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07 31st, 2009| 
COINS AND MEDALS
Coins should not be cleaned unless it is absolutely necessary. They loose a lot of value through faulty cleaning, and it is just as important to know when to clean as to know how. Get a book out of your library on coin collecting and study it before cleaning any coins, if you know little of the subject.
Gold Coins. Wash very dirty coins in soap and water using a stiff bristled brush very carefully. Dry gold coins with a soft cloth or soft leather.
Silver Coins. If silver coins are not in exceptionally good condition and arc rather worn, removing the ingrained dirt will often make them look a lot worse! If they are tarnished to a blue or green colour, this gets damaged by too much washing and brushing up, and most collectors prefer to leave well alone. Silver coins which arc in really good condition but have uneven toning or are just plain filthy, should be treated either with carbon tetrachloride or trichlorethylene (see Solvent_). This is dabbed (not rubbed) on very gently, and immediately afterwards the coins are washed in running water. On really ugly toning use Goddard’s Silver Dip but do not wash the coins afterwards or they will look too highly polished. Don’t rub coins with the polishing cloths provided with cleaners. Ammonia in ten per cent solution will also remove stains, the coins being washed immediately after application; otherwise a whitish skin will appear which will ruin all your careful work.
Copper coins. Verdigris on copper coins is often caused by cigarette ash dropping on to them, and although this is hard to remove it can sometimes be done by soaking the bad part iun olive oil and scratching the verdigris off with a bone needle. Don’t use steel needles for they scratch the surface of the coin. Don’t use solvents on copper coins, just clean them with a stiff bristle brush used quite dry.
Copper, silver and bronze coins and medals can also be cleaned by immersion for a very short time in a solution of five per cent nitric acid. Do this with great care for the acid will etch metal, particularly copper. Take the pieces out after one or two seconds and wash them immediately under a running tap. If only a part of the coin is corroded, protect the rest of it from the acid with a coat of wax or grease before immersion in the acid, and then wash it thoroughly. Polish coins with a little lanolin grease or Renaissance wax polish. I
DETERGENTS
Detergents are the modern substitute for soap, and are perfectly suitable for many cleaning jobs as they so readily remove greasy dirt. However, some of the commercial brands sold as washing powders, or as liquid washers, have added ingredients of some kind : scent, colour or ‘whiteners’. While clung, glass and pottery can be cleaned quite safely with these, they are often not suitable for cleaning other Materials, and where detergent is recommended it is best to use a pure detergent such as the following:
Teepol
Boots Liquor Sulphestrol Lissapol N.
Detergent can be mixed with other chemicals to make an emulsion which will spread and penetrate easier that way-for instance carbon tetrachloride and benzene mixed with one per cent Lissapol N for cleaning some kinds of stonework.
ENAMEL
Enamel is a type of glass with added colours in the form of metallic oxides. This is fused to the surface of metal objects.
Enamel on metal may be of three different types: painted on to an enamelbackground; Cloisorui6, which is done by soldering fine wire to the metal surface to shape the designs, and then infilling with enamel; or Clianipl8ve where the
same effect is achieved by cutting shallow cells into the
surface of die metal to take the enamel. In atypes, an
object is then fired to fuse the glass and enamel.
Enamels should be kept away from direct heat, as the glass will expand at a different rate from its metal base and stresses will be set up which may result in the enamel lifting or crazing. Enamel on metal which doesn’t like damp, such as copper, must be kept dry otherwise corrosion may form on the metal and lift the enamel.
To restore enamels, use ordinary artist’s oil colours, and where chunks are broken off, a good imitation can be made by adding colour to Araldite, or to a thick solution of celluloid in amyl acetate, or to Durofix.
Having retouched the colour, enamelled objects can then be lacquered with Frigilene, or painted with thin acrylic, which will reseal any lifting pieces. Once the lacquer has soaked right in and dried, so that it has filled any cracks and cemented down loose pieces, wipe the surface of the enamel very carefully with a piece of cotton wool wrung out in acetone. Be careful that no liquid acetone runs into joins etc., or it will undo the repair work that has just been done. If enamel has at some time been repaired with animal glue, it may have gone slightly mouldy. Wipe the joins with Santobrite before continuing with retouching and lacquering.
Don’t try to refire enamel, it just won’t work.
FABRICS
All textiles come wider this heading, and generally the cleaning treatments depend upon whether dyes have been used or whether the fabric has simply been bleached or whitened. Cotton and linen have usually been bleached, and go very yellow with age. If the fabric is in good condition use very dilute domestic bleach to rewhiten it, then thoroughly rinse the article in several changes of clean water. Reckitt’s Blue may be added to the last rinse. Delicate articles made of muslin or lace, which are in a fragile state, cannot be given such rough treatment. A powdering of French chalk or Fuller’s Earth, later brushed off, will remove some stains and grease marks. If the article is attached to a cushion for instance, this may be the only way of dealing with it. Lace which can be detached should be placed in distilled water for a while to loosen the dirt, then put into fresh water containing a little pure liquid detergent and soaked again. Paddle it gently up and down in the water if the dirt is stubborn. After careful rinsing, spread the lace on to white blotting paper and pin it flat, and put it in a warm place to dry. It is important to pin lace properly in shape or it may distort during drying.
