-
1
-
-
0024926177
-
Nanocrystalline materials
-
Gleiter H. Nanocrystalline materials. Prog. Mater. Sci. 33 (1989) 223-315
-
(1989)
Prog. Mater. Sci.
, vol.33
, pp. 223-315
-
-
Gleiter, H.1
-
2
-
-
0003057636
-
New progress in nanomaterial preparation
-
(in Chinese)
-
Ni Y.H., Ge X.W., and Xu X.L. New progress in nanomaterial preparation. J. Inorg. Mater. 15 (2000) 9-15 (in Chinese)
-
(2000)
J. Inorg. Mater.
, vol.15
, pp. 9-15
-
-
Ni, Y.H.1
Ge, X.W.2
Xu, X.L.3
-
3
-
-
0029427666
-
Enhancing thermal conductivity of fluid with nanoparticles
-
Siginer D.A., and Wang H.P. (Eds), ASME FED-231, New York
-
Choi U.S. Enhancing thermal conductivity of fluid with nanoparticles. In: Siginer D.A., and Wang H.P. (Eds). Developments and Applications of Non-Newtonian Flows (1995), ASME FED-231, New York 99-105
-
(1995)
Developments and Applications of Non-Newtonian Flows
, pp. 99-105
-
-
Choi, U.S.1
-
4
-
-
0032825295
-
Measuring thermal conductivity of fluids containing oxide nanoparticles
-
Lee S., Choi U.S., and Li S. Measuring thermal conductivity of fluids containing oxide nanoparticles. J. Heat Transfer 121 (1999) 280-289
-
(1999)
J. Heat Transfer
, vol.121
, pp. 280-289
-
-
Lee, S.1
Choi, U.S.2
Li, S.3
-
5
-
-
0034069053
-
Heat transfer enhancement of nanofluids
-
Xuan Y., and Li Q. Heat transfer enhancement of nanofluids. Int. J. Heat Fluid Flow 21 (2000) 58-64
-
(2000)
Int. J. Heat Fluid Flow
, vol.21
, pp. 58-64
-
-
Xuan, Y.1
Li, Q.2
-
6
-
-
0036537378
-
Thermal conductivity enhancement of suspensions containing nanosized alumina particles
-
Xie H., Wang J., Xi T., Liu Y., Ai F., and Wu Q. Thermal conductivity enhancement of suspensions containing nanosized alumina particles. J. Appl. Phys. 91 (2002) 4568-4572
-
(2002)
J. Appl. Phys.
, vol.91
, pp. 4568-4572
-
-
Xie, H.1
Wang, J.2
Xi, T.3
Liu, Y.4
Ai, F.5
Wu, Q.6
-
8
-
-
0041520671
-
Pool boiling of nano-fluids on horizontal narrow tubes
-
Das S.K., Putra N., and Roetzel W. Pool boiling of nano-fluids on horizontal narrow tubes. Int. J. Multiphase Flow 29 (2003) 37-47
-
(2003)
Int. J. Multiphase Flow
, vol.29
, pp. 37-47
-
-
Das, S.K.1
Putra, N.2
Roetzel, W.3
-
9
-
-
0242580836
-
Effect of nanoparticles on critical heat flux of water in pool boiling heat transfer
-
You S.M., Kim J.H., and Kim K.H. Effect of nanoparticles on critical heat flux of water in pool boiling heat transfer. Appl. Phys. Lett. 83 (2003) 3374-3376
-
(2003)
Appl. Phys. Lett.
