of materials approach are in excellent agreement in the useful range of fiber volume fraction.
It is observed that the effective properties predicted by strength of materials approach and modified strength of materials approach are in excellent agreement.
Sciences, Vol. 53 (2012), pp. 58-66
C., “Micromechanics of smart composite plates with periodically embedded actuators and rapidly varying thickness”, Journal of thermoplastic composite materials, vol. 19 (2006), pp. 251-276
[36] Gibiansky L.V. and Torquato S., “Matrix laminate composites: Realizable approximations for the effective moduli of piezoelectric dispersions”, Journal of materials research, vol. 14, no. 1, (1999), pp. 49-63
It is observed that the effective properties predicted by strength of materials approach and modified strength of materials approach are in excellent agreement.
Sciences, Vol. 53 (2012), pp. 58-66
C., “Micromechanics of smart composite plates with periodically embedded actuators and rapidly varying thickness”, Journal of thermoplastic composite materials, vol. 19 (2006), pp. 251-276
[36] Gibiansky L.V. and Torquato S., “Matrix laminate composites: Realizable approximations for the effective moduli of piezoelectric dispersions”, Journal of materials research, vol. 14, no. 1, (1999), pp. 49-63
Online since: June 2013
Authors: Ke Zhang, Yu Hou Wu, Xiang Nan Ma, Li Xiu Zhang, Wen Da Yu
Verified by simulation, heat transfer rate of ceramic materials is slower than metal materials, in actual operation of the process, due to different materials have different heat transfer rate, so the temperature distribution of the different materials of motorized spindle are different.
The main shaft material of traditional motorized spindle is metal, but it have larger thermal deformation when the temperature is high, in order to reduce the influence of thermal deformation caused by temperature rising, it has become a new direction of development by using ceramics as spindle materials because of its better thermal performance. we study the basic properties of the ceramic materials and metal materials [5, 7], got that ceramic material has obvious thermal characteristics, showing a low density, a low coefficient of thermal expansion and so on.
Journal of Mechanical Transmission No.12 (2011), p. 84 (In Chinese) [9] S.J.
Liu, Journal of Liaoyang Petrochemical College No.4 (2000), p. 37 (In Chinese) [10] D.P.
Wu, Journal of Shenyang Arch.
The main shaft material of traditional motorized spindle is metal, but it have larger thermal deformation when the temperature is high, in order to reduce the influence of thermal deformation caused by temperature rising, it has become a new direction of development by using ceramics as spindle materials because of its better thermal performance. we study the basic properties of the ceramic materials and metal materials [5, 7], got that ceramic material has obvious thermal characteristics, showing a low density, a low coefficient of thermal expansion and so on.
Journal of Mechanical Transmission No.12 (2011), p. 84 (In Chinese) [9] S.J.
Liu, Journal of Liaoyang Petrochemical College No.4 (2000), p. 37 (In Chinese) [10] D.P.
Wu, Journal of Shenyang Arch.
Online since: November 2012
Authors: Xian Sheng Ji, Yue Min Yu
Design and Analysis of a Microgripper Based on Smart Materials
Yuemin Yu1, a, Xiansheng Ji1, b
1College of Science ,Heilongjiang Institute of Science and Technology,Harbin, 150027,China
ayym72@sohu.com, bjixiansheng1986@163.com
Keywords: Microgripper , Smart materials, Piezoelectric ceramic stack
Abstract.
Smart materials are a group of solid-state materials whose geometric shape can be related to an energy input in the form of heat, light, electric field, or magnetic field.
The most common smart materials are piezoelectrics, magnetostrictive, and SMAs.
Smart Materials and Structures, 14: 1265-1272. (2005) [2] D.
Journal of Micromechanics and Microengineering, 15: 1265-1270 (2005) [4] F.
Smart materials are a group of solid-state materials whose geometric shape can be related to an energy input in the form of heat, light, electric field, or magnetic field.
The most common smart materials are piezoelectrics, magnetostrictive, and SMAs.