Muslin garments such as old doll’s clothes or old baby clothes are best washed very carefully in a mild solution of detergent, and should not be rubbed, but gently paddled up and down. It is most important to rinse the garment two or three dines in clean distilled or rain water. The garment should be rolled in absorbent paper and ironed
flat when it is nearly dry.
Coloured fabrics which are not colour fast can be cleaned with carbon tetrachloride. Heavy embossed material will be considerably brightened by brushing with a mixture of four parts benzol and one part methylated spirit.
Test for colour fastness by laying the fabric over white blotting paper, and then patting it carefully with a swab of damp cotton wool. If the colour runs it will show on the blotting paper underneath. If the material is old, the dyes are probably vegetable in origin, and likely to run, so should only be washed in cold water.
To remove large stains on this fabric, place the piece on clean blotting paper and then drop a solvent into the centre of the stain, which will spread out and go through on to the blotting paper carrying die stain with it.
To remove stains on textiles, provided the stain can be identified, try the following treatments, always with care and a minimum of rubbing.
Alcoholic Drinks: Wash in warm suds. Sponge with surgical or methylated spirit.
Beer: Soak in a hot solution of z teaspoonfuls of sodium sesquicarbonate (water softener) to z pints of water, and rinse out well.
Blood: Fresh stains. Soak immediately in a solution of i teaspoonful of salt and i teaspoonful ammonia to i pint of warm water. Then wash out in warm suds, and rinse. Old stains. Try soaking in ammonia solution, r tablespoonful to i pint of water.
Or try a solution of j teaspoonful of ammonia with i part of zo volume hydrogen peroxide with 4 parts of cold water.
Soak for just half an hour if the fabric is coloured, as long as necessary for white or colour fast materials.
On cottons and linens, but not on silks or wool, oxalic acid solution, 2 level teaspoonfuls of crystals in 2 pints of cold water, mixed in a china or glass container, can be dabbed on and removed by rinsing within ten minutes.
Silk or wool should be soaked in a solution of salt and water.
Coffee: If washing does not remove it, try hydrogen peroxide as for blood.
Cosmetics: Clean with carbon tetrachloride. Lipstick can sometimes be lifted from washable fabrics by smearing with vaseline and then washing in warm suds.
Egg Stains: If they won’t wash out, soak in a solution of salt and water, or try one of the proprietary digestive types of stain removers, such as Big S., Biotex or Radiant.
Fruit and Berry Stains: If they won’t wash out they can be removed by working a few drops of glycerine into the stain, leaving it overnight and then damping with a few drops of white vinegar, and then washing out with warm water after two minutes. Cherry, pear, peach, plum and other stubborn fruit stains in cotton or linen can be bleached out with hydrogen peroxide solution as for blood. Soak the stained spot for a few minutes and then wash it out in scsquicarbonate, J teaspoonful to I pint of water.
Glue: Must be removed with solvent. Acetone or nail varnish remover will probably shift it.
Grease: Such as butter or candlewaX. Wash in water with a little ammonia added. Put fabric under blotting papre and iron. Sponge with carbon tetrachloride.
Indelible Pencil: Sponge with methylated spirit.
hik: Ballpoint ink can be removed with methylated spirit. Indian ink must be sponged with methylatedspirit and then rubbed with glycerine. Repeat the treatment until the stain lifts and then wash with detergent and water. Old Indian ink stains are there for ever! Writing ink, the same treatment.
Mildew: This is difficult to remove. Washing thoroughly in sodium sesquicarbonate may help.
Nail Varnish: Remove with amyl acetate or nail varnish remover.
Paint: Emulsion paint; soften it from underneath with amyl acetate, then rub off, and work in a paste of soap and water and wash well. Oil paint, dried; carbon tetrachloride or benzene on the underside till the paint has softened, then wash out as above.
Rust and Ironiyiould: Try oxalic acid treatment as for blood. Rust remover can be used in extreme cases, but must be tried with care and washed out thoroughly.
Shellac: Soften with methylated spirit.
Shoe Polish: Bleach out with hydrogen peroxide.
Metalwork in China Restoration
Now for the techniques involving metalwork and drilling. There are three main types of drill, the hand drill or Bob drill; the hand twist drill, or the power drill.
Bob Drill. The Bob drill, which is the traditional china restorers’ tool, consists of a steel spindle with a bob of wood towards the lower end, an eye at the top, and a tapered point at the bottom. It has a cross bar of wood with a hole in the middle which lets it slide up and down the spindle. A lace is passed through the eye at the top of die spindle and fastened to each end of the cross bar.
The cross bar is held by placing three fingers on top of it and the thumb and little finger below. Make a small starter hole in the china with a broken file or a diamond and place the point of the drill, which carries a tube containing a drilling diamond, in this hole. Keeping the drill upright, press down gently on the cross bar. This moves down the spindle, unwinding the lace and turning the spindle complete with bit. The impetus of the bob, acting as a kind of flywheel, carries the rotation of the spindle a little further as the pressure is relaxed and then back again rewinding the lace onto the spindle. Keep the drill straight, don’t let it sway from side to side, and lubricate the bit with oil as the work goes on.
