nach oben

Journal of Materials Science

Erschienen in:

01.01.2014 | Review

Review: tailoring the properties of macroporous carbon foams

verfasst von: Bogumiła Nagel, Sławomira Pusz, Barbara Trzebicka

Erschienen in: Journal of Materials Science | Ausgabe 1/2014

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

Carbon foams are non-toxic, highly porous, light materials which demonstrate a wide range of properties. That fact allows carbon foams to be applied in many areas of life, ranging from electronics industry, through machinery, car and construction industry, to environmental protection. The properties of carbon foams are closely connected with their density, and its value is especially influenced by their internal structure, i.e. mainly size and number of pores, pore wall thickness and structural order of solid matrix. That is why it is possible to design the properties of carbon foams by controlling their growth. The main control factors are selecting the suitable raw material, the process parameters (temperature and pressure) and the suitable production method. Additionally, the properties of carbon foams may be modified by doping them with carbon or mineral fillers. The second method is the enrichment of carbon matrix with heteroatoms, mainly of boron and nitrogen. This paper presents the review of the possibilities of tailoring the structure and properties of carbon foams, based on the current level of knowledge available in the literature.

Nächster Artikel Different models of hardness evolution in ultrafine-grained materials processed by high-pressure torsion

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Ford WD (1964) Method of making of cellular refractory thermal insulating materials. US Patent 3121050

Miller DJ, Lewis IC, Shao RL, Yazici MS (2010) Irradiaton effects on graphite foam reinforced resin-derived carbon foam. US Patent 7758779

Wang X, Zhong J, Wang J, Yu M (2006) Carbon 44:1560CrossRef

Luo R, Ni Y, Li J, Yang C, Wang S (2011) Mat Sci Eng A 528:2023CrossRef

Wang S, Luo R, Ni Y (2010) Mat Sci Eng A 527:3392CrossRef

Wu X, Liu Y, Fang M, Mei L, Luo B (2011) Carbon 49:1782CrossRef

Googin JM, Napier JM, Scrivner ME (1967) Method of manufacturing foam carbon products. US Patent 3345440

Duffy AJ, Kaplan RB, Racik SA, Stankiewicz EP, Tuffias RH, Wiliams BE (1994) Filter and method of foaming. US Patent 5,372,380

Fay TF, Ferla RL, Sherman AJ, Stankiewicz EP (2000) Foam catalyst support for exhaust purification. US Patent 6,040,266

10.

Stankiewicz EH (2000) US patent 6:103

11.

Inagaki M, Morishita T, Kuno A, Kito T, Hirano M, Suwa T, Kusakawa K (2004) Carbon 42:497CrossRef

12.

Chen Y, Chen BZ, Shi XC, Xu H, Hu YJ, Yuan Y, Shen NB (2007) Carbon 45:2126CrossRef

13.

Joseph BE, Rogers DK (2005) Composite tooling. US Patent 6849098 B1

14.

Rogers DK, Płuciński JW (2005) Reinforced designed cellular coal. US Patent 6861151 B1

15.

Chen C, Kennel EB, Stiller AH, Stansberry PG, Zondlo JW (2006) Carbon 44:1535CrossRef

16.

Stiler AH, Stansberry PG, Zondlo JW (2002) Method of making carbon foam material and resultant product. US Patent 6,346,226 B1

17.

Klett JW (2001) Pitch-Based carbon foam and composites. US Patent 6261485

18.

Calvo M, Garcia R, Arenillas A, Suarez I, Moinelo SR (2005) Fuel 84:2184CrossRef

19.

Klett JW, Burchell, Choundhury (2004) Pitch-based carbon foam and composites and used thereof. US Patent 6673328

20.

Kalback WM, Romine E, Bouratt XM (1993) Solvated mesophase pitches. US Patent 5,259,947

21.

Klett JW (2000) Process for making carbon foam. US Patent 3914392

22.

Meikleham N, Pizzi A (1994) J Appl Polym Sci 53:1547CrossRef

23.

Tondi G, Pizzi A, Pasch H, Celzard A (2008) Polym Degrad Stab 93:968CrossRef

24.

Tondi G, Pizzi A, Masson E, Celzard A (2008) Polym Degrad Stab 93:1539CrossRef

25.

Tondi G, Pizzi A, Pasch H, Celzard A, Rode K (2008) Eur Polym J 44:2938CrossRef

26.

Tondi G, Pizzi A (2009) Ind Crop Prod 29(1–2):356CrossRef

27.

