  Although the progress in the invention of fire-arms of all descriptions seems slow during the ages preceding the 19th century, yet it will be found on investigation that no art progressed faster. No other art was spurred to activity by such strong incentives, and none received the same encouragement and reward for its development. The art of war was the trade of kings and princes, and princely was the reward to the subject who was the first to invent the most destructive weapon. Under such high patronage most of the ideas and principles of ordnance now prevailing were discovered or suggested, but were embodied for the most part in rude and inefficient contrivances. The art waited for its success on the development of other arts, and on the mental expansion and freedom giving rise to scientific investigation and results. The cannon and musket themselves became the greatest instruments for the advancement of the new civilisation, however much it was intended otherwise by their kingly proprietors, and the new civilisation returned the compliment through its trained intellects by giving to war its present destructive efficiency. To this efficiency, great as the paradox may seem, Peace holds what quiet fields it has, or will have, until most men learn to love peace and hate the arts of war. As to the Chinese is given the credit for the invention of gunpowder, so they must also be regarded as the first to throw projectiles by its means. But their inventions in these directions may be classed as fireworks, and have no material bearing on the modern art of Ordnance. It is supposed that the word "cannon," is derived from the same root as "cane," originally signifying a hollow reed; and that these hollow reeds or similar tubes closed at one end were used to fire rockets by powder. It is also stated that the practice existed among the Chinese as early as 969 A. D. of tying rockets to their arrows to propel them to greater distances, as well as for incendiary purposes. This basic idea had percolated from China through India to the Moors and Arabs, and in the course of a few centuries had developed into a crude artillery used by the Moors in the siege of Cordova in 1280. The Spaniards, thus learning the use of the cannon, turned the lesson upon their instructors, when under Ferdinand IV. they took Gibraltar from the Moors in 1309. Then the knowledge of artillery soon spread throughout Europe. The French used it at the siege of Puy Guillaume in 1338, and the English had three small guns at Crecy in 1346. These antique guns were made by welding longitudinal bars of iron together and binding them by iron rings shrunk on while hot. Being shaped internally and externally like an apothecary's mortar, they were called mortars or bombards. Some were breech-loaders, having a removable chamber at the breech into which the charge of powder was inserted behind the ball. The balls were stone. These early cannon, bombards, and mortars were mounted on heavy solid wooden frames and moved The Hindoos, when their acquaintance was made by the Europeans, were as far advanced as the latter in cannon and fire-arms. One cannon was found at Bejapoor, in India, cast of bronze, bearing date 1548, and called the "Master of the Field," which weighed 89,600 pounds, and others of similar size of later dates. Great cast bronze guns of about the same weight as the Hindoo guns were also produced at St. Petersburg, Russia, in the sixteenth century. Many and strange were the names given by Europeans to their cannon in the fifteenth and sixteenth centuries to denote their size and the weight of the ball they carried: such as the Assick, the Bombard, the Basilisk, the cannon Royal, or Carthoun, the Culverin, Demi-culverin, Falcon, Siren, Serpentine, etc. The bombards in the fifteenth century were made so large and heavy, especially in France, that they could not be moved without being taken apart. When the heavy, unwieldy bombards with stone balls were used, artillery was mostly confined to castles, towns, forts, and ships. When used in the field they were dragged about by many yokes of oxen. But in the latter part of the fifteenth century, when France under Louis XI. had learned to cast lighter brass cannon, to mount them on carriages that could be drawn by four or six horses, and which carriages had trunnions in which the cannon were swung so as to be elevated or depressed, and cast-iron projectiles In the sixteenth century Europe was busy in adopting these and other changes. Cannon were made of all sizes and calibres, but were not arranged in battle with much precision. Case shot were invented in Germany but not brought into general use. Shells were invented by the Italians and fired from mortars, but their mode of construction was preserved in great secrecy. The early breech-loaders had been discarded, as it was not known how to make the breech gas-tight, and the explosions rendered the guns more dangerous to their users than to the enemy. In the seventeenth century Holland began to make useful mortar shells and hand grenades. Maurice and Henry Frederick of Nassau, and Gustave Adolphus, made many improvements in the sizes and construction of cannon. In 1674, Coehorn, an officer in the service of the Prince of Orange, invented the celebrated mortar which bears his name, and the use of which has continued to the present time. The Dutch also invented the howitzer, a short gun in which the projectiles could be introduced by hand. About the same time Comminges of France invented mortars which threw projectiles weighing 550 pounds. In this part of that century also great