Hand Twist Drill. This is used much the same way, although it is for sonic people not quite such an easy tool to use. It is necessary to exert a little pressure to get the bit to bite, and the piece must therefore be firmly held.
Power Drill. Provided your drill runs at about z000 r.p.m. it call be used for drilling, especially in substantial pieces. The hole will have to be started by hand. Special bits are needed, and the drill must be mounted vertically on a bench stand. For some jobs a horizontal stand will have to be used. If the piece is properly held under the drill, and you are not too heavy handed, this method should be satisfactory.
Tack some kind of pad to the workbench under the drill to act as a shock absorber. This should not be too soft; a piece of thick lino or cork will do.
Put the drilling tube into the chuck of the drill and start the motor, checking carefully to make sure that the tube when spinning is absolutely straight and not whipping at all.
Put the piece of china on the bench under tile drill and bring the machine down, not switched on, to within an inch of the working point. The hole should already have been started with a hand drill. Get everything perfectly aligned and secure the piece to the bench as best you can. Start the drill and bring it very very gently down into the hole. The moment it bites, lift it and have a look to see if you are working straight. Then lubricate with water (or turps if you are drilling glass) and continue drilling, lubricating frequently. To drill large holes, start by drilling a small one, then enlarge the mouth of the hole for the next size drilling tube with a tungsten carbide bit. This means a lot of bit changing, so don’t forget to check for whip each time.
To keep objects steady under the drill, prop them up with large chunks of plastid ne. Small objects can temporarily be set in plaster of Paris, in a small wooden box at the right angle for drilling. If your piece of china is so big that there isn’t room to get it under the drill, it may be possible to swing the drill round so that it points out over the side of the bench, and then the china can be put on a separate table at the right height.
All drilling takes a steady hand, a straight eye and a light touch. If die drill waves about the results won’t be very good, and if too much pressure is applied there is always a risk of splitting the china. This applies especially when using a mounted power drill, as you have so much leverage and it is harder to tell by feel just how much pressure you are putting on. Practice on some useless bits and pieces, for hours, if necessary!
Dowelling. Dowelling is die joining together of two pieces by boring a hole in each, the ends of which match exactly, so that either a straight pin, or a pin angled at the join (as in a knee joint) can be cemented in to hold the two together. For most purposes half hard brass wire 132, in a A’ diameter hole, is right. The holes should be about a quarter of an inch deep. To align the holes properly, bore one side, then push the tip of a thoroughly wet indelible pencil into the hole so that it is well ringed with ink. Then bring the other, undrilled side to the join tight against the drilled piece in exactly the right position. The indelible ink will mark the undrilled piece, and you can go ahead and bore right on the mark. Countersink one or both holes with a slightly bigger bit.
Take a piece of brass wire and flatten it slightly on one side to allow air to escape from the holes as it is inserted. Push it home into one of the holes and cut the wire, allowing sufficient length to go to the bottom of the other hole. Then fit the second piece over the wire. If the wire is too long to allow the faces to come together properly, snip off a little tiny bit and try again until you do get an exact fit. Obviously, the secret of this job is to be sure your holes are accurately bored facing each other, or you will spend ages fiddling about bending the wire or enlarging holes.
When die wire fits properly, take the wire right out and Jay it on the work bench and roll a rough file backwards and forwards across it so that it is scratched and scored to make a key for the cement.
Make up some cement (see Fillers and Cements) from whichever mixture you fancy. Araldite and titanium dioxide or kaolin or whiting are as good as any because Araldite sticks so strongly. Fill one of the holes, that on the bigger piece of china and push in the dowel making sure that it goes right home as it did when you fitted it. Sonic cement will ooze up into the countersinking. Wipe it away, as the countersinking will later fill with cement from the other side of the join and this will help to hold the two pieces together. Try the second piece over the dowel just to make sure that everything still fits. Then remove it, and leave the dowel to set hard in its cement. The next day, or after baking for half an hour at zoo deg F. if epoxy resin has been used, clean the surfaces of the break with methylated spirit, and make up some more cement and fill the hole in the second piece. Provided the broken edges of the piece fit perfectly it is not necessary to put adhesive between them. Adhesive will in effect widen the join a fraction and make a line which will show. But if there arc irregularities or missing chips, then put some adhesive or even a little filler composition in to fill them out. If you decide that adhesive is necessary, put a thus layer on one side of the break only.
Push the second piece well home on to the dowel, and make sure that the fit is good. Bind the pieces together with gummed strip as described before.