Smart Materials and Structures, 14: 1265-1272. (2005) [2] D.
Journal of Micromechanics and Microengineering, 15: 1265-1270 (2005) [4] F.
Online since: December 2019
Authors: Ruslan V. Lesovik, Sergey V. Biryukov, Alexander E. Fomin, E.S. Glagolev
Sheychenko, Mechanoactivation as a way to increase the efficiency of using raw materials of various genesis in building materials science, Bulletin of Belgorod State Technological University named after V.G.
Kozhukhova, Effect of slaked lime on properties of autoclave composite binders, World Appliance Sciences Journal. 24 (11) (2013) 1519–1524
Series: Materials Science and Engineering. 327 (2018) 042029
Lesovik et al., Evaluation of the energy state of raw materials for the production of building materials, Construction materials. 10 (2012) 53–55.
Implementation examples in construction material science, Belgorod: BSTU, 2016
Kozhukhova, Effect of slaked lime on properties of autoclave composite binders, World Appliance Sciences Journal. 24 (11) (2013) 1519–1524
Series: Materials Science and Engineering. 327 (2018) 042029
Lesovik et al., Evaluation of the energy state of raw materials for the production of building materials, Construction materials. 10 (2012) 53–55.
Implementation examples in construction material science, Belgorod: BSTU, 2016
Online since: February 2014
Authors: Oskar Hasdinor Hassan, F.W. Badrudin, M.S.A. Rasiman, M.F.M. Taib, N.H. Hussin, M.Z.A. Yahya
Jumas, Chemistry of Materials. 24 (2012) 1472–1485
Armand, et al., Nature Materials. 9 (2010) 68–74
Yahya, Advanced Materials Research. 501 (2012) 342–346
Yahya, Advanced Materials Research. 501 (2012) 352–356
Thomas, Computational Materials Science. 47 (2010) 678–684
Armand, et al., Nature Materials. 9 (2010) 68–74
Yahya, Advanced Materials Research. 501 (2012) 342–346
Yahya, Advanced Materials Research. 501 (2012) 352–356
Thomas, Computational Materials Science. 47 (2010) 678–684
Online since: August 2013
Authors: Rui Feng Chen, Hua Liang Gu, Yi Ming Jia
The Research Status, Superiorities and Prospect of Composite Insulation Materials in China
Ruifeng Chen1, a,Hualiang Gu2,b and Yiming Jia3,c
1 zhejiang university of technology, China
2 zhejiang university of technology, China
3 zhejiang university of technology, China
a1522290861@qq.com, bghldl@126.com, c357715971@qq.com
Keywords: Composite Insulation Materials Superiorities Prospect
Abstract: Chinese existing insulation materials mainly included inorganic thermal insulation materials and organic insulation materials, but short of composite insulation materials.
The Research Status of Composite Insulation Materials Composite insulation materials which could be inorganic thermal, organic or mixed materials, would be made of more than two kinds of materials, and complemented with bonding agent.
The Prospect of Composite Insulation Materials Insulation materials had two types, organic material and inorganic material.
