TH5152B - Atmosphere for the on-site heat treatment using a nitrogen mixture produced by a non-cryogenic process with a hydrocarbon gas. - Google Patents

Abstract

What is proposed is an inexpensive, on-site atmosphere process suitable for anneling and heat treatment of ferrous and non-ferrous metals. Using steel and alloy and alloy welding, glass bonding to metal and fusion of metal and ceramic powders. in continuous kiln from the nitrogen produced by the non-cooling process The cold exposed process consists of mixing the residual oxygen nitrogen gas with the hydrocarbon gas in it. preset quantity Mixing gas through a device that It is not a type commonly used to enter the heating zone of the furnace for Continuous heat treatment change Residual oxygen to an acceptable form, eg. Mixture of moisture and carbon dioxide Mixtures of moisture, hydrogen, carbon monoxide and carbide dioxide or their mixtures of carbox monoxide and moisture and hydrogen and the use of Mixture of gases obtained in annel or heat treatment. to metals and alloys, alloy welding metal powder making and ceramic powder fused together and glass-to-metal bonding.

Claims (4)

1. Regulated aniloxide method for ferrous and alloy steels, which consists of a process of To heat such metals at atmospheric or high pressure. Than in a tropical kiln that maintains at least 700 ° C. Transmission of nitrogen containing no more than 5% oxygen by co-volume hydrocarbon gas into the zone of the aforementioned hydrocarbon gas is supplied into the furnace. Say with a variable flow rate from approximately 1.0 times to less than about 40.0 times the reactive quantity enough Well, that is required to completely change the residual oxygen Completely to be a mixture of moisture and carbon dioxide The hydrocarbons and the nitrogen are sent into the furnace. Burn it in the direction out of the metal. To let The reaction of oxygen to such hydrocarbon gases is Completely before the mixture touches the part. That is heated in the furnace and the movement of the part through the said furnace long enough to Will achieve the desired layer on the surface of the metal and The properties of the heat treatment required in the aforementioned section 2. Methods set out in claim 1 where the residual oxygen is converted to moisture and carbon dioxide 3. Methods as required. In claim number 1, which the residual oxygen is transformed into purchase carbon dioxide 4. Methods set out in claim 1, where hydrocarbon gases are gases classified as containing methane 5. Methods as defined in clause 1. Holds the 1st right, where hydrocarbon gas is an injected propane in an amount between 1.0 and 3.2 times the amount of the reaction that Must be used to convert residual oxygen into a mixture of Moisture and Carbon Dioxide 6. Methods set out in claim 1 that hydrocarbon gases are selectable from alkanes such as methane, ethane, propane and butane abcaine such as ethyl. Lean propylene and butyrate alcohol, such as methanob, ethanol and propanol ether, such as dimethyl ether diethyl E. Thur and Methyl Ethyl Ether And commercial raw materials such as natural gas, petroleum gas, LPG, oven gas, charcoal, hump gas, city gas, exothermic gas and Endothermic gas 7. Method as defined in claim 1, where nitrogen is formed through non-freezing method 8. Method as set out in claim 7, where nitrogen arising from method It is not cold with oxygen. The composition does not exceed approximately 5.0 percent by volume. 9. Method as defined in claim 7, where the nitrogen generated by the non-freezing method is oxygen-generating. Assembled not more than approximately 1.0 percent by volume 1 0. Method as defined in claim 1, the furnace is a continuous furnace with heating zone and zone. 1 1. Method as defined in claim 1, the furnace is a continuous furnace with a heating zone. And cooling down zone one 1. 2. Method as defined in claim 1, where the furnace is heated to a temperature between 700 degrees Celsius and 1,250 degrees Celsius 1 3. Method Anneal shine Oxide free and reduce Carbon is partially free and without carbon reduction and oxide free, and adds some carbon to the type of metal. Iron or alloy consisting of the steps of To heat such metals at atmospheric or high pressure. Than in a tropical kiln that maintains at least 700 ° C. Transmission of nitrogen with no more than 5% oxygen by volume in combination with hydrocarbon gas into the zone of the said hydrocarbon gas is transported into the furnace. Such a variable flow rate is approximately 1.5 times greater than the exact reaction volume required in the The complete conversion of residual oxygen to Mixture of moisture and carbon dioxide such hydrocarbons. And the nitrogen is sent into the furnace in the direction Out of the said metal In order to let the said reaction of Oxygen with hydrocarbon gases is complete. Before the mixture comes into contact with the part and the movement of it through the furnace for a long time Will achieve the properties of the heat treatment to be In this section 1 4. Methods set out in claim 13 in which residual oxygen is converted to moisture and Carbon Monoxide 1 5. Methods set out in claim 13, in which residual oxygen is converted to carbon dioxide, moisture, carbon monoxide or a mixture of these substances 1 6. Methods As set out in claim 13, where the nitrogen arises from the non-freezing method 1 7. Means as set out in claim 16, where the nitrogen produced by the non-freezing method contains oxygen. No more than 5.0 percent by volume 1 8. Method as defined in claim 16, where the nitrogen produced by the non-freezing method contains oxygen. The composition does not exceed 1.0 percent by volume 1. 9. Method as defined in claim 13, the furnace is a continuous furnace with heating zone and area. 2 0. Method as defined in claim 13, the furnace is a continuous furnace with zone heating zone. One and cooling down zone one 2 1.Methods set out in claim 13, where hydrocarbon gases are selectable from alkanes, such as methane, ethane, propane and butane, such as ethylene pro. Pilleen and butyrate alcohol, such as methan, ethanol, and propanol ether, such as dimethyl ether, diethyl ether and Methyl ethyl ether And commercial raw materials such as natural gas, petroleum gas, LPG, oven gas, charcoal, hump gas, city gas, exothermic gas and Endothermic gas 2 2. Methods set out in claim 21, in which hydrocarbons are natural gas or methane injected. At a dosage greater than 5.0 times to approximately 40 times the amount of reagent required for the change. Residual oxygen is a mixture of moisture and carbon dioxide 2. 3. Methods set out in claim 21, in which hydrocarbons are propane, injected in an amount higher than 1.5 times the exact amount of the reaction. Required to convert residual oxygen into mixtures Of moisture and carbon dioxide 2 4. Method as defined in claim 13, in which the furnace is heated to a temperature between 800 ° C and 1250 ° C.