Oxyacetylene Welding Cutting The oxyacetylene welding process uses

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Oxyacetylene Welding / Cutting The oxyacetylene welding process uses a combination of oxygen and

Oxyacetylene Welding / Cutting The oxyacetylene welding process uses a combination of oxygen and acetylene gas to provide a high temperature flame.

Oxyacetylene • Two gases that are mixed inside a torch to produce a flame

Oxyacetylene • Two gases that are mixed inside a torch to produce a flame that burn at a high temperature to weld or cut metal.

Oxygen • Compressed into specially constructed, seamless steel containers at 2200 psi. Used to

Oxygen • Compressed into specially constructed, seamless steel containers at 2200 psi. Used to in welding to aid for heat and in cutting to blast away metal. Right Handed Threads

Acetylene • Not found in a free state in nature, acetylene gas is stored

Acetylene • Not found in a free state in nature, acetylene gas is stored at a pressure of 225 to 250 psi. with the aid of an acetone and calcium silicate filler. Used to aid in high heat and very flammable. Left Handed Threads

Typical Oxyacetylene Welding Station

Typical Oxyacetylene Welding Station

Regulators

Regulators

Regulators – Gauge on right is cylinder gauge. Gauge on left is working pressure

Regulators – Gauge on right is cylinder gauge. Gauge on left is working pressure gauge. Regulators perform two functions: • 1 – Reduces high cylinder pressure into low working pressure. • 2 - Supplies a constant gas pressure at the torch even when the cylinder pressure has dropped.

Regulator Hoses – Attached to the regulators, allows the flow of gas from the

Regulator Hoses – Attached to the regulators, allows the flow of gas from the regulators to the torch. • Hoses are fabricated from rubber • Oxygen hoses are green in color and have right hand thread. • Acetylene hoses are red in color with left hand thread. • Left hand threads can be identified by a grove in the body of the nut and it may have “ACET” stamped on it

Flashback Arrestors • Allows gases to flow in only one direction and stop a

Flashback Arrestors • Allows gases to flow in only one direction and stop a flame caused by a flashback from flowing up the hose to the regulator.

Check Valves & Flashback Arrestors • Check valves allow gas flow in one direction

Check Valves & Flashback Arrestors • Check valves allow gas flow in one direction only • Flashback arrestors are designed to eliminate the possibility of an explosion at the cylinder. • Combination Check/ Flashback Valves can be placed at the torch or regulator.

Torch – Designed to use a welding tip, cutting tip, or a heating tip

Torch – Designed to use a welding tip, cutting tip, or a heating tip (rose bud).

Typical torch styles • A small welding torch, with throttle valves located at the

Typical torch styles • A small welding torch, with throttle valves located at the front end of the handle. Ideally suited to sheet metal welding. Can be fitted with cutting • attachment in place of the welding head shown. Welding torches of this general design are by far the most widely used. They will handle any oxyacetylene welding job, can be fitted with multiflame (Rosebud) heads for heating applications, and accommodate cutting attachments that will cut steel 6 in. thick. • A full-size oxygen cutting torch which has all valves located in its rear body. Another style of cutting torch, with oxygen valves located at the front end of its handle.

Caps Must be placed on bottles in storage or transport.

Caps Must be placed on bottles in storage or transport.

SAFETY! 1. Never use oil or other petroleum based products on oxyacetylene fitting or

SAFETY! 1. Never use oil or other petroleum based products on oxyacetylene fitting or connections. 2. Never have the working pressure of acetylene above 15 psi. Acetylene is very unstable above 15 psi and high explosive.

SAFETY! 3. Never Stand in front of or behind a regulator when opening the

SAFETY! 3. Never Stand in front of or behind a regulator when opening the cylinder valve. Always stand so that the cylinder is between you and the regulator. 4. DO NOT open acetylene cylinder valves more than 1 ½ turns, preferably ¾ turn. 5. Point Flame away from people, equipment, and any flammable materials. 6. If you detect a leak on any part of the oxyacetylene equipment, turn off all valves and tell the instructor.

Lighting the Torch 1. Adjust the gas regulators to the correct pressure for the

Lighting the Torch 1. Adjust the gas regulators to the correct pressure for the size and type of tip to be used. 2. Hold the torch in one hand the spark lighter (striker) in the other. Be sure the striker is away from the tip and not obstructing the flow of gas.