improvements were made under Louis XIV. Limbers, by which the front part of the gun carriage was made separable from the cannon part and provided with the ammunition chest; the prolonge, a cord and hook by which the gun part could be moved around by hand; In the early part of the eighteenth century it was thought by artillerists in England that the longer the gun the farther it would carry. One, called "Queen Ann's Pocket Piece" still preserved at Dover, is twenty-five feet long and carries a ball only twenty-five pounds in weight. It was only after repeated experiments that it was learned that the shorter guns carried the projectile the greatest distance. The greatest improvements in the eighteenth century were made by Gribeauval, the celebrated French artillerist, about 1765. He had guns made of such material and of such size as to adapt them to the different services to which they were to be put, as field, siege, garrison, and sea coast. He gave greater mobility to the system by introducing six-pound howitzers, and making gun carriages lighter; he introduced the system of fixed ammunition, separate compartments in the gun carriages for the projectiles, and the charges of powder in paper or cloth bags or cylinders; improved the construction of the elevating screw, adapted the tangent scale, formed the artillery into horse batteries, and devised new equipments and a new system of tactics. It was with Gribeauval's improved system that "Citizen Bonaparte, young artillery officer," took Toulon; with which the same young "bronze artillery officer" let go his great guns in the Cul-de-Sac Dauphin against the church of St. Roch; on the Port Royal; at the Theatre de la Republique; "and the thing we specifically call French Revolution is blown into space by it, and became a thing that was." It was with this system that this same young officer won his first brilliant victories in Italy. When As to small arms, as before suggested, they doubtless had their origin in the practice of the Chinese in throwing fire balls from bamboo barrels by the explosion of light charges of powder, as illustrated to this day in what are known as "Roman Candles." Fire-crackers and grenades were also known to the Chinese and the Greeks. Among ancient fire-arms the principal ones were the arquebus, also bombardelle, and the blunderbuss. They were invented in the fourteenth century but were not much used until the fifteenth century. These guns for the most part were so heavy that they had to be rested on some object to be fired. The soldiers carried a sort of tripod for this purpose. The gun was fired by a slow-burning cord, a live coal, a lit stick, or a long rod heated at one end, and called a match. The blunderbuss was invented in Holland. It was a large, short, funnel-shaped muzzle-loader, and loaded with nails, slugs, etc. The injuries and hardships suffered by the men who used it, rather than by the enemy, rendered its name significant. Among the earliest fire-arms of this period one was invented which was a breech-loader and revolver. The breech had four chambers and was rotated by hand on an arbour parallel to the barrel. The extent of its use is not learned. To ignite the powder the "wheel-lock" and "snap-haunce" were invented by the Germans in the sixteenth century. The wheel lock consisted of a furrowed wheel and was turned by the trigger and chain against a fixed piece The "old flint-lock" was quite a modern invention, not appearing until the seventeenth century. It was a bright idea to fix a piece of flint into the cock and arrange it to strike a steel cap on the priming pan when the trigger was fired; and it superseded the old match, wheel-lock, and snap-haunce. The flint-lock was used by armies well into the nineteenth century, and is still in private use in remote localities. As the arquebus succeeded the bow and arrow, so the musket, a smooth and single-barrel muzzle-loader with a flint-lock and a wooden ramrod, succeeded the arquebus. Rifles, which were the old flint-lock muskets with their barrels provided with spiral grooves to give the bullet a rotary motion and cause it to keep one point constantly in front during its flight, is claimed as the invention of Augustin Kutler of Germany in 1520, and also of Koster of Birmingham, England, about 1620. Muskets with straight grooves are said to have been used in the fifteenth century. The rifle with a long barrel and its flint-lock was a favourite weapon of the American settler. It was made in America, and he fought the Indian wars and the war of the Revolution with it. It would not do to conclude this sketch of antique cannon and fire-arms without referring to Puckle's "Defending King George, your Country, and Lawes, It proceeds to describe a "Portable Gun or Machine" having a single barrel, with a set of removable chambers which are charged with bullets before they are placed in the gun, a handle to turn the chambers to bring each chamber in line with the barrel, a tripod on which the gun is mounted and on which it is to be turned, a screw for elevating and turning the gun in different directions, a set of square chambers "for shooting square bullets against Turks," a set of round chambers "for shooting round bullets against the Christians;" and separate drawings show the square bullets for the Turks and the round bullets for the Christians. History is silent as to whether Mr. Puckle's patent was put in practice, but it contained the germs of some modern inventions. Among the first inventions of the century was a very important one made by a clergyman, the Rev. Mr. Forsyth, a Scotchman, who