Dowelling is used to join modelled or moulded or cast pieces to the whole in exactly the same way. Dowels will also support joins in hollow china, or help to join hollow pieces to solid pieces. The solid piece is bored in the same way as before, but the reverse process has to be carried out in the hollow section, a block of cement being built up to hold the dowel. When both sides are hollow and the hole is large use a heavier gauge wire or make a dowel out of a tube of brass. It is difficult to fill in a large space with cement and to set a small pin iri the middle of it. Wrap a ribbon of cement composition round and round the dowel until it is enough to fill the cavity, and push the dowel, with its cement wrapping, firmly into place. The cement may ride up the dowel if it is too much to go into the cavity, and it will not adhere if it is too little. Having cemented in one end of the dowel, leave it to set, and then swathe the protruding end in die same way, finally fitting the broken piece over the dowel and cement, until a flush join is achieved.
pitillilig. In some ways, pinning is easier than dowelling. A hole is drilled through the broken sections after they have been stuck together and a pin, prepared in the same way as a dowel, is pushed into the hole which has been filled with a fairly liquid cement mixture. The advantages of this method are that there is no difficulty in getting the holes to match up as they are drilled in one go, and that no binding is necessary as the join has already been made. The pin is sunk well into the hole so that the outer end is just below the surface. The hole is then filled in with composition and overpainted in due course (see Fig. io).
Cores. Cores are commonly used when a large missing section has to be built up, to support a piece which may sag
these two pieces
cannot easily or be liable to breakage. Wire of a suitable gauge is used according to the thickness of the china. Holes are bored each side of the aperture, only just deep enough to accept the end of the wire. A piece of wire just slightly longer than the gap is cut and roughened, and sprung into the holes. Or a piece of wire is put into each hole and joined in the middle by soldering. Several pieces of wire can be put across a gap if necessary. If the part to be replaced is curved, a teapot handle for instance, a correctly shaped core of wire is set into holes at each end of the break (see Fig. to). Shaped cores can be made as skeleton frameworks for almost any shape or size of missing piece. Sometimes a core is not fixed at each end, but is a dowel set in the edge of a gap (see Fig. io). A bent pin makes a skeleton limb on which to build up a whole piece by modelling.
All these techniques can be combined with those described under the headings of Sticking, Moulding and Modelling.
If the china is thick enough to carry drill holes, and it is intended to make a press mould out of plasticine or Paribar, a core or cores can be put across the gap to strengthen the new piece, the filler composition being carefully tooled in to cover the wires.
Cores can be a great help when modelling. It is not possible to make a model direct by putting a large lump of composition over and round the core, it will just slip about the wire. First wind a ribbon of composition round and round the wire, and leave it to set hard. Then do the modelling on this conipo base.
Overpainting. The art of overpainting mends in china so that the repair becomes indistinguishable from the original is skilled indeed ! If you cannot paint anyway, then it is going to be pretty difficult for you. The work is done with good quality water colour paint brushes, and you will need several sizes, particularly some good fine ones. Artist’s oil paints are fine because they can be mixed so easily to make absolutely any colour. Reeves Artist’s Gel makes a good medium, or clear enamel glaze if you can get it. If you want the work to dry out quickly add drying agents bought from Artist’s Colourinen. Just how glazed the final result may be depends upon the medium, but the final result can always be varnished if it is not glossy enough. For work where opaque colours are needed, polymer paints are ideal and can be mixed with their own glaze mcdiLini to get a high finish. Darwi Italian Glaze is also excellent for work on china.
Many school teachers know about the modelling compound made by Darwi, and this firm now make a most excellent range of paints for their modelling compound which can be used on china to give the effect of glazes without firing. Darwi transparent paints are available in twelve colours, and thereis a similar range in opaque paints. Both types of paint when dry should be given a coat of the special Darwi Varnish, as this gives it the ceramic lustre, and dries hard to give lasting protection. They also make metallic paints called Darwi-Or and Darwi-Al in gold and aluminium.
The normal technique for building up colour to re- create glaze is to start by painting the whole area with a ground colour which exactly matches the ground colour of the original. This may be anything from black to white, but will probably be fairly opaque and will contain a lot of white. After this layer has dried, further layers of more transparent colour are built up over it until the decoration matches the original. To explain in detail this is done would be to embark on a course in oil painting. As a simple example, flesh colour is made up of at least five colours. White, a little grey or blue, black, yellow, and crimson. If you mix all these colours together in any proportions the result will be an opaque putty coloured paint. Applied in transparent layers very thinly, first wltite, and then the lightest touches of blue, grey and black, and then a little yellow and a final coat of transparent palest crimson, it will build tip beautiful flesh tones. The portrait painter teams all about this, and if you are going to do much of this kind of work a good book on oil painting techniques could be lielpfiil.
Perhaps I have made ovcrpainting sound too difficult—but it isn’t really, and it is great fun, and astonishingly good results follow just a little practice.
Here is a list of colours which will cover any range you want and will come in useful for other restoration jobs. You might even get interested in painting in oils, if you aren’t already. Anyone who has an oil paint box will have enough colours and will know enough about painting to go ahead without further purchases except medium. Dry powder pigments in several of the tints below are also very useful for all kinds of restoration work. It isn’t necessary to have all these colours. For small jobs just buy the ones you need and so build up a stock piecemeal. Polyurethane glaze gives a good hard clear finish if a high gloss is required.
Colours. These should be oil colours.
