Cutting thin strips

Cutting thin strips of glass such as used in Mission Style patterns and precision fusing projects requires skill and assistance. For transparent and translucent glass you can arrange a right angle guide on a board and tape a piece of lined notepaper to the jig. Use a cutting square and move it right along the lines on the note paper making four or six scores at a time and then breaking on the last score first and then every other score, and then each one in half.

Another method is to use the edge of the bench or work board as a guide. With a small adjustable carpenter’s square, you hammer in nails at the predetermined width (plus half the thickness of the cutter head). Align the glass to the edge of the bench between the nails. Place a straight edge against the nails and score. This gives strips of the same width every time, but works best with strips of 10mm (3/8”) or more. This is illustrated in the processes section.

The thinner the strips are to be cut, the more important it is to make the scores and then divide the sheet in half - the two halves in half each - the 4 quarters in to halves, etc, until you are down to the piece that only needs to be divided in two.

The thinnest strip that can be cut is a fraction wider than the thickness of the glass.  This is because the glass will always break toward the weakest area.  If the strip is thinner than the glass is thick, it will break within the strip.  The narrowest strip that can practically be cut is at least one or two millimetre wider than the glass is thick.  So, if you have 3mm glass, the narrowest you can cut is 4 or 5 mm.  Four millimetre wide strips can only be cut from really smooth consistent thickness of glass sheets.  It is much more practical with decorative glass to limit the width to twice the thickness of the glass you are cutting.

Dividing two thin strips

Cutting from Cartoon

The cutting of glass directly over the cartoon without patterns is variously called trace cutting, and English or European method. The advantages include a more direct process with fewer operations, making for less chance of inaccuracies.  These make this method quicker than using patterns or templates to draw or cut around. The disadvantages are that you still need to make patterns for opalescent or very dark glass, and there is no pattern to guide any grinding required.

To employ the method, use a strong contrast ink for drawing the lines of the cartoon. Draw these in the appropriate width - for copper foil (ca. 0.8mm).  This can be accomplished with a ball point pen or fine felt tip.  For lead, a thicker line (ca. 1.6mm) is required - a bullet tipped felt pen is usually appropriate, if it is not worn.

leadlightdesign.com

To cut, place the glass over the appropriate part of the cartoon and cut at the inside edge of the line. It is best to cut and break one line at a time.  Re-set the newly cut edge along the cutline and score the next line.  Break it and repeat the number of times required to cut out the whole shape.  Which line should be the first to be scored and broken is described here. 

Although the glass is normally only three millimetres thick, there is some possibility of a refraction of the light if you look from the side of the cutter.  As described elsewhere, you should be holding your cutter upright in the left to right plane and angled slightly back toward you so that you can look with your dominant eye along the barrel of the cutter and head.  This ensures you are directly above the cut line and do not have any refraction caused by the glass. 

Translucent glass may, and opalescent glass will, need a light box to assist in the scoring.  This increases the light coming through the cartoon and glass to enable a sharp image of the lines to be seen.  This means that if you intend using opalescent glass, your cartoon should be done on translucent paper to allow the maximum light through.

freepatternsforstainedglass.com

For black, dense and strongly opalescent glass, pattern pieces will need to be cut, as the insufficient light will pass through the glass to be able to see the cartoon accurately.

The reduction in the number of operations to guide the cutting of the glass also reduces the occasions for small errors to creep in.  It does increase the accuracy of cutting and speed of building a panel.

Diagnosis of Cutting

If your scoring and breaking of your glass is not going well, you need to diagnose the reasons.  There are always a lot of suggestions that warming the glass will solve the problem. Yes, warming glass may help. A discussion of the effect is here. But it will not overcome any faults in the basic skills of scoring.

A lot of images, shown on the internet, of straight line scores failing to break along the score, indicate some possible elements in scoring that lead to these unwanted break-outs. 

