Brazing & Braze Welding With Oxyacetylene

Transcription

1 Brazing & Braze Welding With Oxyacetylene 1

2 Definition A group of process that use heat to melt a metallic bonding agent, but not the base metal. The adhesion quality of the bonding agent binds the parts together when cooled. 2

3 Three Common Processes Soldering Brazing Braze welding 3

4 Non-fusion welding Advantages & Disadvantages What are the advantages of non fusion welding. What are some of the disadvantages of fusion welding. 4

5 Four Requirements of Non fusion Welding 1 Clean metal 2 Appropriate filler rod 3 Correct flux 4 Heat 5

6 Non-fusion Requirements 1. Clean Metal Non-fusion processes bond metal by adhesion. What is adhesion? Requires a clean surface Can you think of one critical condition that is required for adhesion to be successful? --not a polished surface. Clean Polished What is the best method to use? 6

7 Non-fusion Requirements 2. Appropriate Filler Material Different filler materials are available for non fusion welding. Brazing: Brazing rod are available as bare rods or flux coated. Soldering: Solder can be solid or flux core. Flux core can be acid or rosin. Can be tin, silver or zinc alloy. Is filler material available in other forms? Yes 7

8 Non-fusion Requirements 3. Flux Three purposes of flux. 1. Chemically clean the metal 2. Shield from oxidation and atmospheric contamination 3. Promote wetting Flux must be compatible with the metal and filler material. What are the three common forms that are used for fluxes? 8

9 Non-fusion Requirements 4. Heat Sufficient heat (BTU s) must be available to raise the base metal temperature above the melting point of the filler rod. The decision on heat source to use is based on the mass of metal that must be heated, the welding process and the availability of equipment. 9

10 Non fusion Heat Sources Oxyacetylene Air acetylene Air propane (LPG) Oxypropane MAPP Electric soldering iron Electric soldering gun 10

11 Controlling Heat Metals are excellent conductors of heat Heat applied to joint moves away from the joint. The greater the mass of metal that must be heated--the greater the heat requirement. Excessive heat will cause the flux to burn. Contaminates the joint. Joint must be re cleaned Manipulation of the heat source may necessary to heat both pieces evenly. 11

12 Soldering 12

13 Definition A nonfusion process that uses a metal alloy that melts below 840 o F. 13

14 Soldering Relies upon capillary action. What is capillary action? What are the requirements for capillary action? Solder is divided into two categories; Soft Hard Describe soft soldering? How is hard soldering different from soft soldering? 14

15 Soldering Process 1. The joint area is cleaned and fluxed. 2. A heat source is used to raise the temperature of the base metal above the melting of the filler metal (<840 o F). 3. The filler metal is added to the joint. Filler material should melt from the heat of the metal, not the heat source. 4. The filler metal flows into the joint and adheres to the surfaces. 5. The heat source is removed and the filler metal solidifies, bonding the surfaces together. 15

16 Tinning Tinning is the process of applying a thin layer of filler rod to the surface of the metal. When would the tinning process be used? 16

17 Brazing A process that uses a metal alloy that melts above 840 o F, but less than the melting point of the base metal. Brazing relies on capillary action to draw the filler metal into the joint or to keep it in the joint. 17

18 Brazing Process 1. The joint area is mechanically cleaned and fluxed Flux can be applied before the joint is assembled, or during the brazing process. 2. The joint is assembled. May require clamping. 3. A heat source is used to raise the temperature of the base metal above the melting of the filler metal (>840 o F). Must insure the joint is not overheated. If this occurs the flux will burn and contaminate the joint. When the joint becomes contaminated it must be recleaned and refluxed before the welding can continue. 4. The filler metal is added to the joint. 5. The filler metal flows into the joint and adheres to the surfaces. 6. The heat source is removed and the filler metal solidifies, bonding the surfaces together. 18

19 Brazing Joints The tensile strength of brazing filler material is less than steel. The strength of the weld is increased if the joints are modified to increase the surface area. Tensile strength of brazing rod is ~40,000 psi. Tensile strength of steel electrode is 36,000 to 50,000 psi. 19

20 Braze welding A process that uses a metal alloy that melts above 840 o F, but less than the melding point of the base metal. Braze welding is the same process as brazing except it does not use capillary action and a visible bead is formed. Process: 1. The joint area is cleaned and fluxed. 2. A heat source is used to raise the temperature of the base metal to the melting temperature of the filler metal. If excessive heat is added to the joint, the flux will burn. When this occurs the process must start over. 3. The filler metal is added to the joint. 4. The filler metal adheres to both surfaces forming a bead. The puddle must be heated until the key hole collapses. 5. The heat source is removed and the filler metal solidifies, bonding the surfaces together. 20

21 Braze Welding Key Hole When the brazing rod is melted in the puddle, it will bridge across at first--form a key hole Sufficient heat must be added to cause the key hole to collapse. Failure to collapse the key hole will result in a joint that has incomplete penetration. 21

22 Braze Welding Joints The five (5) standard joints can be used for braze welding. Name them. The five (5) standard welding positions can be used for braze welding. Name them. 22

23 Questions? 23