Tondi G, Pizzi A, Delmotte L, Parmentier J, Gadiou R (2010) Ind Crop Prod 31:327CrossRef

28.

Lacoste C, Basso MC, Pizzi A, Laborie MP, Celzard A, Fierro V (2013) Ind Crop Prod 43:245CrossRef

29.

Li X, Basso MC, Braghiroli FL, Fierro V, Pizzi A, Celzadr A (2012) Carbon 50:2026CrossRef

30.

Tondi G, Zhao W, Pizzi A, Du G, Fierro V, Celzard A (2009) Biores Technol 100:5162CrossRef

31.

Zhao W, Pizzi A, Fierro V, Du G, Celzard A (2010) Mater Chem Phys 122:175CrossRef

32.

Zhao W, Pizzi A, Fierro V, Du G, Celzard A (2010) Mater Chem Phys 123:210CrossRef

33.

Tondi G, Fierro V, Pizzi A, Celzard A (2009) Carbon 47:1480CrossRef

34.

Li X, Pizzi A, Cangemi M, Navarrete P, Segovia C, Fierro V, Celzard A (2012) Ind Crop prod 37:149CrossRef

35.

Li X, Pizzi A, Cangemi M, Fierro V, Celzard A (2012) Ind Crop Prod 37:389CrossRef

36.

Li X, Srivastava VK, Pizzi A, Celzard A, Leban J (2013) Ind Crop Prod 43:636CrossRef

37.

Wang R, Li W, Liu S (2012) J Mater Sci 47:1977. doi:10.1007/s10853-011-5993-7 CrossRefADS

38.

Narasimman R, Prabhakaran K (2012) Carbon 50:1999CrossRef

39.

Prabhakaran K, Singh PK, Gokhale NM, Sharma SC (2007) J Mater Sci 42:3894. doi:10.1007/s10853-006-0481-1 CrossRefADS

40.

Narasimman R, Prabhakaran K (2012) Carbon 50:5583CrossRef

41.

Liu S, Huang Z, Wang R (2013) Mat Res Bull 48:2437CrossRef

42.

Klett J (2005) In: Scheffler M, Colombo P (eds) Cellular ceramics: structure, manufacturing, properties and applications. Wiley, Weinheim, p 137

43.

Heine T, Zhechkov L, Patchkovski (2007) SPIE Newsroom. doi:10.1117/2.1200704.0714

44.

Klett JW, Hardy R, Romine E, Walls CA, Burchell TD (2000) Carbon 38:953CrossRef

45.

Klett JW, McMillan Gallego NC, Burchell TD, Walls CA (2004) Carbon 42:1849CrossRef

46.

Tsyntsarski B, Petrova B, Budinova T, Petrov N, Krzesinska M, Pusz S, Majewska J, Tzvetkov P (2010) Carbon 48:3523CrossRef

47.

Wang MX, Wang CY, Li TQ, Hu ZJ (2008) Carbon 46:84CrossRef

48.

Wang MX, Wang CY, Chen MM, Li TQ, Hu ZJ (2009) New Carbon Mater 24:321CrossRef

49.

Fawcett W, Shetty DK (2010) Carbon 48:68CrossRef

50.

van Krevelen DW (1993) Typology-physics-chemistry-constitution. Elsevier, Amsterdam

51.

Min Z, Cao M, Zhang S, Wang X, Wang Y (2007) New Carbon Mater 22:75CrossRef

52.

Wang Y, Min Z, Cao M, Xu D (2009) New Carbon Mater 24:321CrossRef

53.

Stiller AH, Yocum A, Plucinski J (2001) Method of making a reinforced carbon foam material and related product. US Patent 6183854

54.

Rios RVRA, Martinez-Escandell M, Molina-Sabio M, Rodriguez-Reinoso F (2006) Carbon 44:1448CrossRef

55.

Petrova B, Budinova T, Petrov N, Yardim MF, Ekinci E, Razvigorova M (2005) Carbon 43:261CrossRef

56.

Tsyntsarski B, Petrova B, Budinova T, Petrov N, Velasco LF, Parra JB, Ania CO (2012) Microporous Mesoporous Mater 154:56CrossRef

57.

Velasco LF, Tsyntsarski B, Petrova B, Budinowa T, Petrov N, Parra JB, Ania CO (2012) J Hazard Mater 184:843CrossRef

58.

Lei S, Guo Q, Shi J, Liu L (2010) Carbon 48:2644CrossRef

59.