One possibility is you are using too much pressure. A discussion of the amount of pressure required is here.  You should be scoring to the pressure required, rather than any sound that may come from scoring.  This is emphasised when cutting opalescent glass.  The correct scoring pressure makes almost no sound or only a gentle rumble as it cutter moves over the undulations of the glass.  The most frequent reason for more difficulty in breaking opalescent glass is excessive pressure while attempting to get the same sound as from transparent glass.  There are even a few transparent glasses that make little or no sound when being scored with the correct pressure.

Another common problem in scoring is keeping an even pressure throughout the score.  It can be difficult to keep the pressure even on complicated cuts.  When the cartoon has multiple curves or deep concave lines, it can be difficult to keep the pressure even as you move your body around to follow the line.  One piece of advice I received early on in my learning was to rehearse the score allowing the cutter wheel to move along the score line with virtually no pressure.  This shows how the piece of glass needs to be oriented to ease your movement around the glass to make the score.

Slowing the cutting speed can help to keep the pressure evenly distributed along the score.  Straight lines are often scored quickly.  But, even on straight lines, slowing the speed can make the pressure more even throughout the score.  It can also avoid variable speed during the scoring, which leads to different forces being placed on the glass.  The pressure may be consistent, but the effective pressure is greater when slow than when fast scoring is used.  If the speed is variable, the effective pressure differs along the score line.

A fourth thing that may be happening on straight lines is that the cutter wheel is at an oblique angle to the direction of the score.  This will often be heard as a scratching sound as you move along the score line.  This can be overcome by a gentle pressure against the straight edge you are using to align your score.  Of course, the straight edge needs to be held firmly to avoid having it move.  Allowing the head of the cutter to have a little freedom of movement also helps keep it parallel to the straight edge.

All this is merely speculation about your scoring practice.

You need to get someone to observe you scoring.  They do not need to be experts, nor other glass artists.  They just need to be observant. Tell them what you are looking for in each of the four elements of scoring and have them observe only one thing at a time.

First get scales that you can zero when you have a small piece of glass on it. Score without touching the glass. Have the observer tell you if the pressure was consistent throughout the score, and if you are in USA, whether the pressure was above 7 pounds or below 4 pounds. (For the rest of the world 3kg to 1.8kg). Practice until you can score consistently at about 2.2kg (ca. 5 pounds).

Second, have the observer stand a little distance from you. Score toward the observer. They need to observe whether your cutter is perpendicular to the glass while scoring and if there is any variation.

Next, they need to tell you if your head was directly above the cutter all the way through the score. They will be able to see whether your eye is directly above the cutter

Is your body behind the cutter, or do you use your arm to direct the cutter?  The observer will be able to tell that when you are scoring curves. The most consistent speed and pressure is delivered when the cutter is steered from your torso, rather than your arm and wrist.  It slows the scoring action, gives smoother curves, and more even pressure.

The last element, you can do yourself.  Once you are doing all the things above, you will be able to hear any scratching noise, rather than the gentle creaking noise of an even score with adequate pressure.  If the scratching noise is intermittent or only at one point, the likelihood is that you are twisting the cutter head, so the wheel is not in line with the score line.

Adjusting Cut Runners

There are a number of types of cut running pliers.  These photos show some of them. 

The apparently most popular is this:

Cushions

It is frequently difficult to find replacements for the plastic cushions that come with a new pair of cut runners.  People resort to a number of means to provide a substitute.  Some wrap electrical tape around the jaws, others use fabric bandages (Elastoplast/band aids).  I have even used the liquid plastic that is designed for coating tool handles.

However, if you adjust the cut runners appropriately, you can use them to run your scores even without cushions.  The purpose of these cushions is only to compensate for too much pressure in running the score.

Use without covers

You can run the score without cushions by using the adjustment screw on the top jaw of the tool. Yes, it does tell you which is the top jaw without having to check the end of the runners, but it has a more important use.  It is not just a pretty cool way to tell which is up. 