in 1803 invented the percussion principle in fire-arms. In 1807 he patented in England detonating powder and pellets which were used for artillery. About 1808 General Shrapnel of the English army invented the celebrated shell known by his name. It then consisted of a comparatively thin shell filled with bullets, having a fuse lit by the firing of the gun, and adapted to explode the shell in front of the object fired at. This fuse was superseded by one invented by General Bormann of Belgium, which greatly added to the value of case shot. In 1814 Joshua Shaw of England invented the percussion cap. Thus, by the invention of the percussion principle by Forsyth, and that little copper cylinder of Shaw, having a flake of fulminating powder inside and adapted to fit the nipple of a gun and be exploded by the fall of the hammer, was sounded the death knell of the old flint-locks with which the greatest battles of the world had been and were at that time being fought. The advantages gained by the cap were the certain and instantaneous fire, the saving in time, power, and powder obtained by making smaller the orifice through which the ignition was introduced, and the protection from moisture given by the covering cap. And yet so slow is the growth of inventions sometimes that all Europe continued to make the flint-locks for many years after the percussion cap was invented; and General Scott, in the war between the United States and Mexico in 1847, declined to give the army the percussion cap musket. The cap suggested the necessity and invention of machines for making them quickly and in great quantities. The celebrated "Colt's" revolver was invented by Colonel Samuel Colt of the United States, in 1835. He continued to improve it, and in 1851 exhibited it at the World's Fair, London, where it excited great surprise and attention. Since then the revolver has become a great weapon in both private and public warfare. The next great inventions in small arms were the readoption and improvement of the breech-loader, the making of metallic cartridges, the magazine gun, smokeless powder and other explosives, to which further reference will be made. To return to cannons:—In 1812 Colonel Bomford, an American officer, invented what is called the In an interesting address by Major Clarence E. Dutton of the Ordnance Department, U.S.A., at the Centennial Patent Congress at Washington in 1891, he thus stated what the fundamental improvements were that have characterised the modern ordnance during the century: 1. The regulation and control of the action of gunpowder in such a manner as to exert less strain upon the gun, and to impart more energy to the projectile. 2. To so construct the gun as to transfer a portion of the strain from the interior parts of the walls which had borne too much of it, to the exterior parts 3. To provide a metal which should be at once stronger and safer than any which had been used before. In the United States General Rodman, "one of the pioneers of armed science," commenced about 1847 a series of investigations and experiments on the power and action of gunpowder and the strains received by every part of the gun by the exploding gases, of very great importance; and in this matter he was assisted greatly by Dr. W. E. Woodbridge, who invented an ingenious apparatus termed a "piezometer," or a pressure measurer, by which the pressure of the gases at the various parts of the gun was determined with mathematical certainty. Dr. Woodbridge also added greatly to the success of rifled cannon. The success in rifling small arms, by which an elongated ball is made to retain the same end foremost during its flight, led again to the attempts of rifling cannon for the same purpose, which were finally successful. But this success was due not to the spiral grooves in the cannon bore, but in attachments to the ball compelling it to follow the course of the grooves and giving it the proper initial movement. The trouble with these attachments was that they were either stripped off, or stripped away, by the gun spirals. Woodbridge in 1850 overcame the difficulty by inventing an improved sabot, consisting of a ring composed of metal softer than the projectile or cannon, fixed on the inner end of the projectile and grooved at its rear end, so that when the gun is fired and the ball driven forward these grooves expand, acting valvularly to fill the grooves Woodbridge also invented the wire-wound cannon, and a machine for winding the wire upon the gun, thus giving the breach part, especially, immense strength. In England, among the first notable and greater inventors in ordnance during the latter half of the century, a period which embraces the reduction to practice of the most wonderful and successful inventions in weapons of war which the world had up to that time seen, are Lancaster, who invented the elliptical bore; Sir William Armstrong, who, commencing in 1885, constructed a gun built of wrought-iron bars twisted into coils and applied over a steel core and bound by one or more wrought-iron rings, all applied at white heat and shrunk on by contraction due to cooling, by which method smooth-bore, muzzle-loading cannon of immense calibre, one weighing one hundred tons, were made. They were followed by Armstrong, inventor of breech-loaders; Blakely, inventor of cannon made of steel tubes and an outer jacket of cast iron; and Sir Joseph Whitworth, inventor of most powerful steel cannon and compressed steel projectiles. In Germany, Friedrich Krupp at Essen, Prussia, invented and introduced such improvements in breech-loading cannon as