, vol.83
, pp. 3374-3376
-
-
You, S.M.1
Kim, J.H.2
Kim, K.H.3
-
10
-
-
0142156221
-
Pool boiling heat transfer experiments in silica-water nano-fluids
-
Vassallo P., Kumar R., and Amico S.D. Pool boiling heat transfer experiments in silica-water nano-fluids. Int. J. Heat Mass Transfer 47 (2004) 407-411
-
(2004)
Int. J. Heat Mass Transfer
, vol.47
, pp. 407-411
-
-
Vassallo, P.1
Kumar, R.2
Amico, S.D.3
-
11
-
-
0035827323
-
Natural convection of water-fine particle suspension in a rectangular vessel heated and cooled from opposing vertical walls (classification of natural convection in the case of suspension with a narrow-size distribution)
-
Kang C., Okada M., Hattori A., and Oyama K. Natural convection of water-fine particle suspension in a rectangular vessel heated and cooled from opposing vertical walls (classification of natural convection in the case of suspension with a narrow-size distribution). Int. J. Heat Mass Transfer 44 (2001) 73-82
-
(2001)
Int. J. Heat Mass Transfer
, vol.44
, pp. 73-82
-
-
Kang, C.1
Okada, M.2
Hattori, A.3
Oyama, K.4
-
13
-
-
0042342405
-
Buoyancy-driven heat transfer enhancement in a two-dimensional enclosure utilizing nanofluids
-
Khanafer K., Vafai K., and Lightstone M. Buoyancy-driven heat transfer enhancement in a two-dimensional enclosure utilizing nanofluids. Int. J. Heat Mass Transfer 46 (2003) 39-53
-
(2003)
Int. J. Heat Mass Transfer
, vol.46
, pp. 39-53
-
-
Khanafer, K.1
Vafai, K.2
Lightstone, M.3
-
14
-
-
3242669662
-
Analysis of convective instability and heat transfer characteristics of nanofluids
-
Kim N., Kang Y.T., and Choi C.K. Analysis of convective instability and heat transfer characteristics of nanofluids. Phys. Fluids 16 (2004) 395-401
-
(2004)
Phys. Fluids
, vol.16
, pp. 395-401
-
-
Kim, N.1
Kang, Y.T.2
Choi, C.K.3
-
20
-
-
0032043092
-
Hydrodynamic and heat transfer study of dispersed fluid with submicron metallic oxide particles
-
Pak B.C., and Cho Y.I. Hydrodynamic and heat transfer study of dispersed fluid with submicron metallic oxide particles. Exp. Heat Transfer 11 (1998) 151-170
-
(1998)
Exp. Heat Transfer
, vol.11
, pp. 151-170
-
-
Pak, B.C.1
Cho, Y.I.2
-
22
-
-
33749265111
-
Measurements of nanofluid viscosity and its implications for thermal applications
-
133108-1-133108-3
-
Prasher R., Song D., Wang J., and Phelan P.E. Measurements of nanofluid viscosity and its implications for thermal applications. Appl. Phys. Lett. 89 (2006) 133108-1-133108-3
-
(2006)
Appl. Phys. Lett.
, vol.89
-
-
Prasher, R.1
Song, D.2
Wang, J.3
Phelan, P.E.4
-
23
-
-
35748946934
-
Viscosity of copper oxide nanoparticles dispersed in ethylene glycol and water mixture
-
Namburu P.K., Kulkarni D.P., Misra D., and Das D.K. Viscosity of copper oxide nanoparticles dispersed in ethylene glycol and water mixture. Exp. Ther. Fluid Sci. 32 (2007) 397-402
-
(2007)
Exp. Ther. Fluid Sci.
, vol.32
, pp. 397-402
-
-
Namburu, P.K.1
Kulkarni, D.P.2
Misra, D.3
Das, D.K.4
-
24
-
-
34547732411
-
Rheological behavior of ethylene glycol based titania nanofluids
-
Chen H., Ding Y., He Y., and Tan C. Rheological behavior of ethylene glycol based titania nanofluids. Chem. Phys. Lett. 444 (2007) 333-337
-
(2007)
Chem. Phys. Lett.
, vol.444
, pp. 333-337
-
-
Chen, H.1
Ding, Y.2
He, Y.3
Tan, C.4
-
25
-
-
0012452966
-
The viscosity of concentrated suspensions and solution
-
Brinkman H.C. The viscosity of concentrated suspensions and solution. J. Chem. Phys. 20 (1952) 571-581
-
(1952)
J. Chem. Phys.
, vol.20
, pp. 571-581
-
-
Brinkman, H.C.1
-
26
-
-
0017551342
-
The effect of Brownian motion on the bulk stress in a suspension of spherical particles
-
Batchelor G.K. The effect of Brownian motion on the bulk stress in a suspension of spherical particles. J. Fluid Mech. 83 (1977) 97-117
-
(1977)
J. Fluid Mech.
, vol.83
, pp. 97-117
-
-
Batchelor, G.K.1
-
27
-
-
84892289943
-
A mechanism for non-Newtonian flow in suspensions of rigid spheres
-
Krieger I.M., and Dougherty T.-J. A mechanism for non-Newtonian flow in suspensions of rigid spheres. Trans. Soc. Rheol. 3 (1959) 137-152
-
(1959)
Trans. Soc. Rheol.