Its purpose is to adjust the width of the opening so that it provides the appropriate amount of bending force no matter how much pressure you exert at the handles.  If you are running scores in three-millimetre glass, set the jaws to that width by turning the screw until the jaws are that width apart.

Place the jaws in line with the score, aligning the mark on the top jaw with the score line and squeeze the pliers.  As you squeeze, the curved jaws provide enough bending force to run the score without over stressing the glass.  It is the adjustment screw that limits the over-stressing of the glass during the running of the score. Yes, you may not be able to run the whole length of the score this way, but you can repeat from the other end and that is usually enough to complete the running of the score.

You can continue to use cushions of various sorts with this adjustment for thickness, but I found that these were not necessary when the runners were properly adjusted.  In fact, I found that soft cushioning made more difficulties than using them with the bare metal.  I discovered this during the period of using the liquid plastic coating as used for tool handles.  I dipped the jaws multiple times to give a cushioning effect and it worked fine.  The cut runners continued to work even after the coating had worn off.  It was then that I realised I could control the running pressure more directly than by having a cushion between the glass and the jaws.

Setting the spacing

An easy way to set the correct opening of the jaws is to test against the glass you are about to score and break.  Place one side of the jaws against the edge of the glass. Slide that corner just a few millimetres over the glass.  Turn the set screw on the top of the jaws anticlockwise until they are fitting the glass snugly.  Back off a half turn (clockwise) so the jaws move easily along the edge.  This is now set to run the score on this glass. 

Open the jaws and place the centre mark in line with the score.  Close them gently and you can observe the arc of the jaws above the score line. Squeeze the handles and the score will run along the line away from the cut runners.  As you have adjusted the opening, no matter how hard you squeeze the cut runners, you cannot add more pressure.  This means you avoid crushing the glass.

The principles

The curve of the jaws is designed to provide the bending force required to run the score.  The radius of the curve has been designed to provide the correct bending pressure for differing sizes of glass.  The most common ones are useful for glass up to, but not including, 6mm glass.  The screw adjustment provides compensation for differing thicknesses of glass.  Setting the width of the gap to match the thickness of the glass prevents the application of too much pressure.

Thicker glass

For thicker glass you need cut runners with wider jaws.  These usually are fitted with three points to apply the breaking pressure - one under the score and one each side of the score on the top.  Again, these are adjusted to be just less than snug to the glass before applying the pressure.

One example of  cut runners for thick glass.  There are a variety of others.

Tapping Glass Scores

Many people tap the underside of the glass after scoring.  The purpose of this is to run the score.

However, this tapping is often unnecessary.  Running the score can be done in a variety of ways, some more suitable for one kind of score line than another.

Straight score lines can be run in several ways.

•       Move the score line to the edge of the bench or cutting surface and use a controlled downward force on the glass off the edge while holding the remainder firm.  Works best if at least a third is being broken off.
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•      You can place a small object, such as the end of your cutter or a match stick, directly under the score and place your hands on either side and press firmly, but not sharply, down on each side at the same time.  This is good for breaking pieces off from half to a quarter of the full sheet.
•      Make your hands into fists with the thumbs on top of the glass and the fingers below.  Turn your wrists outwards to run the score. Works best if the glass is approximately half to be kept and half to be broken off.
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•      Take the glass off the cutting surface, hold in front of your knee at about 45 degrees and raise you knee quickly to the glass.  This will break the glass cleanly, but is only useful for moderate sized sheets and where you are breaking off about half of the sheet.
•      Use cut running pliers to run the score.  Be sure the jaws are adjusted for the thickness of the glass, and do not apply excessive pressure.  If the score does not run all the way, turn the glass around and run the score from the opposite end. Best where there are approximately equal thin parts to be broken away from each other and when the score line is no less than an oblique angle to the edge. It does not work very well for thin pieces or acute angles.
  
