Microlamination involves the patterning, registration, and bonding of thin layers of material, called laminae, to produce highly paralleled, spatially intensified microchannel systems for the bulk processing of mass and energy. A Thermally Enhanced Edge Registration (TEER) technique has been developed for precision aligning large numbers of laminae in diffusion-bonding processes based on the differential thermal expansion between the laminae and bonding fixture. However, fixture tolerances necessary to promote buckle-free TEER bonding have been found to be very small (below 10 μm). This research focuses on the development of a new approach to thermal registration based on fixture compliance to permit looser fixture tolerances. An analysis based on both fin-buckling behavior and the compliance of the fixture is implemented to investigate the tolerance limit of a compliant TEER fixture. Experiments are conducted to verify the theoretical model. Results show that a compliant fixture can permit an acceptable tolerance limit in TEER.

Issue Section:
Technical Briefs
Keywords:
fixtures, laminates, thermal management (packaging), buckling, nondestructive testing, thermal analysis, micromachining
Topics:
Bonding, Buckling, Microchannels, Temperature, Deflection
1.
Kawano, K., Minakami, K., Iwasaki, H., and Ishizuka, M., 1998, “Micro Channel Heat Exchanger for Cooling Electrical Equipment,” Proc. ASME Heat Transfer Division, ASME, New York, HTD-361-3, pp. 173–180.
2.
Martin, P. M., Matson, D. W., Bennett, W. D., Stewart, D. C., and Lin, Y., 1999, “Laser Micromachined and Laminated Microfluidic Components for Miniaturized Thermal, Chemical and Biological Systems,” Proc. SPIE, Bellingham, WA.
3.
Matson, D. W., Martin, P. M., Stewart, D. C., Tonkovich, A. L. Y., White, M., Zilka, J. L., and Roberts, G. L., 1999, “Fabrication of Microchannel Chemical Reactors Using a Metal Lamination Process,” 3rd International Conference on Microreaction Technology, Frankfurt, Pacific Northwest National Laboratory.
4.
Martin
,
P. M.
,
Matson
,
D. W.
, and
Bennett
,
W. D.
,
1999
, “
Microfabrication Methods For Microchannel Reactors and Separations Systems
,”
Chem. Eng. Commun.
,
173
, pp.
245
254
.
5.
Daymo, E. A., VanderWiel, D. P., Fitzgerald, S. P., Wang, Y., Rozmiarek, R. T., LaMont, M. J., and Tonkovich, A. L. Y., 2000, “Microchannel Fuel Processing for Man Portable Power,” AIChE 2000 Spring National Meeting, Atlanta.
6.
Tonkovich, A. L. Y., Zilka, J. L., Jimenez, D. M., LaMont, M. J., and Wegeng, R. S., 1998, “Microchannel Chemical Reactors for Fuel Processing,” AIChE 1998 Spring National Meeting, New Orleans.
7.
Drost, M. K., Wegeng, R. S., Martin, P. M., Brooks, K. P., Martin, J. L., and Call, C., 2000, “MicroHeater,” AIChE 2000 Spring National Meeting, Atlanta, Pacific Northwest National Laboratory.
8.
Drost, M. K., and Friedrich, M., 1997, “Miniature Heat Pumps for Portable and Distributed Space Conditioning Applications,” Proc. IECEC, Honolulu, HI, pp. 1271–1274.
9.
Paul
,
B. K.
, and
Thomas
,
J.
,
2003
, “
Thermally-Enhanced Edge Registration (TEER) for Aligning Metallic Microlaminated Devices
,”
J. Manuf. Process.
,
5
(
2
), pp.
185
193
.
10.
Wattanutchariya
,
W.
, and
Paul
,
B. K.
,
2004
, “
Bonding Fixture Tolerances for High-Volume Metal Microlamination Based on Fin Buckling and Laminae Misalignment Behavior
,”
J. Precision Eng.
,
28
(
2
), pp.
117
128
.
11.
Gere, J. M., and Timoshenko, S. P., 1997, Mechanics of Materials, PWS-Kent, Boston.
Copyright © 2004
 by ASME
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