Gebhart JJ, Juneau PJ Jr (1984) Low density thermally insulating carbon–carbon syntactic foam composite. US Patent 4442165

60.

Abrams FL, Hager JW, Hall RB (1998) Carbon or Graphite foam reinforced composites. US Patent 5770127

61.

Li WQ, Zhang HB, Xiong X, Xiao F (2011) Mat Sci Eng A 528:2999CrossRef

62.

Zhang L, Ma J (2009) Carbon 47:1451CrossRef

63.

Wang X, Luo R, Ni Y, Zhang R, Wang S (2009) Mater Lett 63:25CrossRef

64.

Mayer ST, Pekala RW, Morrison RL, Kaschmitter L (1994) Doping of carbon foams for use in energy storage devices. US Patent 5358802

65.

Allardice DJ, Walker PL Jr (1970) Carbon 8:375CrossRef

66.

Tanaka U, Sogabe T, Sakagoshi H, Ito M, Tojo T (2001) Carbon 39:931CrossRef

67.

Paul R, Voevodin AA, Zemlyanov D, Roy AJ, Fisher TS (2012) Adv Funct Mater 22:3682CrossRef

68.

Rodriguez E, Camean I, Garcia R, Garcia AB (2011) Electrochim Acta 56:5090CrossRef

69.

Rodriguez E, Garcia R (2012) Fuel 93:288CrossRef

70.

Kodama M, Yamashita J, Soneda Y, Hatori H, Kamegawa K (2007) Carbon 45:1105CrossRef

71.

Paul R, Voevodin AA, Hu PB, Amama PB, Ganguli S, Roy AK, Zemlyanov D, Fisher TS (2013) Thin Solid Film 528:187CrossRefADS

72.

Li WQ, Zhang HB, Xiong X, Xiao F (2010) Mat Sci Eng A527:2993CrossRef

73.

Lafdi K, Almajali M, Huzayyin O (2009) Carbon 47:2620CrossRef

74.

Almajali M, Lafdi K, Prodhomme PH, Ochoa O (2010) Carbon 48:1604CrossRef

75.

Almajali M, Lafdi K (2010) Carbon 48:4238CrossRef

76.

Almajali M, Lafdi K, Prodhomme PH (2013) Energy Convers Manag 66:336CrossRef

77.

Yo Q, Straatman AG, Thompson BE (2006) Therm Eng 26:131CrossRef

78.

Frackowiak E, Kierzek K, Lota G, Machnikowski J (2008) J Phys Chem Solids 69:1179CrossRefADS

79.

Lv YK, Feng YL, Gan LH, Liu MX, Xu L, Liu C, Zheng HW, Li J (2012) J Solid State Chem 185:198CrossRefADS

80.

He X, Tang Z, Zhu Y, Yang J (2013) Mat Lett 94:55CrossRefADS

81.

He X, Zhou X, Su B (2009) Mater Lett 63:830CrossRef

82.

Fan Z, Qi D, Xiao Y, Yan J, Wei T (2013) Mat Lett 101:29CrossRefADS

83.

Celzard A, Tondi G, Lacroix D, Jeandel G, Monod B, Fierro V, Pizzi A (2012) Carbon 50:4102CrossRef

84.

Amaral-Labat G, Gourdon E, Fierro V, Pizzi A, Celzard A (2013) Carbon 58:76CrossRef

85.

Gallego NC, Klett JW (2003) Carbon 41:1461CrossRef

86.

http://www.cfoam.com/data.htm. Accessed 20 Feb 2013

87.

http://www.ergaerospace.com/RVC-properties.htm. Accessed 20 Feb 2013

Titel: Review: tailoring the properties of macroporous carbon foams
verfasst von: Bogumiła Nagel
Sławomira Pusz
Barbara Trzebicka
Publikationsdatum: 01.01.2014
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 1/2014
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-013-7678-x

Premium Partner

Marktübersichten

Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.

Zur Marktübersicht

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 1/2014

Thermally stable and highly conductive free-standing hybrid films based on reduced graphene oxide

Thermal expansion coefficient and thermal fatigue of discontinuous carbon fiber-reinforced copper and aluminum matrix composites without interfacial chemical bond

Temperature-dependent elastic stiffness constants of fcc-based metal nitrides from first-principles calculations

A simple methodology to visualize crack propagation for ceramic materials

Production and properties of a precision-cast bio-inspired composite

The strength of glass fibre reinforcement after exposure to elevated composite processing temperatures

Premium Partner

Marktübersichten