SCOPUS 정보 검색 플랫폼

Composites Science and Technology

Volumn 104, Issue , 2014, Pages 47-51

Thermal expansion adjustable polymer matrix composites with giant negative thermal expansion filler

(2) Takenaka, Koshi a Ichigo, Masayoshi a

a NAGOYA UNIVERSITY (Japan)

Author keywords

A. Polymer matrix composites (PMCs); B. Thermal properties; E. Injection moulding; Negative thermal expansion

Indexed keywords

E.INJECTION MOULDING; NEGATIVE THERMAL EXPANSION; POLYMER MATRIX COMPOSITES (PMCS);

EID: 84907551363 PISSN: 02663538 EISSN: None Source Type: Journal
DOI: 10.1016/j.compscitech.2014.08.029 Document Type: Article

Times cited : (74)

References (31)

1
- 0023455550
- Negative thermal expansion ceramics: a review
- Chu C.N., Saka N., Suh N.P. Negative thermal expansion ceramics: a review. Mater Sci Eng 1987, 95:303-308.
- (1987) Mater Sci Eng , vol.95 , pp. 303-308
- Chu, C.N.¹ Saka, N.² Suh, N.P.³

2
- 0001394201
- Compounds that contract on heating
- Sleight A.W. Compounds that contract on heating. Inorg Chem 1998, 37:2854-2860.
- (1998) Inorg Chem , vol.37 , pp. 2854-2860
- Sleight, A.W.¹

3
- 69549107647
- Negative thermal expansion: a review
- Miller W., Smith C.W., Mackenzie D.S., Evans K.E. Negative thermal expansion: a review. J Mater Sci 2009, 44:5441-5451.
- (2009) J Mater Sci , vol.44 , pp. 5441-5451
- Miller, W.¹ Smith, C.W.² Mackenzie, D.S.³ Evans, K.E.⁴

4
- 84864522410
- Two decades of negative thermal expansion research: where do we stand?
- Lind C. Two decades of negative thermal expansion research: where do we stand?. Materials 2012, 5:1125-1154.
- (2012) Materials , vol.5 , pp. 1125-1154
- Lind, C.¹

5
- 0033096746
- 8 metal matrix composites
- 8 metal matrix composites. J Mater Res 1999, 14:780-789.
- (1999) J Mater Res , vol.14 , pp. 780-789
- Holzer, H.¹ Dunand, D.C.²

6
- 29744454143
- Giant negative thermal expansion in Ge-doped anti-perovskite manganese nitrides
- Takenaka K., Takagi H. Giant negative thermal expansion in Ge-doped anti-perovskite manganese nitrides. Appl Phys Lett 2005, 87:261902.
- (2005) Appl Phys Lett , vol.87 , pp. 261902
- Takenaka, K.¹ Takagi, H.²

7
- 79959997295
- 12
- 12. Angew Chem Int Ed 2011, 50:6579-6582.
- (2011) Angew Chem Int Ed , vol.50 , pp. 6579-6582
- Yamada, I.¹ Tsuchiya, K.² Ohgushi, K.³ Hayashi, N.⁴ Kim, J.G.⁵ Tsuji, N.⁶

8
- 79959195812
- 3 induced by intermetallic charged transfer
- 3 induced by intermetallic charged transfer. Nat Commun 2011, 2:347.
- (2011) Nat Commun , vol.2 , pp. 347
- Azuma, M.¹ Chen, W.T.² Seki, H.³ Czapski, M.⁴ Olga, S.⁵ Oka, K.⁶

9
- 84881652909
- 3 (Ln=La, Nd, Eu, Dy)
- 3 (Ln=La, Nd, Eu, Dy). Appl Phys Lett 2013, 103:061909.
- (2013) Appl Phys Lett , vol.103 , pp. 061909
- Oka, K.¹ Nabetani, K.² Sakaguchi, C.³ Seki, H.⁴ Czapski, M.⁵ Shimakawa, Y.⁶

10
- 84881255110
- 13 compounds
- 13 compounds. J Am Chem Soc 2013, 135:11469-11472.
- (2013) J Am Chem Soc , vol.135 , pp. 11469-11472
- Huang, R.J.¹ Liu, Y.Y.² Fan, W.³ Tan, J.⁴ Xiao, F.R.⁵ Qian, L.H.⁶