Research of Larch Bark and Polystyrene Compound Preserve Heat Material[J].Forestry Machinery&Woodworking Equipment,2008,36(2) [2] Limei Guo.Development of floating bead antisepsis and thermal insulation composite material[J].New Building Materials,2005(12) [3] Suqin Su,Xiaoping Yang,Hongsheng Xu,Jinfeng Zhang and Yuhong Wang.Study on Sorel cement composite thermal insulation material[J].New Building Materials,2005(6) [4] Wen Ni,Li Xu and Fengmei Liu.Experimental study on expanded perlite/glass bead composites[J].New Building Materials,2007,34(3) [5] Mengchun Hu.Construction Technologies of the Silicate Polyphenyl Composite Insulation Material[J].Constrction Technology,2004,33(8) [6] Wending Xie and Zhaohui Xie.New type of energy - saving, healthful and safe thermal insulation wall materials[J].Block-Brick-Tile,2005(2) [7] Yanbo Xu,Chunxiang Qian and Chun Chen.Mechanism of interface on thermal performance deterioration of composite insulation materials[J].Journal of Southeast University
(Natural Science Edition),2011,41(1) [8] Wuxiang Wang.Study on Cement-based Composite Thermal-insulating Materials Used as Filling Materials of Energy Saving Blocks[J].Building Block and Block Building,2009(3) [9] Yongchuan Wu,Zheng Wang,Fang Cui and Zhihui Ye.Development of environmental protection composite thermal insulation material for accessible roof[J].New Building Materials,2007,34(1) [10] Kuishan Li,Xu Zhang,Xing Han and Dongming Zhu.Experimental Research of Isothermal Sorption Curve of Building Materials[J].Journal of Building Materials,2009,12(1) [11] Jianping Li and Fei Li.On-site pull out test for the bonding strength between exterior wall base and insulation materials[J].New Building Materials,2010,37(8) [12] Yicheng Qiu and Quangen Yang.Application of Polyurethane Interface Bonding Mastic in External thermal Insulation on Outside Wall[J].Wall Materials Innovation &Energy Saving in Buildings,2010(10) [13] Yuenian Wang and Shifa Lin.Application of Thermal Insulation
The Research Status of Composite Insulation Materials Composite insulation materials which could be inorganic thermal, organic or mixed materials, would be made of more than two kinds of materials, and complemented with bonding agent.
The Prospect of Composite Insulation Materials Insulation materials had two types, organic material and inorganic material.
Research of Larch Bark and Polystyrene Compound Preserve Heat Material[J].Forestry Machinery&Woodworking Equipment,2008,36(2) [2] Limei Guo.Development of floating bead antisepsis and thermal insulation composite material[J].New Building Materials,2005(12) [3] Suqin Su,Xiaoping Yang,Hongsheng Xu,Jinfeng Zhang and Yuhong Wang.Study on Sorel cement composite thermal insulation material[J].New Building Materials,2005(6) [4] Wen Ni,Li Xu and Fengmei Liu.Experimental study on expanded perlite/glass bead composites[J].New Building Materials,2007,34(3) [5] Mengchun Hu.Construction Technologies of the Silicate Polyphenyl Composite Insulation Material[J].Constrction Technology,2004,33(8) [6] Wending Xie and Zhaohui Xie.New type of energy - saving, healthful and safe thermal insulation wall materials[J].Block-Brick-Tile,2005(2) [7] Yanbo Xu,Chunxiang Qian and Chun Chen.Mechanism of interface on thermal performance deterioration of composite insulation materials[J].Journal of Southeast University
(Natural Science Edition),2011,41(1) [8] Wuxiang Wang.Study on Cement-based Composite Thermal-insulating Materials Used as Filling Materials of Energy Saving Blocks[J].Building Block and Block Building,2009(3) [9] Yongchuan Wu,Zheng Wang,Fang Cui and Zhihui Ye.Development of environmental protection composite thermal insulation material for accessible roof[J].New Building Materials,2007,34(1) [10] Kuishan Li,Xu Zhang,Xing Han and Dongming Zhu.Experimental Research of Isothermal Sorption Curve of Building Materials[J].Journal of Building Materials,2009,12(1) [11] Jianping Li and Fei Li.On-site pull out test for the bonding strength between exterior wall base and insulation materials[J].New Building Materials,2010,37(8) [12] Yicheng Qiu and Quangen Yang.Application of Polyurethane Interface Bonding Mastic in External thermal Insulation on Outside Wall[J].Wall Materials Innovation &Energy Saving in Buildings,2010(10) [13] Yuenian Wang and Shifa Lin.Application of Thermal Insulation
Online since: October 2009
Authors: Lian Meng Zhang, Chuan Bin Wang, Qiang Shen, Y.G. Chen, Hao Zeng
Watson: Journal of Nuclear Materials Vol. 258-263 (1998),
p. 329
Elio: Journal of Nuclear Materials Vol. 258-263 (1998), p. 74
Slattery: Journal of Nuclear Materials Vol. 258-263 (1998), p. 308
Vieider: Journal of Nuclear Materials Vol. 258-263 (1998), p. 160
Zhang: Journal of Materials Science Vol. 40 (2005), p. 2105
Elio: Journal of Nuclear Materials Vol. 258-263 (1998), p. 74
Slattery: Journal of Nuclear Materials Vol. 258-263 (1998), p. 308
Vieider: Journal of Nuclear Materials Vol. 258-263 (1998), p. 160
Zhang: Journal of Materials Science Vol. 40 (2005), p. 2105
Boundary Integral Equation Analysis of an Inhomogeneous Medium Made of Functionally Graded Materials
Online since: April 2013
Authors: H. Ashrafi, M.R. Bahadori, H. Keshmiri, M. Shariyat
Boundary Integral Equation Analysis of an Inhomogeneous Medium Made of Functionally Graded Materials
H.
