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Acknowledgements This work was financially supported by the Natural Science Foundation of China (Grant No. 50975072 and Grant No. 51075114).
Jiang: Auto Technology and Materials, In Chinese, Vol. 3(2009), p. 10-13
Haryhiko: Materials Science and Engineering A, Vol. 529(2011), p. 275-281
Ouyang: Tribological Journal, In Chinese, Vol. 27(2007), p. 284-288
Tian: China Nonferrous Metal Journal, In Chinese, Vol. 21(2011), p.1038-1044.

Materials and Design Vol.27 (2006), p.329-337
Materials and Design vol. 32 (2011), p.851-860
Materials & Design, Vol.37 (2012), P. 478-486
Materials and Design, Vol. 52 (2013) p.158-167
(Science Press, Beijing 2010)

Performance Study of Fiber Reinforced New Lightweight Insulation Materials Huanqi Zhao, Guozhong Lia* Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, School of Material Science and Engineering, University of Jinan, Jinan, Shandong, China a mse_ligz@ujn.edu.cn, * correspondence author Keywords: lightweight insulation materials; glass fiber; mechanical properties; coefficient of thermal conductivity.
Cement-based lightweight insulation materials were made.
Cement and fly ash are main raw materials.
Cement are main raw materials.
[2] Lihe Zhang, Muhua Tan, MA Yi-ping, et al, in: Study on interface bonding of PP fiber cement and antishringkage performance, edited by Journal of Building Materials, Vol. 18(1) (2001), p. 17-21.

Thermal Fatigue Studies Using HF Induction Heating of Die Materials for Light Metals Casting S.
Koltun 1,3 1 CAST CRC, UDP No 055, the University of Queensland, Brisbane QLD 4072 Australia 2 CSIRO Materials Science & Engineering, Normanby Road, Clayton, Vic, 3169, Australia 3 CSIRO Sustainable Ecosystems Normanby Road, Clayton, Vic, 3169, Australia a stefan.gulizia@csiro.au Keywords: thermal fatigue, tool materials Abstract In this study a new thermal fatigue test rig has been developed that can apply a net energy input to materials with different physical properties using HF induction heating.
The results show materials with high thermal conductivity such as tungstenbased materials are more resistant to thermal fatigue cracking than conventionally used hot work tool steels for HPDC dies.
The results show die materials with high thermal conductivities containing tungsten are more resistant to thermal fatigue cracking than commonly used ferrous die materials in HPDC conditions.
References [1] Klobear, D., Tusek, J. and Taljat, B. (2008) Thermal fatigue of materials for die casting tooling, Materials Science and Engineering A 472 (2008) 198-207 [2] Sjostrom, J. and Bergstron, J. (2004) Thermal fatigue testing of chromium martensite hot-work tool steel after austenitizing treatments, Journal of Materials Processing Technology 153-154 (2004) 1089-1096 [3] Persson, A., Hogmark, S. and Bergstrom, J. (2004) Simulation and evaluation of thermal fatigue cracking of hot work tool steels, International Journal of Fatigue 26 (2004) 1095-1107 [4] Gulizia, S., Jahedi, M.

Advanced Materials, 28/11 (2016) 2189-2194
Mechanics of Composite Materials, 49/1 (2013) 77-84
ACS Applied Materials & Interfaces, 3/12 (2011) 4547–4551
Bruns, Mechanical unfolding of a fluorescent protein enables self-reporting of damage in carbon-fibre-reinforced composites, Journal of Materials Chemistry A, 2/17 (2014) 6231-6237
Sottos, J.S/ Moore, A Robust Damage-Reporting Strategy for Polymeric Materials Enabled by Aggregation-Induced Emission, ACS Central Science, 2/9 (2016) 598–603

Journal of intelligent material systems and structures, 2004, 15(2): 107-115
Journal of Materials Science, 1999, 34(16): 4001-4010
Stress induced polarization switching and coupled hysteretic dynamics in ferroelectric materials [J].
Science in China Series E: Technological Sciences, 2009, 52(1): 141-147
Advanced Materials Research, 2008, 47: 65-68

This effect can be made use of in various fields of science and technology.
The development of the so-called smart materials, the magnetoactive elastomers, enables a broad use of such materials in various applications.
This research paves the way to creating a fundamentally new class of controllable materials.
Journal of magnetissm and magnetic materials. 449 (2018) 77 -82
Journal of the Siberian Federal University.

Introduction Materials with high hardness and high toughness are ideal for cutting tools.
Three kinds of milling insert of different materials are chosen in the stainless steel cutting force experiments.
The ultrafine-grain waved-edge insert is very suitable to cut difficult-to-machine materials.
Li and et al: Journal of Harbin University of Science and Technology Vol.01 (2006), pp.149 [5] S.G.
Xiao: Cutting Tool Materials and It's Reasonable Selection (Machine Press, China 1981).

However, there has apparently been no research on the relation between tool wear and cutting performance of difficult-to-machine materials in high speed milling processing of high strength, high hardness materials.
Journal of Harbin university of science and technology,2011,16(6)
Research on wear modes and mechanism of carbide tools in high-speed milling of difficult-to-cut materials[J].
Journal of Materials Processing Technology, 2003, 143-144(1):458-463
Journal of Materials Processing Technology, 1997(68):262-274.

References [1] Djwantoro Hardjito and others, ‘On the Development of Fly Ash-Based Geopolymer Concrete’, ACI Materials Journal, 101.6 (2004), 467–72
[2] Yahya Zarina and others, ‘Review on the Various Ash from Palm Oil Waste as Geopolymer Material’, Reviews on Advanced Materials Science, 34.1 (2013), 37–43 [3] Fernández-Jiménez A., Palomo A., Alonso M.M.
Materials and Design 52 (2013) 315-327
Reviews on Advanced Materials Science 34, 37–43 (2013)
ACI Materials Journal 101, 467–472 (2004)