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A method of coating a catalyst layer on a metallic substrate includes preparing a metal oxide and binder slurry to coat onto a metal surface and forming a catalytic layer over the slurry coated surface. The slurry may be made from a binder containing, for example, fully dissolved alumina in the pres

A method of coating a catalyst layer on a metallic substrate includes preparing a metal oxide and binder slurry to coat onto a metal surface and forming a catalytic layer over the slurry coated surface. The slurry may be made from a binder containing, for example, fully dissolved alumina in the presence of excess nitric acid. The binder may then be mixed with a metal oxide mixture to form the metal oxide-binder slurry. The metal oxide mixture may contain aluminum oxide or partially hydrated aluminum oxide. The metal oxide-binder slurry can be used to coat the surfaces of a variety of metals such as aluminum, titanium, nickel, cobalt, chromium, iron, copper, etc., or their alloys that include brass, as well as stainless steel with or without Al as a component.

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A method of coating a catalyst layer on a metallic substrate includes preparing a metal oxide and binder slurry to coat onto a metal surface and forming a catalytic layer over the slurry coated surface. The slurry may be made from a binder containing, for example, fully dissolved alumina in the pres

A method of coating a catalyst layer on a metallic substrate includes preparing a metal oxide and binder slurry to coat onto a metal surface and forming a catalytic layer over the slurry coated surface. The slurry may be made from a binder containing, for example, fully dissolved alumina in the presence of excess nitric acid. The binder may then be mixed with a metal oxide mixture to form the metal oxide-binder slurry. The metal oxide mixture may contain aluminum oxide or partially hydrated aluminum oxide. The metal oxide-binder slurry can be used to coat the surfaces of a variety of metals such as aluminum, titanium, nickel, cobalt, chromium, iron, copper, etc., or their alloys that include brass, as well as stainless steel with or without Al as a component. g. 1992; pp. 756-760; Acta Anaesthesiologica Scandinavia. Jos R.C. Jansen, Ph.D., et al., (1997) Near Continuous Cardiac Output b Thermodilution. Journal of Clinical Monitoring 13:233-239. Kimoto; Open Heart Surgery under Direct Vision with the Aid of Brain-Cooling by Irrigation; Jul. 1955; pp. 592-603; Surgery, vol. 39, No. 4. Marekovic, Z.; Abstract of Renal Hypothermia in Situ by Venous Passages: Experimental Work on Dogs; 1980; Eur Urol 6(2); 1 p.. Meden; Effect of Hypothermia and Delayed Thrombolysis in a Rat Embolic Stroke Model; Dec. 1993; pp. 91-98; Acta Neurologica Scandinavica. Meden; The Influence of Body Temperature on Infarct Volume and Thrombolytic Therapy in a Rat Embolic Stroke Model; Feb. 1994; pp. 131-138; Brain Research, vol. 647. Milleret, Rene; La cryo-chirurgie danes les varices des mimbres inferieurs; Angiologie; Supplement au No. 110. Milleret; Abract of Cryosclerosis of the Saphenous Veins in Varicose Reflux in the Obese and Elderly; 10. 1981; one p.; Phlebologie, vol. 34, No. 4. Parkins; Brain Cooling in the Prevention of Brain Damage During Periods of Circulatory Occlusion in Dogs; Apr. 1954; pp. 284-289; Annals of Surgery, vol. 140, No. 3. Piepgras; Rapid Active Internal Core Cooling for Induction of Moderate Hypothermia in Head Injury by Use of an Extracorporeal Heat Exchanger; Feb. 1998; pp. 311-318; Neurosurgery, vol. 42, No. 2. Rijken; Plasminogen Activation at Low Temperatures in Plasma Samples Containing Therapeutic Concentrations of Tissue-Type Plasminogen Activator or Other Thrombolytic Agents; Oct. 1989; pp. 47-52; place of publication unknown. Schwartz, A.E. et al.; (1996); Isolated cerebral hypothermia by single carotid artery perfusion of extracorporeally cooled blood in baboons; Neurosurgery 39(3):577-582. Schwartz; Cerebral Blood Flow during Low-flow Hypothermic Cardiopulmonary Bypass in Baboons; Jun. 1994; pp. 959-964; Anesthesiology, vol. 81, No. 4. Schwartz; Selective Cerebral Hypothermia by Means of Transfemoral Internal Carotid Artery Catheterization; May 1996; pp. 571-572; Radiology, vol. 201, No. 2. Steen; The Detrimental Effects of Prolonged Hypothermia and Rewarming in the Dog; Aug. 1979; pp. 224-230; Anesthesiology, vol. 52, No. 3. Vandam; Hypothermia; Sep. 1959; pp. 546-553; The New England Journal of Medicine. White; Cerebral Hypothermia and Circulatory Arrest; Jul. 1978; pp. 450-458; Mayo Clinic Proceedings, vol. 53. Yenari; Thrombolysis with Tissue Plasminogen Activator (TPA) is Temperature Dependent; Jul. 1994; pp. 475-481; Thrombosis Research, vol. 77, No. 5. Yoshihara; Changes in Coagulation and Fibrinolysis Occurring in Dogs during Hypothermia; Aug. 1984; pp. 503-512; Thrombosis Research , vol. 37, No. 4. Zarins; Circulation in Profound Hypothermia; Nov. 1972; pp. 97-104; Journal of Surgical Research, vol. 14, N. 2. Cabanac, M., Selective Brain Cooling and Thermoregulatory Set-Point, 1998, pp. 3-13, Journ. of Basic & Clinical Physiology & Pharmacology, vol. 9, N. 1. Cabanac, M.; Selective Brain Cooling in Humans; fancy or fact?; The FASEB Journal; vol. 7; pp. 1143-1147 (Sep. 1993). Capogna, G. and D. Celleno, I. V. Clonidine for Post-Extradural Shivering in Parturients: A Preliminary Study, 1993, Brit. Journ. of Anaesth., vol. 71. Carrol et al. "A comparison of measurements from a temporal artery thermometer and a pulmonary artery thermistor--preliminary results." Fax Correspondence dated Oct. 19, 2001. Cheng, C., T. Matsukawa, D. I. Sessler, M. Ozaki, A. Kurz, B. Merrifield, L. Hank, and P. Olofsson, Increasing Mean Skin Temperature Linearly Reduces the Core-Temperature Thresholds for Vasoconstriction and Shivering in Humans, May 1995, pp. 1160-1168, Anesthesiology, vol. 82, N. 5. De Ford et al. "Design and evaluation of closed-loop feedback control of minimum temperatures in human intracranial tumours treated with interstitial hyperthermia," Med. & Biol. Eng.& Comput. 29:197-206, Mark 1991. Deklunder, G., M. Dauzat, J-L. Lecroart, J-J. Haus