Introduction In recent years, functionally graded materials (FGMs) have generated a great deal of interest as advanced composite materials.
Mortensen: Functionally Graded Materials, Institute of Materials, IOM Communications, London, 1998
Shariyat: Advanced Materials Research Vols. 463–464 (2012), pp. 570–574
Sladek: Composites Science and Technology Vol. 68 (2008), pp. 1209–1215
Introduction In recent years, functionally graded materials (FGMs) have generated a great deal of interest as advanced composite materials.
Mortensen: Functionally Graded Materials, Institute of Materials, IOM Communications, London, 1998
Shariyat: Advanced Materials Research Vols. 463–464 (2012), pp. 570–574
Sladek: Composites Science and Technology Vol. 68 (2008), pp. 1209–1215
Online since: March 2023
Authors: Chen Kai Zhong
[18] Li Z, Guo C, Lyu J, Hu Z and Ge M 2019 Journal of hazardous materials 373 85-96
[21] Qin F et al. 2020 Journal of Hazardous Materials 398 122816
[24] Yu J et al. 2020 Progress in Materials Science 111 100654
[29] Wu L et al. 2022 Journal of Hazardous Materials 128536
[70] Luo H, Fu H, Yin H and Lin Q 2021 Journal of Hazardous Materials 128044
[21] Qin F et al. 2020 Journal of Hazardous Materials 398 122816
[24] Yu J et al. 2020 Progress in Materials Science 111 100654
[29] Wu L et al. 2022 Journal of Hazardous Materials 128536
[70] Luo H, Fu H, Yin H and Lin Q 2021 Journal of Hazardous Materials 128044
Online since: February 2011
Authors: Bo Lin He, Jing Liu, Ying Xia Yu, Jia Sun, Jian Ping Shi
It is urgent to find new braking materials to satisfy the rigorous using environment.
Krenkel W, Heidenreich B, Renz R: Advanced Engineering Materials Vol. 4 (2002), P. 427
[2] ZHOU Ji cheng, HUANG Bo yun: MATERIALS SCIENCE AND ENGINEERING Vol.17(1999), p.91(In Chinese)
[4] M Krenkel W, Henke T: Key Engineering Materials, Vols.164-165(2005), p.421
[8] YAN Liansheng, LI Hejun, ZHANG Xiaohu, et al: Materials Review Vol.19(2005),p.60(In Chinese)
Krenkel W, Heidenreich B, Renz R: Advanced Engineering Materials Vol. 4 (2002), P. 427
[2] ZHOU Ji cheng, HUANG Bo yun: MATERIALS SCIENCE AND ENGINEERING Vol.17(1999), p.91(In Chinese)
[4] M Krenkel W, Henke T: Key Engineering Materials, Vols.164-165(2005), p.421
[8] YAN Liansheng, LI Hejun, ZHANG Xiaohu, et al: Materials Review Vol.19(2005),p.60(In Chinese)