04 cut quality, Cutmaster 42 – Tweco 42 CutMaster Operating Manual User Manual

CUTMASTER 42

CUTMASTER 42

OPERATION 4-6 Manual 0-5141

Manual 0-5141 4-7 OPERATION

Drag Cutting With a Hand Torch

Drag cutting works best on metal 1/4"(6 mm) thick or

less.

NOTE

For best parts performance and life, always

use the correct parts for the type of opera-

tion.

A. Install the drag cutting tip and set the output

current.

B. The torch can be comfortably held in one hand

or steadied with two hands. Position the hand to

press the Trigger on the torch handle. With the

hand torch, the hand may be positioned close to

the torch head for maximum control or near the

back end for maximum heat protection. Choose

the holding technique that feels most comfortable

and allows good control and movement.

C. Keep the torch in contact with the workpiece during

the cutting cycle.

D. Hold the torch away from your body.

E. Slide the trigger release toward the back of the torch

handle while simultaneously squeezing the trigger.

The arc will start.

Art # A-09342

Trigger

Trigger Release

F. Place the torch tip on the work. The main arc will

transfer to the work.

NOTE

The gas preflow and postflow are a char-

acteristic of the power supply and not a

function of the torch.

3

4

Trigger

2

1

Trigger Release

Art# A-09341

G. Cut as usual. Simply release the trigger assembly

to stop cutting.

H. Follow normal recommended cutting practices as

provided herein.

3. Complete cutting operation.

NOTE

If the torch is lifted too far from the work-

piece while cutting, the main arc will stop

and the pilot arc will automatically restart.

4. Release the torch trigger.

a. Main arc stops.

5. Set the power supply ON / OFF switch to OFF (down

position).

a. AC indicator

turns OFF.

6. Set the main power disconnect to OFF, or unplug input

power cord.

a. Input power is removed from the system.

4.04 Cut Quality

NOTE

Cut quality depends heavily on setup and

parameters such as torch standoff, align-

ment with the workpiece, cutting speed, gas

pressures, and operator ability. Refer to

appendix pages for additional information

as related to the power supply used.

Cut quality requirements differ depending on application. For

instance, nitride build-up and bevel angle may be major fac-

tors when the surface will be welded after cutting. Dross-free

cutting is important when finish cut quality is desired to avoid

a secondary cleaning operation. The following cut quality

characteristics are illustrated in the following figure:

Kerf Width

Cut Surface

Bevel Angle

Top Edge

Rounding

Cut Surface

Drag Lines

Dross

Build-Up

Top

Spatter

A-00007

Cut Quality Characteristics

Cut Surface

The desired or specified condition (smooth or rough) of

the face of the cut.

Nitride Build - Up

Nitride deposits can be left on the surface of the cut when

nitrogen is present in the plasma gas stream. These build-

ups may create difficulties if the material is to be welded

after the cutting process.

Bevel Angle

The angle between the surface of the cut edge and a plane

perpendicular to the surface of the plate. A perfectly per-

pendicular cut would result in a 0° bevel angle.

Top - Edge Rounding

Rounding on the top edge of a cut due to wearing from the

initial contact of the plasma arc on the workpiece.

Bottom Dross Buildup

Molten material which is not blown out of the cut area

and resolidifies on the plate. Excessive dross may require

secondary cleanup operations after cutting.

Kerf Width

The width of the cut (or the width of material removed

during the cut).

Top Spatter (Dross)

Top spatter or dross on the top of the cut caused by slow

travel speed, excess cutting height, or cutting tip whose

orifice has become elongated.

4.05 General Cutting Information

WARNING

Disconnect primary power at the source be-

fore disassembling the power supply, torch,

or torch leads.
Frequently review the Important Safety Pre-

cautions at the front of this manual. Be sure

the operator is equipped with proper gloves,

clothing, eye and ear protection. Make sure

no part of the operator’s body comes into

contact with the workpiece while the torch is

activated.\

CAUTION

Sparks from the cutting process can cause

damage to coated, painted, and other sur-

faces such as glass, plastic and metal.

NOTE

Handle torch leads with care and protect

them from damage.

Torch Standoff

Improper standoff (the distance between the torch tip and

workpiece) can adversely affect tip life as well as shield cup

life. Standoff may also significantly affect the bevel angle.

Reducing standoff will generally result in a more square cut.

Edge Starting

For edge starts, hold the torch perpendicular to the work-

piece with the front of the tip near (not touching) the edge

of the workpiece at the point where the cut is to start.

When starting at the edge of the plate, do not pause at the

edge and force the arc to "reach" for the edge of the metal.

Establish the cutting arc as quickly as possible.

Direction of Cut

In the torches, the plasma gas stream swirls as it leaves

the torch to maintain a smooth column of gas. This swirl

effect results in one side of a cut being more square than

the other. Viewed along the direction of travel, the right

side of the cut is more square than the left.