Lighting the Torch 3. Open the acetylene valve 1/8 to ¼ turn. Ignite the

Lighting the Torch 3. Open the acetylene valve 1/8 to ¼ turn. Ignite the gas by sliding the flint across the bar on the striker. 4. Open the acetylene valve until little or no smoke is being produced. 5. Open the oxygen valve slowly until you produce a neutral flame.

Flames Neutral Flame Carburizing Flame Oxidizing Flame

Flames Neutral Flame Carburizing Flame Oxidizing Flame

Pure Acetylene and Carburizing Flame profiles

Pure Acetylene and Carburizing Flame profiles

Neutral and Oxidizing Flame Profiles

Neutral and Oxidizing Flame Profiles

Shutting the Torch Off 1. When finished, close the oxygen valve first, then the

Shutting the Torch Off 1. When finished, close the oxygen valve first, then the acetylene valve. If this is reversed, a “pop” may occur, which throws carbon soot back into the torch. 2. Never leave the torch unattended. Shut down a torch when positioning metal etc.

Oxygen Cylinders • Oxygen is stored within cylinders of various sizes and pressures ranging

Oxygen Cylinders • Oxygen is stored within cylinders of various sizes and pressures ranging from 20002640 PSI. (Pounds Per square inch) • Oxygen cylinders are forged from solid armor plate steel. No part of the cylinder may be less than 1/4” thick. • Cylinders are then tested to over 3, 300 PSI using a (NDE) hydrostatic pressure test.

Oxygen Cylinders • Cylinders are regularly re-tested using hydrostatic (NDE) while in service •

Oxygen Cylinders • Cylinders are regularly re-tested using hydrostatic (NDE) while in service • Cylinders are regularly chemically cleaned annealed to relieve “jobsite” stresses created by handling.

Oxygen Cylinders • Oxygen cylinders incorporate a thin metal “pressure safety disk” made from

Oxygen Cylinders • Oxygen cylinders incorporate a thin metal “pressure safety disk” made from stainless steel and are designed to rupture prior to the cylinder becoming damaged by pressure. • The cylinder valve should always be handled carefully

Acetylene Gas • Virtually all the acetylene distributed for welding and cutting use is

Acetylene Gas • Virtually all the acetylene distributed for welding and cutting use is created by allowing calcium carbide (a man made product) to react with water. • The nice thing about the calcium carbide method of producing acetylene is that it can be done on almost any scale desired. Placed in tightly-sealed cans, calcium carbide keeps indefinitely. For years, miners’ lamps produced acetylene by adding water, a drop at a time, to lumps of carbide. • Before acetylene in cylinders became available in almost every community of appreciable size produced their own gas from calcium carbide.

Acetylene Cylinders • Acetylene is stored in cylinders specially designed for this purpose only.

Acetylene Cylinders • Acetylene is stored in cylinders specially designed for this purpose only. • Acetylene is extremely unstable in its pure form at pressure above 15 PSI (Pounds per Square Inch) • Acetone is also present within the cylinder to stabilize the acetylene. • Acetylene cylinders should always be stored in the upright position to prevent the acetone form escaping thus causing the acetylene to become unstable.

Acetylene Cylinders • Cylinders are filled with a very porous substance “monolithic filler” to

Acetylene Cylinders • Cylinders are filled with a very porous substance “monolithic filler” to help prevent large pockets of pure acetylene forming • Cylinders have safety (Fuse) plugs in the top and bottom designed to melt at 212° F (100 °C)

Acetylene Valves • Acetylene cylinder shut off valves should only be opened 1/4 to

Acetylene Valves • Acetylene cylinder shut off valves should only be opened 1/4 to 1/2 turn • This will allow the cylinder to be closed quickly in case of fire. • Cylinder valve wrenches should be left in place on cylinders that do not have a hand wheel.

Regulator Pressure Settings • The maximum safe working pressure for acetylene is 15 PSI

Regulator Pressure Settings • The maximum safe working pressure for acetylene is 15 PSI !

Cylinder Transportation • Never transport cylinders without the safety caps in place • Never

Cylinder Transportation • Never transport cylinders without the safety caps in place • Never transport with the regulators in place • Never allow bottles to stand freely. Always chain them to a secure cart or some other object that cannot be toppled easily.