Titanium White Ivory Black Cobalt
Naples Yellow Yellow Ochre Burnt Sienna Burnt Umber Rose Madder Indian Red
Deep Cobalt Green Chrome Green
Artist’s oil and riot Student’s
Paynes Grey
French Ultramarine Cerulean
Winsor Lemon Raw Sienna
Raw Umber Venetian Red Cadmium Red Viridian
Permanent Green
GLASSWARE
Wash glass with liquid detergent in warm water, and brush cut glass gently with a soft brush. Dry it and polish it with a silver cloth. If badly stained cut glass is left to soak overnight in warm water and detergent with a few drops of ammonia added, the dirt will probably come off. Tile cloudy deposit left oil glass by lime in water is the devil to shift. Fill the glass with distilled or rain water, rim tap water, and leave it for a day or two and then scrub gently. If the lime still persists a little spirits of salt may shift it. Spirits of salt is a pretty good shifter of all kinds of stains, and it also makes neat little shot holes in your clothes if you spray it when
brushing!
Bad stains will usually yield to a soaking in a five per cent solution of caustic soda. Metal polish will remove stains on glass. Decanters and bottles with stains which will not yieldto brushing or which cannot be reached can be cleaned with said, preferably silver sand. Put in a small handful of sand, some detergent and a little warm water, enough to allow the sand to swirl around when the bottle is shaken. A careful swirl or two should abrade off the stain. A five per cent solution of nitric acid will clean off wine stains.
Scratches oil glass will sometimes respond to a good Polish with jeweller’s rouge. Glass is a strange substance which does in fact flow, and rubbing with rouge does actually make it flow and fill in the scratches.
Removing Stoppers. Glass stoppers sometimes get firmly stuck in old decanters and glass bottles, and brute force is the worst possible way to shift them. Make up a mixture as follows:
2 parts alcohol
I part glycerine
i part common salt
Paint this oil the stopper, particularly where it enters the bottle or decanter, and leave it for a day. A few gentle taps should then shift it. If this doesn’t work, heat the decanter over a stove, or stand it on a radiator so that the air inside will expand, and force out the stopper. This method will have to be used if a stopper has broken offshort in the neck of a bottle. Keep the piece that comes out for it may be possible to repair it.
Making Lamps out of Bottles. Large glass jars and carboys can be made into lamp stands and this job always looks best-if the jar is to be filled with solid or semi-solid matter such as pebbles, or sand—if the flex passes up through the bottle. If the jar is to be filled with liquid, obviously there are difficulties in preventing leakage through the flex-hole, and in keeping the flex totally insulated from the liquid. Outside fittings are best and safest for liquid filled jars.
Bore holes in glass jars exactly as they are bored in china. The safest way is to start by boring a A” hole with a diamond drill, lubricating constantly with turpentine. Then enlarge the hole with successively bigger drills until it measures which is big enough to take the flex. Start each bigger hole for the follow-up drills with a tungsten carbide bit, and don’t push through too fast or the
will drill
glass wi split. just let the grind gently away. A little practice on a spare milk bottle is advisable if you haven’t done the job before.
Mending Glass
Sticking. On the whole glass is stuck together in the same way as is china. There are one or two small points of differ- ence. The edges of broken glass are very smooth and some roughing up with a diamond scratcher will give the adhesive a better key. Gum strip is used to put tension across the joins as described in the section on sticking china. This is very important when mending glass as a very tight fit is essential to ensure adhesion. When the adhesive leas set, surplus which has squeezed out is removed by rubbing it down with steel wool, not glass paper as this would scratch the glass. Remaining adhesive can be lifted off with a scalpel or a razor blade.
Wine glasses so often break across the stem, and such breaks can be mended with Araldite, but won’t be particularly strong because glass tends to break again near the point of the first break even if the join itself holds firm. Stainless steel bands are sometimes put round stein-breaks, but this is an expert job and the band must be very accurately made so that it can be sprung over the stein and glued tight round the join.
Dowelling. Dowel glass as you dowel china. This is a better method of mending a wine glass stem. The dowel will show, but inside the stein the Aralditc/titan dioxide cement looks rather like frosting and is not unsightly. Glass is more fragile and shatters more easily than china, so take just that much more care when drilling.
Glass that has been mended with epoxy resin can be heated to speed up setting, but remember that glass breaks if exposed to sudden changes of temperature. Therefore it must be put into a cold oven and the heat brought up gradually to about i 5o deg. F. Then switch off the heat and without opening the oven door leave it to cool right off again. The draught caused by opening the door would crack the glass. After an hour the oven should be cool enough and the adhesive set. Only white clear glass may be heated; coloured glass cannot be stoved and the adhesive will have to be left to harden in its own sweet time.
Moulded Repairs. Glass can be repaired with liquid acrylic resin, of which there are several makes on the market. Technovit 4004A dries to a clear glass-like material. It can be polished and it can be coloured. Acrulite and Tensol Acrylic are two other very good materials for this work.