, vol.3
, pp. 137-152
-
-
Krieger, I.M.1
Dougherty, T.-J.2
-
28
-
-
84994728034
-
A new model for calculating the effective viscosity of nanofluids
-
Masoumi N., Sohrabi N., and Behzadmehr A. A new model for calculating the effective viscosity of nanofluids. J. Phys. D: Appl Phys. 42 (2009) 055501
-
(2009)
J. Phys. D: Appl Phys.
, vol.42
, pp. 055501
-
-
Masoumi, N.1
Sohrabi, N.2
Behzadmehr, A.3
-
29
-
-
0037570726
-
A fractal model for predicting the effective thermal conductivity of liquid with suspension of nanoparticles
-
Wang B.X., Zhou L.P., and Peng X.P. A fractal model for predicting the effective thermal conductivity of liquid with suspension of nanoparticles. Int. J. Heat Mass Transfer 46 (2003) 2665-2672
-
(2003)
Int. J. Heat Mass Transfer
, vol.46
, pp. 2665-2672
-
-
Wang, B.X.1
Zhou, L.P.2
Peng, X.P.3
-
30
-
-
0031143265
-
Effective thermal conductivity of particulate composites with interfacial thermal resistance
-
Nam C.W., Birringer R., Clarke D.R., and Gleiter H. Effective thermal conductivity of particulate composites with interfacial thermal resistance. J. Appl. Phys. 81 (1977) 6692-6699
-
(1977)
J. Appl. Phys.
, vol.81
, pp. 6692-6699
-
-
Nam, C.W.1
Birringer, R.2
Clarke, D.R.3
Gleiter, H.4
-
31
-
-
33746933431
-
Effect of aggregation kinetics on the thermal conductivity of nanoscale colloidal solutions (nanofluids)
-
Prasher R., Phelan P.E., and Bhattacharya P. Effect of aggregation kinetics on the thermal conductivity of nanoscale colloidal solutions (nanofluids). Nano Lett. 6 (2006) 1529-1534
-
(2006)
Nano Lett.
, vol.6
, pp. 1529-1534
-
-
Prasher, R.1
Phelan, P.E.2
Bhattacharya, P.3
-
32
-
-
33749133126
-
An empirical equation of the relative viscosity of polymer melts filled with various inorganic fillers
-
Kitano T., Kataoka T., and Shirota T. An empirical equation of the relative viscosity of polymer melts filled with various inorganic fillers. Rheol. Acta 20 (1981) 207-209
-
(1981)
Rheol. Acta
, vol.20
, pp. 207-209
-
-
Kitano, T.1
Kataoka, T.2
Shirota, T.3
-
33
-
-
0037472162
-
3 powders in ethanol-isopropanol mixtures
-
3 powders in ethanol-isopropanol mixtures. Mater. Chem. Phys. 80 (2003) 232-238
-
(2003)
Mater. Chem. Phys.
, vol.80
, pp. 232-238
-
-
Tseng, W.1
Lin, C.-L.2
-
34
-
-
0034322664
-
m determination and viscosity prediction
-
m determination and viscosity prediction. J. Mater. Sci. 35 (2000) 5503-5507
-
(2000)
J. Mater. Sci.
, vol.35
, pp. 5503-5507
-
-
Liu, D.M.1
-
40
-
-
33745599377
-
Temperature dependent rehological property of copper oxide nanoparticles suspension
-
Kulkarni D.P., Das D.K., and Chukwu G.A. Temperature dependent rehological property of copper oxide nanoparticles suspension. J. Nanosci. Nanotechnol. 6 (2006) 1150-1154
-
(2006)
J. Nanosci. Nanotechnol.
, vol.6
, pp. 1150-1154
-
-
Kulkarni, D.P.1
Das, D.K.2
Chukwu, G.A.3
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