  
  
•      Use two grozing pliers nose to nose and flat side up at the score line and bend them down and away.  This works best on thin and or pointed pieces.
•      Breaking pliers can be used at intervals along the score. This is most useful on long thin pieces.

Curved score lines, of course require a bit more care but generally employ the same methods.

•     Gentle curves can be dealt with as though they are straight lines, although the breaking at the edge of the cutting surface is a bit risky. This means the two-fist, running pliers, two grozing pliers and breaking plier methods can be used.
•     Lines with multiple curves usually require cut running pliers to start the run at each end of the score.
•     Deep curved scores may require the running pliers whose angle can be adjusted to be at right angles to the score.  The ones I know are Silberschnitt, made by Bohle, although the ring pliers by Glastar work in the same way. This usually requires that the edge of the glass is not more than 5 cm from the score.  This blog gives information on a variety of cut running pliers. 

Tapping

After trying all these methods to run the score, sometimes the score is so complicated or deep into the glass that you cannot simply run the score.  Tapping may then be required, but it is a last resort.

Tapping, to be effective, must be accurately directed to places directly under the score line.  The tapping cannot be at random places under the glass. Each tap must be controlled – to be direct and to be firm. 

The impact needs to be directly under the score. 

•     Taps that are either side of the line will either not be effective, or will promote breakage other than along the score line. 
•     Tapping to either side of the score also promotes shells to either side of the score line.  These are not only dangerous when handling, but also require further work to remove these ledges of glass.

The impact also needs to be firm. Random impacts to the glass promotes breakage other than along the score line.

•     The taps need to be firm – neither light nor hard.
•     Each tap should be at the end of the run begun by the previous one.  This promotes a smoother run of the score with less opportunity to start a run off the score line. 
•     To avoid the incomplete running of the score that leaves parts of the score untouched you need care. As the glass begins to break along the score line, place the next impact at the end of that start to continue the run. 

Tapping the glass under the score should be a last rather than first resort in running a score.

Rehearsing Special Cuts

For difficult cuts you can increase your confidence by rehearsing the score with a feather light movement of the cutter on the glass along the score line. Make any adjustments shown to be necessary by this rehearsal before beginning the score.

It is important to remember the basic scoring tips as they become even more important with difficult cuts:

• Keep an even/constant speed during the scoring.
• Keep a consistent pressure - less than 3kg/ 7 lbs is all the pressure required.
• Make sure the cutter is vertical – eye the cutter from top to wheel to cut line.
• Stand behind the direction of the cut line.
• Use your body to turn, do not use the wrist or arm.

Start with the most difficult score first. Any break-outs or mistakes will not waste much work or glass.

Break out each score as you make it. You can store up trouble by making multiple scores before starting to break. The score lines can run across the main piece when breaking off the scored glass. Any inaccuracies will also be magnified by making all the scores before breaking.

More information is given in these blog posts:

Diagnosis of cutting

Scoring Glass

Testing Scoring Pressure

Opalescent Glass

Revised 30.12.24

Cutter Wheel Angles, 1

The Effects of Wheel Angles on Glass Cutting

The wheel of a glass cutter does not “cut” the glass. The objective is to create a crack or "fissure" along which we expect the glass to break when we bend it. The idea is to produce a fissure which is continuous, and of uniform depth, without creating a flaky score line full of loose glass chips. While the wheel angle is only one of several variables which influence the quality of the fissure, it is the best place to start. The other main variables are wheel diameter and cutting pressure.

The angle of a wheel is identified as the included angle to which the apex is honed. This means it is measured from one beveled face of the wheel around through the wheel to the other face. Thus the angle between the wheel and the glass on a 150° wheel will be 15° on each side.
When downward pressure is exerted on the wheel rolling along the glass, forces are created which radiate down and to the side trying to shear or separate the glass along the surface. These forces are in a downward direction with little angle to the side when an appropriate angled wheel is used. If these forces are great enough to overcome the inherent compressive conditions near the surface, a crack or fissure will be generated along the path of the wheel. The direction of these shearing forces is determined by the wheel angle.