Make plasticise moulds as described in the china section, but always use white plasticise as acrylic will take up colour from coloured plasticise. No parting agent is needed unless the makers of the acrylic so state. Technovit is made up by adding hardening liquid to a powder, and it is then poured direct into the mould, care being taken that there are no air bubbles present or the effect will not be clear. Warm the glass a little before pouring the filler as acrylic gives off heat as it hardens and might crack cold glass.
Acrylics can be bought ready coloured, or can be tinted with powder pigments and made opaque so that it looks like china, rather than glass, so it is quite useful for repairing china of a self colour which requires no further overpainting. Jasperware may be repaired satisfactorily with acrylic.
Surplus acrylic is cleaned from the edges of the join immediately, while it is still liquid. It can be abraded and rubbed away after hardening but this dulls it and there is the danger of scratching the surrounding glass. Acrylic can be polished with silicone carbide spaced grit cloth or paper, grades 150, 24o and 320.
Sometimes you may need a large lump of pseudo glass for a restoration. Acrylic can be poured into a mould, but this means that a model must first be made, and then a mould as described in the sectionon casting and pressing china parts. It is much easier, really, to make the lumps out of Perspex as this material is worked in exactly the same way as wood, and turned on a lathe. The tools—saws, files, drills etc. are lubricated while working with ordinary soap, and the Perspex will have to be polished when all shaping has been done.
Pieces of chandeliers can be replaced with Perspex, and new pedestals made for glass ornaments (see under Perspex).
SWORDS—WATERLOO TO
THE PRESENT DAY
There was no, change in the pattern of swords used by the British Army during the long second period of the Napoleonic wars, which lasted from the reopening of hostilities, after the abortive Peace of Amibns, until the final departure of Napoleon to St. Helena. When the threat from imperial France had been finally removed, however, there was more time for those who meddle with these things to consider the minutiae of military uniform and equipment.
Round about i82o sundry new regulations were published relating to swords. Even the superb light cavalry sword, which had proved its value in action, was not left alone. The old argument was revived as to whether cutting or thrusting was the more important function of a cavalrysword; and because it was not yet appreciated that no sword can be designed which is really satisfactory for both, the weapon which eventually appeared was a compromise which was good at neither.
The new sword was issued to regiments of Hussars and Light Dragoons in 1826. It had the same type of stirrup hilt as the old sword, but the blade was increased in length to thirty-four inches, and was both narrower and considerably less curved. The balance of the sword was quite altered as compared with its predecessor, and this, together with the straighter blade, resulted in a weapon which was far inferior for cutting. For thrusting it was more effective, though by no means satisfactory.
Units seem to have been in no hurry to acquire this new sword, for the 13th Hussars, at any rate, managed to retain the old one until 1829. In 1829 the hilt was changed from the stirrup pattern to a three-bar steel guard, which gave more protection to the hand.
In 1822 the sword of the heavy cavalry received some much needed attention. In contrast, however, to the ill-advised replacement of the efficient light cavalry sword, the only improvement made to the ineffective weapon of the heavy cavalry was the substitution of a sharp point for the original hatchet termination of the blade.
Also in or about :1822 a new sword was introduced for infantry officers. The hilt was a half-basket type of Gothic design, incorporating the Royal cypher, and the half of the guard worn next to the body was hinged to fall downwards, to avoid rubbing the clothing. The inside of the hilt was lined with black patent,leather, and there was a fishskin grip bound with brass wire. The hilts were made of brass, except those of the Rifle regiments, which were steel. The blade was the same length of thirty-two inches as the previous pattern, but it was slightly curved instead of being straight. In addition it was unfullered and had piping down .the back to strengthen it. In spite of the strengthening, however, the blade was weak; and the piping, in fact, prevented it cutting deep.
In 1834 the Highland regiments, which hitherto had worn the same infantry sword as the rest of the Army, were issued with a sword of their own. This had the traditional ‘Highland Basket’ hilt. The blade was the heavy broadsword type similar to that popular in the heavy cavalry in about 1750, (A sword with this type of.hilt is often wrongly called a claymore. The true claymore is a two-handed sword with no other protection than a pair of straight quillons.) The Highland Basket is, not, in point of fact, a very convenient hilt, in spite of the protection it gives. The hand is too confined for the sword to be used very effectively. for thrusting. On the other hand, it was originally designed for cutting;; the body being protected by either the dirk or the targe. Used thus it was a very fine weapon. In addition it was very decorative, and during the reign of the ‘First Gentleman in Europe’ this was frequently of greater importance than efficiency for battle. The hilt was lined with white buckskin and scarlet cloth edged with blue silk, and a crimson silk tassel was suspended from the pommel. Lowland regiments were still armed with the ordinary pattern of infantry sword.
In about 1848 a new sword was at last brought out for the heavy cavalry. It was a vast improvement on the old one. The blade was thirty-six inches long, slightly curved, and tapered to a sharp point. The hilt was steel, and the guard was the first example of the bowl-shell which is fitted to the latest pattern of cavalry sword. On the inside it was lined with leather, and there was a leather covering to the grip.