11
- 84856954573
- Negative thermal expansion materials: technological key for control of thermal expansion
- Takenaka K. Negative thermal expansion materials: technological key for control of thermal expansion. Sci Technol Adv Mater 2012, 13:013001.
- (2012) Sci Technol Adv Mater , vol.13 , pp. 013001
- Takenaka, K.¹

12
- 80052268941
- 0.5ZN (A=Ni, Sn)/Cu composites
- 0.5ZN (A=Ni, Sn)/Cu composites. Scr Mater 2011, 65:687-690.
- (2011) Scr Mater , vol.65 , pp. 687-690
- Ding, L.¹ Wang, C.² Na, Y.Y.³ Chu, L.H.⁴ Yan, J.⁵

13
- 84868358077
- Tailoring thermal expansion in metal matrix composites blended by antiperovskite manganese nitrides exhibiting giant negative thermal expansion
- Takenaka K., Hamada T., Kasugai D., Sugimoto N. Tailoring thermal expansion in metal matrix composites blended by antiperovskite manganese nitrides exhibiting giant negative thermal expansion. J Appl Phys 2012, 112:083517.
- (2012) J Appl Phys , vol.112 , pp. 083517
- Takenaka, K.¹ Hamada, T.² Kasugai, D.³ Sugimoto, N.⁴

14
- 80051935254
- Preparation and thermal properties of epoxy composites filled with negative thermal expansion nanoparticles modified by a plasma treatment
- Huang R.J., Chen Z., Chu X.X., Wu Z.X., Li L.F. Preparation and thermal properties of epoxy composites filled with negative thermal expansion nanoparticles modified by a plasma treatment. J Compos Mater 2010, 45:1675-1682.
- (2010) J Compos Mater , vol.45 , pp. 1675-1682
- Huang, R.J.¹ Chen, Z.² Chu, X.X.³ Wu, Z.X.⁴ Li, L.F.⁵

15
- 38049040735
- Negative thermal expansion in Ge-free antiperovskite manganese nitrides: tin-doping effect
- Takenaka K., Asano K., Misawa M., Takagi H. Negative thermal expansion in Ge-free antiperovskite manganese nitrides: tin-doping effect. Appl Phys Lett 2008, 92:011927.
- (2008) Appl Phys Lett , vol.92 , pp. 011927
- Takenaka, K.¹ Asano, K.² Misawa, M.³ Takagi, H.⁴

16
- 79955428507
- Giant negative thermal expansion in antiperovskite manganese nitrides
- Hamada T., Takenaka K. Giant negative thermal expansion in antiperovskite manganese nitrides. J Appl Phys 2011, 109:07E309.
- (2011) J Appl Phys , vol.109 , pp. 07E309
- Hamada, T.¹ Takenaka, K.²

17
- 38549172983
- xN related to the magnetic structure: neutron powder diffraction measurements
- (R)
- xN related to the magnetic structure: neutron powder diffraction measurements. Phys Rev B 2008, 77:020409. (R).
- (2008) Phys Rev B , vol.77 , pp. 020409
- Iikubo, S.¹ Kodama, K.² Takenaka, K.³ Takagi, H.⁴ Shamoto, S.⁵

18
- 84863245724
- 3 (0≤x≤0.3)
- 3 (0≤x≤0.3). J Appl Phys 2012, 111:043905.
- (2012) J Appl Phys , vol.111 , pp. 043905
- Lin, J.C.¹ Wang, B.S.² Lin, S.³ Tong, P.⁴ Lu, W.J.⁵ Zhang, L.⁶

19
- 84862657957
- xN (M=Ag, Ge)
- (R)
- xN (M=Ag, Ge). Phys Rev B 2012, 85:220103. (R).
- (2012) Phys Rev B , vol.85 , pp. 220103
- Wang, C.¹ Chu, L.H.² Yao, Q.R.³ Sun, Y.⁴ Wu, M.M.⁵ Ding, L.⁶

20
- 84897696636
- Magnetovolume effects in manganese nitrides with antiperovskite structure
- Takenaka K., Ichigo M., Hamada T., Ozawa A., Shibayama T., Inagaki T., et al. Magnetovolume effects in manganese nitrides with antiperovskite structure. Sci Technol Adv Mater 2014, 15:015009.
- (2014) Sci Technol Adv Mater , vol.15 , pp. 015009
- Takenaka, K.¹ Ichigo, M.² Hamada, T.³ Ozawa, A.⁴ Shibayama, T.⁵ Inagaki, T.⁶