A wheel with a large or blunt angle produces shearing forces that tend to be directed downward more than to the side. It would require a great deal more cutter pressure to create enough lateral force to overcome the compression in glass. This explains why a cutter requires more pressure as it gets older. The apex tends to flatten so its effective angle becomes greater.

With a very sharp wheel angle, the shear forces are directed more parallel to the surface of the glass. This might suggest it is easier to produce a fissure with a sharp wheel than a dull one. The shear forces are directly opposing the compressive condition near the surface of the glass therefore, requiring less downward pressure to make a crack. But a sharp wheel tends to cause chips and a flaky score. Also, when the shear forces run close to the surface of the glass they are more likely to cause a lateral crack which then breaks out to the surface, creating a chip. You can see these chips leap out of the glass a short time after scoring. Again, the compressive condition of glass near the surface literally squeezes the fissure closed, spitting out loose chips. They can be seen lying on top of the glass.

Part 2

Based on information from the Fletcher Terry Company.

See also wheel angles

Revised 23.12.24

Cutter Wheel Angles, 3

The effect of glass thickness on cutting

Most of the thicker glass being used today is produced by the "float" method. In this process the glass travels horizontally from the furnace, through a molten tin bath, through annealing lehrs, then continues on rollers where it is inspected, scored and broken into the sizes required. The thickness generally dictates how fast the ribbon of glass moves. The thicker the glass, the slower it is processed and the more effective the annealing. This applies to thicker art glass too.

The key to subsequent cutting float glass is the annealing cycle. Thicker glass tends to have less compression at the surface and tension in the interior. As a result, the glass cutting wheel encounters less resistance to producing a fissure with the shearing forces. However, this means the glass surface will chip more readily. Therefore, a larger wheel angle is required to prevent chipping. It is also common practice to use a larger diameter wheel and larger angle so the fissure can be driven deeper without chipping.

Part 1

Part 2

Prepared from information provided by the Fletcher-Terry company.

Cutter Wheel Angles, 2

Effect of wheel angles on the cut edges of glass

Another factor to consider in selecting the proper wheel angle is the "edge". The objective of good glass cutting is to produce an edge which is flat and relatively free of irregularities such as "shark teeth".

Shark teeth are the occasional deep spikes in the edge and are accompanied with flakes or tiny chips on the surface. A three mm thick glass scored with a sharp wheel (114°) will produce this effect. This edge irregularity may lead to failure during the life of a window.

A three mm thick glass scored with a proper angle (134°) of wheel, will produce a fissure that is made up of individual "hackles" which overlap one another. They have a unique semi-circular shape and indicate the direction of the cutting wheel. With proper pressure the edge will be relatively free of irregularities and without shark teeth.

Part 3
Part 1

Prepared from information supplied by the Fletcher-Terry company

revised 23.12.24

Cutting concave curves

There are several methods that can be used to break out extreme inside curves. In all the cases you should retain a significant amount of glass around the edges of the curve. You should make this most difficult cut the first on the piece. If it fails, you may be able to move the glass a little and score again, without loosing too much glass.

To accomplish inside cuts by using the hand breaking method and/or pliers method, you must first score according to the cartoon line. Then you can make a series of concentric scores. Gently run the primary score line so any break does not run beyond this. Remove the graduated concentric scores in sequence.

In this example the glass is placed over the cartoon and scored directly over it.

You can also accomplish this type of cut by using the criss-cross pattern of score lines instead of concentric scores. First you must run the score of the curve to avoid the criss-cross lines from running beyond the curve. Then you begin to take out the little pieces from the waste area.


Another method is to score and run the curve (1), and then score a number of small crescents in the waste area, looking like fish scales or the fan type of paving seen in some European cities. Pull out each small crescent working toward the main curve (2,3,4).