The new heavy cavalry sword had a very short life, for in 1853 a sword was approved for issue to all cavalry regiments, whether heavy- or light. This signalized official recognition that there was now no difference in the function of the two branches of the cavalry. It i6 unlikely, however, that many regiments, if any, received this sword before leaving for the Crimea; and the great cavalry actions of that war were probably fought with the older pattern swords.
It had at last been realized that all the qualities required for cutting - and thrusting could not be combined in one weapon. The 1853 pattern was primarily a thrusting weapon, and it was so stated in the regulations. At the same time the design allowed for cutting as a secondary function. The blade was straight and thirty-six inches in length. The guard consisted of three bars, of cast iron, and on the opposite side of the sword was a short quillon. ‘The slit for the sword knot was on top of the guard.
The ordinary infantry officer’s sword was improved in 1845. The hilt was unchanged, but the blade was heavier, fallered and without the piping on the back. It was . still slightly curved. Some ten years later there was another change. The blade became a little straighter, and the inner part of the guard was no longer hinged. The design on the guard incorporated the Royal cypher and, in Light Infantry and Rifle regiments, a bugle as well.
A peculiar type of ornamental sword was introduced into the Band and Drums of the infantry in about 1830- It had a short and very curved blade of the type known as Mameluke. The hilts varied in shape and design in accordance with regimental taste. The pommel nearly always figured an animal’s head. The lion was the most often seen, but sometimes a badge of the regiment was chosen. The 17th Regiment, for instance, had the Royal Tiger which had been granted to them as a badge in 1825. The 56th Regiment, which. had been associated with West Kent for many years, bore the Kentish horse. There was no guard other than quillons, and these were straight, curved or counter-curved; and sometimes with brass chains connecting the quillons and the pommel.
In 1854 a new and completely different sword was introduced for the Band and Drums. It had a blade which was longer but less curved than its predecessor and a brass half-basket hilt, incorporating the Royal cypher. Three years later the sword was changed again. Curved blade and half-basket hilt were alike discarded. The new weapon was short and straight in the blade; and the hilt had no guard other than trefoil-shaped quillons. There was a black leather scabbard with brass mounts. For Rifle regiments the hilt was steel, and for other regiments brass. A similar sword, but slightly lighter, was issued to buglers. The only other difference was the absence of a knob on top of the pommel. In 1895 the hilt was simplified and the bugler’s sword was made slightly the heavier weapon. In i goS these swords were abolished.
In 18 56 the sword replaced the musket as the weapon of the infantry Pioneers. The. blade was 22z inches in length, and the back edge was cut as a double-toothed saw. The hilt had a simple knuckle-bow guard. This was probably not the first time that Pioneers had used saw-backed swords, as some seem to have been armed with them in the I 840’s; but this earlier type was not, apparently, official, and may have been made under regimental arrangements.
In 1864 the bowl-shell guard, which had been fitted to the heavy cavalry sword of 1848, replaced the guard with cast-iron bars of the universal cavalry sword of 1853. It had been found that these bars often broke in action, and in any case gave little protection to the hand. The new guard was made of sheet steel and was pierced by four triangular apertures arranged in the shape of a cross. At the same time the blade was shortened by an inch to thirty-five inches, and was curved slightly, presumably to improve it for cutting.
In 1863 an improved pattern of Highland Basket hilt was approved for Scottish infantry regiments. It made no appreciable. difference, however, to the regimental broadsword as a fighting weapon. In fact, later swords of English manufacture were far inferior weapons. Eventually, in 18 7 8, it was decided that basket hilts would have to be removed on active service. The hilt which was consequently approved for wear with Service dress certainly allows the hand full freedom of movement, but the only protection provided is a pair of straight quillons. The basket and cross hilts are made readily interchangeable. The original scabbards had been of black leather with brass or copper-gilt mounts and a chape with trailer. The 1863 scabbard was steel, but the pattern approved later for wear with Service dress and Sam Browne belt was leather. In 1881 the Lowland regiments adopted the Highland pattern broadsword.
A peculiarity in the swords of Scottish regiments is the use of a separate type of hilt for mounted field officers. This is interchangeable with either the cross or basket hilts for dismounted duties, and is lined with buckskin and crimson cloth. The pattern varies with different regiments. In’ The Royal Scots, The Royal Scots Fusiliers, The King’s Own Scottish Borderers and The Gordon, Highlanders the hilt is covered with a design of thistles, and there is a space for the display of the regimental badge. The field officers of The Black Watch, The Seaforth Highlanders, *The Argyll and Sutherland Highlanders and The Highland Light Infantry have a differently shaped guard with a scroll design. This hilt was also worn by officers of the heavy cavalry from 1857 to 1896, and by officers of the Royal Engineers from -T-8$7 to -1902- Field officers of The Cameron Highlanders have a separate sword with a three-barred and unlined hilt, which is also worn by officers of the Royal Artillery. The Cameronians have the same sword as other Rifle regiments, though for some years the regimental badge was worn in place of the bugle.
