Method for producing improved heat transfer surface
First Claim
1. A method of providing a metal heat transfer member with a porous nucleate boiling surface comprising the steps of applying a porous layer of non-conductive reticulated organic foam material to the surface of the metal member and electroplating the exposed surfaces of the tube which underlie the pores of the reticulated foam material with a metal so as to form a built-up metal surface which overlies the surface of the metal member, is firmly adhered thereto, and which extends outwardly from said exposed surfaces through the pores of the foam.
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Accused Products
Abstract
The invention relates to improving the heat transfer properties in boiling liquids of tubes and other surfaces by applying a non-conductive very porous reticulated organic foam layer in contact with the tube surface, and then electroplating a metal coating on exposed portions of the tube to build up a matrix of metal through the porous portions of the foam layer. Preferably, the tube is copper and the plating consists of an electroplated layer of copper. The foam is preferably in the form of a thin tape which is spirally wound about the tube. Pyrolyzation of the foam after plating provides a network of interconnected pores in the metal matrix which improves the heat transfer performance of the tube. The plated tube may also be swaged.
14 Citations
8 Claims
- 1. A method of providing a metal heat transfer member with a porous nucleate boiling surface comprising the steps of applying a porous layer of non-conductive reticulated organic foam material to the surface of the metal member and electroplating the exposed surfaces of the tube which underlie the pores of the reticulated foam material with a metal so as to form a built-up metal surface which overlies the surface of the metal member, is firmly adhered thereto, and which extends outwardly from said exposed surfaces through the pores of the foam.
Specification