21
- 0002097367
- Thermal expansion of metal matrix composites
- Academic Press
- Hahn T.A. Thermal expansion of metal matrix composites. Metal matrix composites: mechanisms and properties 1991, 329-355. Academic Press.
- (1991) Metal matrix composites: mechanisms and properties , pp. 329-355
- Hahn, T.A.¹

22
- 84907519753
- Polyamide-imide-based composites
- Yamada T. Polyamide-imide-based composites. J Jpn Soc Polym Process 1995, 7:287-291.
- (1995) J Jpn Soc Polym Process , vol.7 , pp. 287-291
- Yamada, T.¹

23
- 0030575483
- Synthesis and characterization of novel poly(amide imide)s
- Reinecke H., De La Campa J.G., De Abajo J. Synthesis and characterization of novel poly(amide imide)s. J Appl Polym Sci 1996, 61:923-928.
- (1996) J Appl Polym Sci , vol.61 , pp. 923-928
- Reinecke, H.¹ De La Campa, J.G.² De Abajo, J.³

24
- 70450245193
- 0.5N: high-stiffness isotropic negative thermal expansion material
- 0.5N: high-stiffness isotropic negative thermal expansion material. J Am Ceram Soc 2009, 92:2999-3003.
- (2009) J Am Ceram Soc , vol.92 , pp. 2999-3003
- Nakamura, Y.¹ Takenaka, K.² Kishimoto, A.³ Takagi, H.⁴

25
- 34047227518
- Thermo-elastic properties of heterogeneous materials with imperfect interfaces: generalized Levin's formula and Hill's connections
- Duan H.L., Karihaloo B.L. Thermo-elastic properties of heterogeneous materials with imperfect interfaces: generalized Levin's formula and Hill's connections. J Mech Phys Solids 2007, 55:1036-1052.
- (2007) J Mech Phys Solids , vol.55 , pp. 1036-1052
- Duan, H.L.¹ Karihaloo, B.L.²

26
- 78651266401
- Zirconium tungstate/polymer nanocomposites: challenges and opportunities
- Lind C., Coleman M.R., Kozy L.C., Sharma G.R. Zirconium tungstate/polymer nanocomposites: challenges and opportunities. Phys Stat Sol B 2011, 248:123-129.
- (2011) Phys Stat Sol B , vol.248 , pp. 123-129
- Lind, C.¹ Coleman, M.R.² Kozy, L.C.³ Sharma, G.R.⁴

27
- 17644363670
- 8)/polyimide nanocomposites exhibiting reduced coefficient of thermal expansion
- 8)/polyimide nanocomposites exhibiting reduced coefficient of thermal expansion. Chem Mater 2005, 17:2136-2141.
- (2005) Chem Mater , vol.17 , pp. 2136-2141
- Sullivan, L.M.¹ Lukehart, C.M.²

28
- 35948934662
- 8 composites
- 8 composites. J Appl Polym Sci 2007, 106:3343 7.
- (2007) J Appl Polym Sci , vol.106 , pp. 7-3343
- Tani, J.¹ Kimura, H.² Hirota, K.³ Kido, H.⁴

29
- 79951680924
- 8 reinforced epoxy
- 8 reinforced epoxy. Mater Sci Eng A 2011, 528:3367-3374.
- (2011) Mater Sci Eng A , vol.528 , pp. 3367-3374
- Chu, X.X.¹ Huang, R.J.² Yang, H.H.³ Wu, Z.X.⁴ Lu, J.F.⁵ Zhou, Y.⁶

30
- 84890893231
- Fine-grained antiperovskite manganese nitrides with negative thermal expansion for thermal expansion control of light transmitting polymers
- Ichigo M., Takenaka K. Fine-grained antiperovskite manganese nitrides with negative thermal expansion for thermal expansion control of light transmitting polymers. J Jpn Inst Met 2013, 77:415-418.
- (2013) J Jpn Inst Met , vol.77 , pp. 415-418
- Ichigo, M.¹ Takenaka, K.²

31
- 80054811886
- Adjustable zero thermal expansion in antiperovskite manganese nitride
- Song X.Y., Sun Z.H., Huang Q.Z., Rettenmayr M., Liu X.M., Seyring M., et al. Adjustable zero thermal expansion in antiperovskite manganese nitride. Adv Mater 2011, 23:4690-4694.
- (2011) Adv Mater , vol.23 , pp. 4690-4694
- Song, X.Y.¹ Sun, Z.H.² Huang, Q.Z.³ Rettenmayr, M.⁴ Liu, X.M.⁵ Seyring, M.⁶

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.