FLAME CUTTING

FLAME CUTTING

FLAME CUTTING • In an equal pressure torch, the gasses are mixed in the:

FLAME CUTTING • In an equal pressure torch, the gasses are mixed in the: • CUTTING TIP

FLAME CUTTING • The factors the determine the AMOUNT OF PREHEAT FLAME & the

FLAME CUTTING • The factors the determine the AMOUNT OF PREHEAT FLAME & the SIZE OF THE PREHEAT HOLES are: • METAL THICKNESS

FLAME CUTTING • Diagnosis: Perfect Cut • Diagnosis: Dirty Tip / Too Fast •

FLAME CUTTING • Diagnosis: Perfect Cut • Diagnosis: Dirty Tip / Too Fast • Diagnosis: Too Slow

Oxyacetylene Welding & Brazing • Carbon Dioxide

Oxyacetylene Welding & Brazing • Carbon Dioxide

Oxyacetylene Welding & Brazing • Factors that affect the weld when gas welding are:

Oxyacetylene Welding & Brazing • Factors that affect the weld when gas welding are: • Torch Tip Size • Torch Angle • Welding Rod Size • Torch Manipulations

Oxyacetylene Welding & Brazing • The primary flame is • The Secondary Flames blue

Oxyacetylene Welding & Brazing • The primary flame is • The Secondary Flames blue in color and function is to produce HEATS the base metal carbon-dioxide to while the secondary protect the welding flame is yellowish in puddle from and color. impurities.

Oxyacetylene Welding & Brazing • Ideal working angle for the welding torch is 45

Oxyacetylene Welding & Brazing • Ideal working angle for the welding torch is 45 degrees • As this angle increases toward zero or flat, the rate of heating DECREASES. • As this angle decreases toward 90, or vertical, the rate of heating INCREASES.

Oxyacetylene Welding & Brazing • An increase of sparks coming from the molten puddle

Oxyacetylene Welding & Brazing • An increase of sparks coming from the molten puddle is an indicator that: • RAPID BURNING OF THE METAL which creates a crater or hole. • Brazing uses capillary action to flow brazing material. A good example of this is the force that pulls water up into a paper towel.

Advantages of Brazing over Welding • • Low temperature Permanently or temperately join metal

Advantages of Brazing over Welding • • Low temperature Permanently or temperately join metal Join dissimilar metals Speed Less chance of damaging parts Use as a preassemble Slow rate of cooling and heating (warp-age) Join metals of varying thickness

Oxyacetylene Welding & Brazing • The most popular brazing alloys are a mixture of:

Oxyacetylene Welding & Brazing • The most popular brazing alloys are a mixture of: • Copper • Zinc

Indicators that you screwed up when brazing: • Red glow in the molten pool

Indicators that you screwed up when brazing: • Red glow in the molten pool • White Smoke!!! • • Purpose of the flux: Removes oxides Aid in capillary action MAKES YOUR LIFE EASIER!!

Controlling the size of the bead: • Travel Speed • Temperature • Amount of

Controlling the size of the bead: • Travel Speed • Temperature • Amount of rod used

TORCH SET-UP & TAKE-DOWN • PAY ATTENTION & WRITE DOWN THE STEPS

TORCH SET-UP & TAKE-DOWN • PAY ATTENTION & WRITE DOWN THE STEPS

Typical startup procedures • Verify that equipment visually appears safe IE: Hose condition, visibility

Typical startup procedures • Verify that equipment visually appears safe IE: Hose condition, visibility of gauges • Clean torch orifices with a “tip cleaners” (a small wire gauge file set used to clean slag and dirt form the torch tip) • Crack (or open) cylinder valves slightly allowing pressure to enter the regulators slowly • Opening the cylinder valve quickly will “Slam” the regulator and will cause failure.

Typical startup procedures • Never stand directly in the path of a regulator when

Typical startup procedures • Never stand directly in the path of a regulator when opening the cylinder • Check for leaks using by listening for “Hissing” or by using a soapy “Bubble” solution • Adjust the regulators to the correct operating pressure • Slightly open and close the Oxygen and Acetylene valves at the torch head to purge any atmosphere from the system.

Typical startup procedures • Always use a flint and steel spark lighter to light

Typical startup procedures • Always use a flint and steel spark lighter to light the oxygen acetylene flame. • Never use a butane lighter to light the flame

Flame Settings • There are three distinct types of oxy-acetylene flames, usually termed: –

Flame Settings • There are three distinct types of oxy-acetylene flames, usually termed: – Neutral – Carburizing (or “excess acetylene”) – Oxidizing (or “excess oxygen” ) • The type of flame produced depends upon the ratio of oxygen to acetylene in the gas mixture which leaves the torch tip.