In 188o a new sword was introduced for officers of infantry regiments nts; (other than Scottish). It had a straight blade and a half-basket brass hilt. In 1895 a new hilt was introduced, though the blade remained the same. The hilt was again the half-basket type, but of steel instead of brass. It incorporated a foliated design and the crowned Royal cypher. The following year there was a slight modification: the inside edge of the guard was turned down to safeguard the uniform from damage. The 1896 sword is the pattern worn by officers to-day, not only in the infantry, but in the Royal Engineers, the Royal Signals and other corps.
In 1882 another cavalry sword was produced which had only slight alterations as compared with its predecessor of 1864. The guard was a little smaller and the inner edge was turned down. The sword knot slit was moved from the front to the top of the guard, and the upper part of the guard was raised a little: above the pommel. There was no alteration in the shape and design of the blade, but there were two different lengths: 35-j and 33 inches.
The Egyptian war, which was in progress at this time, brought to light some unsuspected and unfortunate deficiencies in the swords and bayonets of the British Army. There were many reports of blades being broken or bent in action. The fault -was obviously in the quality of the steel; and there was legitimate criticism of the method of testing and inspection. Eventually a Committee was appointed to investigate the matter. Nothing very positive seems to have resulted from its deliberations; but the very fact of the investigation and the evidence which was called must have caused manufacturers to. improve their standards; for no further failure was apparently reported’. In the meantime Enfield was unable to meet the whole of the demand for swords and bayonets, and part of the order, therefore, was placed with German firms at the famous sword-manufacturing centre of Solingen.
The cavalry sword was again modified in 18 8 5. The curve of the blade was slightly increased and made an inch shorter than the 1882 pattern.. In addition, the top of the guard was made level with the pommel. In 18 go a heavier blade was introduced which, except for being thicker, was of the same shape and pattern.
However, in spite of these numerous minor modifications, the old argument as to the type of sword which should be used by cavalry broke out once more: stimulated probably by criticisms resulting from the recent campaigns. The argument was sufficiently intense for the matter to be brought to the notice of Parliament; and, as a result, a .number of experimental swords were made. The arguments were again reflected in the final solution. As in the case of the light cavalry sword of 182o, the cavalry sword of 1899 was suitable for neither cutting nor thrusting; though optimistically intended for both. The blade was reduced in length to 33 inches. The hilt was of the same design as previously, but a slightly enlarged and more bowl’shaped guard gave better protection to the hand. The cavalry regiments which went out to South Africa at the start of the Boer war were armed with either the 1885 or the 1890 pattern of sword; but the unfortunate units in the later reinforcements were issued with the heartily disliked 1899 model.
The obvious failure of the 1899 sword led, in 1903, to the appointment of a Committee to re-examine the problem and to make recommendations for a suitable type of sword for the cavalry. The Committee early decided that the sword must be primarily a thrusting weapon on the grounds that little injury was inflicted by a cut, and that a thrust was always far the more effective. Whereas experience with the light cavalry sword in the Peninsular campaign certainly did not support this conclusion, it was something that the Committee had made up its mind on the purpose which the sword was to serve. However, although numerous experimental swords .were made, all were rejected as unsuitable, and the proceedings of the Committee apparently came to an end.
In 1906 another Committee was appointed; and with such energy did it act that some months later a new sword was ready for trial. In the design of this new model the Committee drew on a wide field of experience. Swords to meet certain specifications were ordered from private firms, and trials were carried out with numerous existing types, both British and foreign.
The firms who were requested to make swords for experi- , ment were Messrs. Wilkinson and Messrs. Mole. It was stipulated that the blade must be 35 inches in length, and have a narrow chisel edge; that the weight should be 2 pounds 6 ounces; that the balance should be between 21 and 21 inches below the hilt; and that the grip should be shaped to ensure that the sword could only be held in the correct fashion.
The existing swords submitted for test were the pre-Boer war cavalry sword of the 18 go pattern; the unpopular model of 1899; a sword which had been adopted for the Household cavalry in x892, with a slightly curved blade 341 inches long and a guard of sheet steel; the French cavalry sword of 1854, which had a straight 381-inch blade and a four-bar brass guard; the French light cavalry sword of 1822, which was a cutting weapon with a curved blade and a three-bar brass guard; the existing sword of the Dutch cavalry; and the light thrusting sword of a Spanish bull-fighter. Apart from these, experimental blades were tried with existing hilts, and to existing blades were fitted grips of various shapes and materials.
The sword which was the outcome of these trials and experiments was the ‘Pattern i 906 Experimental’. This was issued to several units and proved very popular. It had a straight thrusting blade and the so-called ‘pistol’ grip. As a result of the success of this weapon a slightly modified version was approved by the King in igoS for general issue to the cavalry; and this was the last cavalry sword to be designed for the British Army. It was a worthy finish, for it is one of the finest swords ever to have been designed, and it was outstandingly successful in the field in the “First World War. With its straight narrow 35-inch blade it is essentially a thrusting weapon. The guard is of sheet steel, unpierced, and is shaped into a very large and rather ugly-looking bowl, which gives excellent protection to the hand. The pistol grip has been retained, and is so shaped that the hand naturally grasps it in the correct position. The sword is a delight to handle and is beautifully balanced.