revolutionised the manufacture of that species of ordnance, and established the foundation of the greatest ordnance works in the world. The first of his great breech-loading steel guns was exhibited at the Paris Exhibition in 1867. A Krupp gun finished at Essen in the 70's was then the largest steel gun the world had ever seen. It weighed seventy-two tons, and was thirty-two feet long. The charge consisted of 385 pounds of powder, the shell weighed 1,660 pounds, having a bursting charge of powder of 22 pounds, and a velocity of 1,640 feet per second. It was estimated that if the gun were fired at an angle of 43° the shell would be carried a distance of fifteen miles. It was in the Krupp guns, and also in the Armstrong breech-loaders, that a simple feature was for the first time introduced which proved of immense importance in giving great additional expansive force to the explosion of the powder. This was an increase in the size of the powder chamber so as to allow a vacant space in it unfilled with powder. In the United States, Rodman, commencing in 1847, and Dahlgren in 1850, and Parrott in 1860, invented and introduced some noticeable improvements in cast-iron, smooth-bore, and rifled cannon. In France General Paixhans and Colonel Treuille de Beaulieu improved the shells and ordnance. The latest improvements in cannon indicate that the old smooth-bore muzzle-loader guns are to be entirely superseded by breech-loaders, just as in small arms the muzzle-loading musket has given way to the breech-loading rifle. A single lever is now employed, a single turn of As to the operation of those immense guns above referred to, which constitute principally sea-coast defences and the heavy armament for forts, gun carriages have been invented whereby the huge guns are quickly raised from behind immense embrasures by pneumatic or hydraulic cylinders, quickly fired (the range having been before accurately ascertained) and then as quickly lowered out of sight, the latter movement being aided by the recoil action of the gun. It is essential that the full force of the gases of explosion shall be exerted against the base of the projectile, and therefore all escape of such gases be prevented. To this end valuable improvements in gas checks have been made,—one kind consisting of an annular canvas sack containing asbestos and tallow placed between the front face of the breech block and a mushroom-shaped piece, against which the explosion impinges. As among projectiles and shells for cannon those have been invented which are loaded with dynamite or other high explosive, a new class of Compressed air ordnance has been started, in which air or gas is used for the propelling power in place of powder, whereby the chances of exploding such shells in the bore of the gun are greatly lessened. The construction of metals, both for cannon to resist most intense explosives and for plates to resist the penetration of the best projectiles, have received great attention. They are matters pertaining to metallurgy, and are treated of under that head. The A great accompaniment to artillery is "The Range Finder," a telescopic apparatus for ascertaining accurately the location and distance of objects to be fired at. Returning to small arms,—at the time percussion caps were invented in England, 1803-1814, John H. Hall of the United States invented a breech-loading rifle. It was in substance an ordinary musket cut in two at the breech, with the rear piece connected by a hinge and trunnion to the front piece, the bore of the two pieces being in line when clamped, and the ball and cartridge inserted when the chamber was thrown up. A large number were at once manufactured and used in the U.S. Army. A smaller size, called carbines, were used by the mounted troops. After about twenty years' use these guns began to be regarded as dangerous in some respects, and their manufacture and use stopped, although the carbines continued in use to some extent in the cavalry. A breech-loading rifle was also invented by Colonel Pauly of France in 1812, and improved by Dreyse in 1835; also in Norway in 1838, and in a few years adopted by Sweden as superior to all muzzle-loading arms. About 1841 the celebrated "Needle Gun" was invented in Prussia, and its superiority over all muzzle-loaders was demonstrated in 1848 in the first Schleswig-Holstein war. Cartridges, in which the ball and powder were secured together in one package, were old in artillery, as has been shown, but their use for small arms is a later invention. Metallic cartridges, made of sheet metal with a fulminate cap in one end and a rim on the end of the shell by which it could be extracted after the explosion, were invented by numerous persons in Europe and America during the evolution of the breech-loader. Combined metal case and paper patented in England in 1816, and numerous wholly metallic cartridge shells were patented in England, France, and United States between 1840 and 1860. M. Lefaucheux of France, in the later period, devised a metal gas check cartridge which was a great advance. A number of inventors in the United States besides Hall had produced breech-loading small arms before the Civil War of 1861, but with the exception of Colt's revolver and Sharp's carbine, the latter used by the cavalry to a small extent, none were first adopted in that great conflict. Later, the Henry or Winchester breech-loading rifle and the Spencer magazine gun were introduced and did good service. But the whole known system of breech-loading small arms was officially condemned by the U.S. Military authorities previous to that war. The