Page:Encyclopædia Britannica, Ninth Edition, v. 2.djvu/74

This page needs to be proofread.
64
ANN—ANN

uniform molecular arrangement throughout. Of course the thicker the glass the more careful must be the anneal ing and the longer the process; very thin glass requires little or no annealing, because it is, so to speak, all skin ; and glass thread requires no such treatment to make it

possess the exquisite flexibility of silk.

The large sheets of plate glass, now used for shop windows require to be very carefully annealed before being ground and polished, otherwise they would be un- uble to stand the scratching of the surface. Imperfection in this respect is often revealed by the spreading in every direction of a crack once begun. These plates require as long as a fortnight to complete the annealing; and smaller articles from six to sixty hours, according to their thickness and weight.

In the manufacture and working of the various metals, annealing is frequently employed to reduce the brittle- ness usually resulting from a rapid or important change of molecular structure, such as is produced by hammering, long-continued vibration, rolling, and sudden cooling. The coppersmith who hammers a flat sheet of copper into a vessel of any description he pleases, must leave off ham mering at intervals, and anneal the piece of metal to pre vent it going to pieces under his blows. The extreme degree of tenuity to which gold is reduced by heating, is attainable only by very frequent and careful heating and slow cooling at each stage of the processes of forging, rolling, and beating.

Perhaps no better example can be given of the importance of annealing in metals that have to be subjected to frequent concussion than the art of die-forging. The matrix, from which the die-punches are impressed, is the product of many months labour, and the subject of tender care in its manufacture. Being a mass of steel of con siderable dimensions, it is extremely liable to fracture after the operation of hardening, so much so that it will not bear even sudden changes of atmospheric temperature. This brittleness is removed by putting it in water, gradu ally raised to the boiling-point, and then allowed slowly to cool. The matrix is used, not so often for the stamping of medals and coins directly, as for the manufacture of die-punches, which shall be used to produce any required number of dies exactly like the original matrix. For this purpose a conical plug of fine soft steel is compressed by powerful machinery against the matrix, but in receiving the impression its texture is condensed and hardened, so . that the annealing process has to be repeated after every few blows in the die-press, to prevent cracking of the sur face Coins, whether gold, silver, or copper, are usually impressed by a single blow, and in their case the blank metal is annealed before coining But in medals, where the design is in bolder relief, a number of blows, some times as many as thirty, is required; and in this case it is necessary to anneal after every third blow.

Wheels and axles of railway carriages, from the constant vibration to which they are subjected, become, in course of time, dangerously brittle; and they require to be re-worked and annealed anew to restore the requisite toughness to the material. So also in the processes of metal rolling and wire drawing, frequent annealing is necessary to allow the cohesive force to produce the most stable arrangement of the particles. The soft metals, such as lead, tin, and zinc, are annealed by immersion in water, which is made to boil and then to cool slowly. Sudden changes of temperature have the effect, almost invariably, of rendering metals brittle. And, as sudden cooling is required to give to steel its peculiar and invaluable hardness, so unfortunately it renders it at the same time brittle as unannealed glass, from the unnatural strain which the inner substance of the metal possesses. Annealing must, therefore, be employed to reduce this molecular strain, and to give the steel a workable flexibility. This is done by raising it to a red heat within a close vessel, and then allowing it gradually to cool. Heating in an open fire is very injudicious, because the carbon which enters the steel as an element combines with the oxygen of the air to the detriment of the quality of the steel. Usually steel goods are heated in an iron oven with charcoal powder, or placed in the heart of hot cinders, so as to exclude all air and oxy gen. Large castings, such as are used in the manufac ture of cannon, are kept covered with hot cinders and allowed to cool down sometimes over a space of about three months.

In proportion as this brittleness and hardness are reduced by annealing, the flexibility is increased, which allows of the employment of steel for an infinite variety of purposes. A bath of oil, which boils at about 600 Fahr., is often used for the annealing of steel tools, when a tem perature between the boiling-point of water and 500 or 600 Fahr. is required. Annealing is also employed to render cast-iron malleable or less brittle than it is naturally, so that a dozen of small articles such as buckles and knife- blades can be manufactiircd at less cost than a single article can be otherwise.

Annealing may be said to be the inverse process of tempering, which is the fixing of the molecular condition of steel by more or less sudden cooling from a particular temperature.

The real nature of the change which metals undergo by annealing is not thoroughly understood. Most of the malleable metals are susceptible of two distinct forms , one, called the crystalline form, which they assume by slow cooling; and the other, the fibrous, which is acquired by hammering or rolling. When this, however, is carried beyond a certain point, the metal becomes so hard that it is not capable of being bent far without breaking, and recourse must be had to annealing or slow cooling.

On the other hand, if the annealing be long continued the malleability diminishes, and themetal again has a crystal line fracture. Zinc by wire-drawing becomes very flexible, and possesses a degree of tenacity not inferior to that of copper; but, if it be kept in boiling water for a length of time, it will resume its original brittleness, and show a crystalline appearance when broken. Thus it appears that little can be said of the theory of the subject; little more-, indeed, can be attempted than the enumeration and classification of the facts.

ANNECY, a town of France, in the deparment of Haute Savoie, situated at the foot of the lake of Annecy, 22 miles south of Geneva. The surrounding country pre sents many scenes of beauty, and the town itself is a pleasant residence, containing a cathedral, a bishop s- palace, a church (in which the relics of St Francis de Sales are preserved), and an old castle, formerly the residence of the counts of Geneva. It is the seat of several important manufactures, the chief being linen and cotton goods, glass, cutlery, earthenware, and leather; linen bleaching is also- carried on to a considerable extent, and in the neighbour hood there are some iron mines. There are traces of the Roman origin of the place ; at all events Annecy le- Vieux, a village a little to the N.E., existed in the time of the Romans. Annecy was once the capital of the counts of Geneva; from them it passed to the counts of Savoy, or, as they ultimately became, kings of Sar dinia, by whom it was ceded to the French in I860. Population, 11,581. The lake of Annecy is about U miles in length by 2 in breadth, and its surface is more than 1400 feet above the sea. It discharges its waters by means of a canal into the Fier, a tributary of the Rhone.