Deep inside cuts with turntable

Deep inside cuts can be assisted by using a lazy susan – a turntable affair, similar to a cake decorating turntable.

image credit: Amazon

The first question you have to ask yourself is whether you should make such deep inside cuts or redesign the piece to avoid creating such fragile shapes.

OK. You have decided to go ahead with your plan in spite of good advice. Put your cartoon onto the turntable and the glass over it. If the glass is too dark or opalescent, make a template and mark the glass. Adjust the starting point, put one hand on the glass and cartoon, and turn the glass instead of yourself to get round the score with ease.

You still have the task of breaking out the glass from the score line. This is the subject of another tip on concave curves.

revised 23.23.24

Prevention of Spikes at Corners

Often, after fusing rectangles we are left with sharp points at the corners. How can we prevent it?

 

Nipping corners off rectangles, especially opalescent and the underlying base pieces, is a standard practice to avoid sharp points on corners of a finished piece.

The principles of this relate to how glass contracts when cooling.

The glass expands in the fusing and then contracts on cooling. The hot glass can attach to a rough bit on the paper or shelf and be stretched in the cooling. This results in a sharp needle point.  There is more glass at the corners than at the sides to contract. This leads to the creation of more sharp points at the corners.

Only a small portion of the corner needs to be nipped off as shown in the first picture. It will not affect the dimensions of the piece. It will not affect the appearance of the corners. Except, of course there will be no sharp points.

The fix is simple. Nip a bit of the corner off before assembly. Also no more than 10 minutes at top Temperature should be needed.

Full details are in my eBook Low Temperature Kilnforming.

 

Circles – Some Methods of Scoring and Breaking Out

 Scoring the circle

Setting out the centre point and radius of the circle

Set up a centre point. You can do it by estimating. But it is more accurate to measure a centre point that is at least 1cm from the edges. Use that crossing point to measure out the radius of the circle.

 

Setting out the circle measurements

Place the pivot point of the circle cutter on the cross hairs. Lock it into place.

 

Locking the pivot into place on the cross hairs

Adjust the cutting wheel along the length of the circle cutter bar to the marked radius. The measure marks on the bar are not always accurate and anyway wear away quickly.

 

Adjusting the scoring wheel to the correct length

 

Tightening the set screw at the top of the turret

Tighten the set screw.

 

Add a touch of oil to show the score line. Make a test circle by pushing the bar around with no pressure. This shows up any obstructions around the end of the bar. 

Preparing to test the sweep of the cutter arm

Score in an anti-clockwise direction. This avoids accidental loosening of the set screw if it is under the button or handle. 

 

Start with the scoring head under the arm with which you are securing the centre pivot. This allows you to do the whole score in one motion. The pressure you use should be no more than in your normal scoring.

 

Oil trace of the score can be seen in the upper left quadrant

 

Running the score 

Running the score is a glazier’s term to indicate the way in which a scored line gradually separates under gently applied breaking pressure. This can be seen when gently applying pressure with cut running pliers. The score line is made progressively visible by the gradual separation of the glass. This results from the light passing through in a different way than when it is not separated from top to bottom.

 

The glazier’s method to get a clean break of a circle is to score on one side with a trace of oil. Then turn the glass over and press with your thumbs on the score line. Running the score from the back requires a little skill and a certain amount of courage or determination.

The object is to bend the glass just enough to crack it along the score without breaking it anywhere else. The best surface is a short pile carpet square, a rubber mat or a single layer of towel or an unfolded newspaper. These provide a surface with a little “give” to allow the glass to deform.

But if you have too soft a surface, it is easy to break through the circle. A too soft surface is given by a household carpet, several layers of towel, or any other surface with a lot of “give” to it.

You may need both thumbs to start the run depending on the pressure you can exert. Try one thumb first. If that is not enough use both thumbs.

 

At the start of the second pressure point

If you place your thumb opposite a corner, you have greater leverage to start the run of the score. This leverage makes the running of the score easier as less pressure is required. You will hear a loud click at the opening of the first part of the score. 