absence of machines to make a suitable cartridge in large quantities and vast immediate necessities compelled the authorities to ignore the tested Prussian and Swedish breech-loaders and those of their own countrymen and to ransack Europe for muskets of ancient pattern. These were worked by the soldiers under the ancient tactics, of load, ram, charge and fire, until a stray bullet struck the ramrod, or the discharge of a few rammed cartridges so over-heated the musket Torpedoes, both stationary and movable, then became a successful weapon of warfare. Soon after that war, and when the United States had adopted the Springfield breech-loading rifle, the works at Springfield were equipped with nearly forty different machines, each for making a separate part of a gun in great quantities. Many of these had been invented by Thomas Blanchard forty years before. That great inventor of labour-saving machinery had then designed machines for the shaping and making of gun stocks and for forming the accompanying parts. Blanchard was a contemporary of Hall, and Hall, to perfect his breech-loader, was the first to invent machines for making its various parts. His was the first interchangeable system in the making of small arms. Army officers had come to regard "the gun as only the casket while the cartridge is the jewel;" and to this end J. G. Gill at the U.S. Arsenal at Frankford, Philadelphia, devised a series of cartridge-making machines which ranked among the highest triumphs of American invention. The single breech-loader is now being succeeded by the magazine gun, by which a supply of cartridges in a chamber is automatically fed into the barrel. The Springfield, has been remodelled as a magazine loader. Among later types of repeating rifles, known from the names of their inventors, are the "Krag- The recoil of the gun in both large and small arms is now utilised to expel the fired cartridge shell, and to withdraw a fresh one from its magazine and place it in position in the chamber. Compressed air and explosive gases have been used for the same purpose. A small electric battery has been placed in the stock to explode the cartridge when the trigger is pulled. Sporting guns have kept pace with other small arms in improvements, and among modern forms are those which discharge in alternative succession the two barrels by a single trigger. Revolvers have been improved and the Smith and Wesson is known throughout the world. The idea of Machine Guns, or Mitrailleuses, was not a new one, as we have seen from Puckle's celebrated patent of 1718. Also history mentions a gun composed of four breech-loading tubes of small calibre, placed on a two-wheeled cart used in Flanders as early as 1347, and of four-tubed guns used by the Scotch during the civil war in 1644. The machine gun invented by Dr. Gatling of the United States during the Civil War and subsequently perfected, has become a part of the armament of every civilised nation. The object of the gun is to combine in one piece the destructive effect of a great many, and to throw a continuous hail of projectiles. The gun is mounted on a tripod; the cartridges are contained in a hopper mounted on the breech of the gun and are fed from locks into the barrels (which are usually The Hotchkiss revolving cannon is another celebrated American production named from its inventor, and constructed to throw heavier projectiles than the Gatling. It also has revolving barrels and great solidity in the breech mechanism. It has been found to be of great service in resisting the attacks of torpedo boats. It is adapted to fire long-range shells with great rapidity and powerful effect, and is exceedingly efficient in defence of ditches and entrenchments. Explosives.—The desire to make the most effective explosives for gunnery led to their invention not only for that purpose but for the more peaceful pursuit of blasting. Gun Cotton, that mixture of nitric acid and cotton, made by SchÖnbein in 1846, and experimented with for a long time as a substitute for gunpowder in cannon and small arms and finally discarded for that purpose, is now being again revived, but used chiefly for blasting. This was followed by the discovery of nitro-glycerine, a still more powerful explosive agent—too powerful and uncontrollable for guns as originally made. They did not supersede gunpowder, but smokeless powders have come, containing nitro-cellulose, or nitro-glycerine rendered plastic, coherent and homogeneous, and converted into rods or grains of free running powder, to aid the To the inquiry as to whether all this vast array of modern implements of destruction is to lessen the destruction of human life, shorten war, mitigate its horrors and tend toward peace, there can be but one answer. All these desirable results have been accomplished whenever the new inventions of importance have been used. "Warlike Tribes" have been put to flight so easily by civilised armies in modern times that such tribes have been doubted as possessing their boasted or even natural courage. Nations with a glorious past as to bravery but with a poor armament have gone down suddenly before smaller forces armed with modern ordnance. The results would have been reversed, and the derision would have proceeded from the other side, if the conditions had been reversed, and those tribes and brave peoples been armed with the best weapons and the knowledge of their use. The courage of the majority of men on the battle-field is begot of confidence and enthusiasm, but this confidence and enthusiasm, however great |
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