Flame definition • The neutral flame (Fig. 4 -1) is produced when the ratio

Flame definition • The neutral flame (Fig. 4 -1) is produced when the ratio of oxygen to acetylene, in the mixture leaving the torch, is almost exactly one-toone. It’s termed ”neutral” because it will usually have no chemical effect on the metal being welded. It will not oxidize the weld metal; it will not cause an increase in the carbon content of the weld metal. • The excess acetylene flame (Fig. 4 -2), as its name implies, is created when the proportion of acetylene in the mixture is higher than that required to produce the neutral flame. Used on steel, it will cause an increase in the carbon content of the weld metal. • The oxidizing flame (Fig. 4 -3) results from burning a mixture which contains more oxygen than required for a neutral flame. It will oxidize or ”burn” some of the metal being welded.

Quiz time • The regulator diaphragm is often made from _______? A: reinforced rubber

Quiz time • The regulator diaphragm is often made from _______? A: reinforced rubber B: malleable iron C: tempered aluminum D: stainless steel

Quiz time • The hose nuts for oxygen and acetylene differ greatly, because the

Quiz time • The hose nuts for oxygen and acetylene differ greatly, because the acetylene hose nut has. A: a left hand thread. B: has a grove cut around it. C: may have ACET stamped on it. D: All of the above.

Quiz time • An oxygen cylinder must be able to withstand a ____ pressure

Quiz time • An oxygen cylinder must be able to withstand a ____ pressure of 3300 psi (22753 k. Pa) to be qualified for service. A: atmospheric B: hydrostatic C: hydroscopic D: vapor

Quiz time • Why is the area above 15 psig often marked with a

Quiz time • Why is the area above 15 psig often marked with a red band on a acetylene low pressure regulator ? • Answer – Acetylene pressure above 15 psig is unstable and should not be used

Quiz time • True or False ? – A flint and steel spark lighter

Quiz time • True or False ? – A flint and steel spark lighter is the generally used to light the oxyacetylene flame. • Answer: True

Quiz time • Acetylene cylinder fuse plugs melt at a temperature of ____° F

Quiz time • Acetylene cylinder fuse plugs melt at a temperature of ____° F or 100°C • Answer – 212°F

Quiz time • What is the maximum safe working gauge pressure for acetylene gas?

Quiz time • What is the maximum safe working gauge pressure for acetylene gas? A: 8 psig (55 k. Pa) B: 15 psig (103 k. Pa) C: 22 psig (152 k. Pa) D: 30 psig (207 k. Pa)

Quiz time • The color of and oxygen hose on a oxyacetylene welding outfit

Quiz time • The color of and oxygen hose on a oxyacetylene welding outfit is ______? • Answer – Green

Quiz time • The type of safety device is used on a oxygen cylinder.

Quiz time • The type of safety device is used on a oxygen cylinder. A: A fusible plug B: A check valve C: A pressure safety disk D: A spring loaded plug

Quiz time • True or False ? – The regulator is closed when the

Quiz time • True or False ? – The regulator is closed when the adjusting screw is turned out. • Answer: True

Quiz time • The color of and acetylene oxygen hose on a oxyacetylene welding

Quiz time • The color of and acetylene oxygen hose on a oxyacetylene welding outfit is ______? • Answer – Red

Quiz time • No part of an oxygen cylinder walls may be thinner than

Quiz time • No part of an oxygen cylinder walls may be thinner than _______? A: 1/4”in (6. 4 mm) B: 3/8”in (9. 5 mm) C: 3/16”in (4. 8 mm) D: 7/32”in (5. 6 mm)

Quiz time • To prevent the occurrence of flashbacks, a ____ should be installed

Quiz time • To prevent the occurrence of flashbacks, a ____ should be installed between either the torch and hoses or regulators and hoses. A: a two way check valve. B: flame screen. C: flashback arrestor. D: three way check valve.

Quiz time • What type of safety device is used on a acetylene cylinder.

Quiz time • What type of safety device is used on a acetylene cylinder. A: A spring loaded plug B: A pressure safety disk C: A fusible plug D: A check valve

Quiz time • Mixing _______ and water will produce acetylene gas. A: calcium carbide

Quiz time • Mixing _______ and water will produce acetylene gas. A: calcium carbide B: potassium carbonate C: carbon dioxide D: acetylene carbide

Modern Welding York County School of Technology

Modern Welding York County School of Technology