Score has been run completely around the circle

Continue around the circle by pressing at the end of the opened score, until the whole score has been run. You may hear quiet clicks as the score opens. Other times there will be no sound, but you will see the score run away from the pressure point.

Once you have run the score from the back, turn the glass over to have the scored surface up. This makes it ready for the relief scores. It is much more successful if all the scores – circle and relief - are made from the same side. Unless you are scoring float or other glass that is smooth on both sides, this flipping back will be the easiest anyway.

 

Make the relief scores on the front.. Sometimes only one relief score is required to release the circle from the surrounding glass.

 

Another method is to cut the corners off so that you have an octagon around the circle. This gives you the opportunity to run the score from the top with breaking pliers. Ease the score open progressively around the circle.

Opening the score with pliers

This method is easiest for opalescent glass where you cannot see through to the score. By opening the score from the top, you do not have to estimate where the score line is. You can see the oil trace indicating where the score is and where to place your breaking pliers. 

You should start at a place where there is only a centimetre or two between the edge of the glass and the score. This may mean that you have to move around the broader areas of the rim so that the score runs both back to the first opened score and forward. It is in effect, opening a new score four times. But with gentle persuasion the scores will run toward one another. Do not use heavy pressure in griping the pliers, or in bending the glass. Gradually increase the bending pressure until you hear the click of the glass separating.

These two methods of running the score give the cleanest break-out of circles.

  

Relief scores

There are multiple ways to create the relief scores.

Perpendicular

Score by drawing the cutter from the circle out to the narrow edge, leaving a small gap between the opened score of the circle and the start of the score.

 

You can also score a longer line to the corner. Again, leave a space between the circle and start of the relief score.

 

Tangents

 A third way is to score tangents from the edge to the opened score of the circle. 

Tangent scored from both sides of the circle

Tangent broken from both sides of the circle

Alternatively, score a first tangent and run the score

Further tangents scored and broken away

All the tangents run and broken away 

This reduces the risk of breaking through the centre of the circle. But it does leave little nubs of glass at the point of each tangential score. And for that reason alone, is the least satisfactory of the methods of breaking out circles.    

In each of these methods of running a relief score, you need to tap under the relief score to run it to the edge of the circle. Normally, the quarters or other fractions will drop out one by one. Occasionally the rim will drop away after the scores of the first two quarters are run.

 

Breaking out without running circle first

There are at least two ways to cut a circle without running the circle score first.

The first is to cut the corners off the glass to create an octagon, but do not run the score.

First corner scored and removed

 

The four corners removed

Starting to run the circle with breaking pliers

Then use breaking pliers to run the scored circle. Once the score is run, make a single or multiple relief scores, and carefully run it. the circle can then be removed from the octagonal rim. This provides a clean cut.

 

corners and rim removed 

It does not risk breaking through the scored circle to the interior when tapping the relief score.

Many people run scores at a tangent to the circle without having opened the score of the circle. These are then run, in turn, to and along the edge of the scored circle.

They can then be broken off in turn, if they don’t simply fall off when they all are run.

 

tangent removal 

Finally, some people tap under the scored circle to run the score, as in the first of the tangent removal methods. This leaves shells – or ledges – on the glass circle. These must be removed by grozing or grinding. Grinding leaves a rough surface which takes copper foil tape less well than clean cuts. It also increases the possibility of devitrification when fusing.

Tapping leads to shells as in the centre left of this picture

The least satisfactory method of running the score of a circle is to tap under the score before breaking the circle out.

 

In conclusion, running the scored circle first and without tapping will provide you with the cleanest cut circle. This will be so however your make your relief scores. But, making relief scores before running the circle score risks breaking through the circle.

Finally, it should be noted that cutting out larger circles is easier than cutting small ones. Better, cleaner results are obtained because the curves are less tight.