Ordnance – Barrels – Composite
Reexamination Certificate
2001-08-21
2003-05-20
Zimmerman, John J. (Department: 1775)
Ordnance
Barrels
Composite
C089S014500, C419S006000, C419S028000, C419S029000, C419S055000, C148S519000, C148S593000
Reexamination Certificate
active
06564689
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a blank for a gun barrel, which blank consists of a metal bar. The invention further relates to a method for production of a gun barrel, and such a gun barrel. In the concept of gun barrel, there is also included cannon barrels. The invention is applicable for all types of fire-arms, e.g. manual, semi-automatic, or automatic small arms, cannons etc., but has primarily been developed for gun barrels for shot-guns.
STATE OF THE ART AND PROBLEMS
Known gun barrels, e.g. for rifles, shot-guns, automatic or semi-automatic guns, cannons etc., are usually manufactured from a blank which consists of a rolled or forged bar material of steel, which bar material is drilled for the formation of a bore.
One important aspect in connection with the manufacturing of gun barrels is the strength, especially when the gun is fired. Thereby, the gun barrel must be provided with an adequate wall thickness in order to withstand the tensile stresses which occur at the firing of a given charge. The required wall thickness may result in a heavy weapon, which accordingly will be expensive and/or difficult to handle.
One drawback of known gun barrels is that they are manufactured from a bar material which after rolling/forging exhibits its best mechanical properties in the longitudinal direction of the bar. Normally, the fatigue strength, the notch value and the ductility is 20-50% higher in the longitudinal direction than in the lateral direction. This is mainly due to the orientation and the indication of fracture effect of nonmetallic occlusions. When the bar material is produced, it is substantially elongated in the longitudinal direction, whereby the occlusions too are being elongated in the same direction. Thereby, the occlusions will exhibit a surface which is substantially larger in the lateral direction as compared to the longitudinal direction, whereby the fatigue strength, the notch value and the ductility will be lower in the lateral direction as compared to the longitudinal direction.
At the use of a gun barrel, i.e. at the firing of the gun barrel, tensile stresses will occur in the barrel due to the internal overpressure, which may be in the magnitude of 3500 bar, which arises in the barrel. Thereby, the stress distribution will principally be the same as in a cylindrical pressure vessel, the difference being that stresses in the longitudinal. direction are taken by the gun bolt and by the bullet or the shots. In the barrel itself, no substantial stresses will arise in the longitudinal direction, but in the tangential direction around the barrel, the tensile stresses will on the other hand be large. Therefore, it is a major disadvantage of known gun barrels that they exhibit poorer mechanical properties in the lateral/tangential direction, than in the longitudinal direction.
The problem is accentuated by there being a strive in the technical field to be able to increase the charging in the fire-arms, at the same time as a decreased weight is desired.
Another drawback, which relates to known gun barrels for shot-guns, is that the known gun barrels exhibit far to poor wear resistance or hardness in the bore, considering the decision in certain countries to change from lead shots to iron shots, for certain types of hunting.
ACCOUNT OF THE INVENTION
The above problems are decreased by choosing a blank for the gun barrel according to the present invention.
The invention is based on the understanding of the above problems and on the solution, which is characterized in that a steel bar is repeatedly wrung about its own longitudinal axis, suitably in one or more hot working steps. After heat treatment, the wrung bar constitutes a blank for a gun barrel and may accordingly be drilled or battered, for the making of a bore, and may optionally be post-treated.
According to one aspect of the invention, the bar is wrung about its own longitudinal axis to a helix angel/pitch angle of 45-90°, preferably 60-88° and even more preferred 75-87°. The wringing may be automatically or manually done. By the wringing according to the invention, the occlusions will be crushed into more but smaller disturbances. The occlusions, which before the wringing are mainly oriented in the longitudinal direction of the bar, will moreover instead be mainly oriented tangentially around the bar, mainly at its periphery. Thereby, the occlusions will not constitute as severe indications of fracture at the tangential tensile stresses which arise in connection with the firing of the gun barrel which is manufactured from the bar, as compared to when they are oriented in the longitudinal direction of the bar. The toughness and the fatigue limit of the bar is accordingly increased in the tangential or lateral direction when the bar is wrung according to the invention. The fact that the orientation of the occlusions will become the most tangential in the periphery is advantageous, since the tensile stresses are the largest here.
According to another aspect of the invention, the ultimate breaking strength of the bar may be increased, after the wringing according to the invention, by about 1-5%, the ductility (area contraction) may be increased by about 20-550%, the notch value may be increased by about 20-300% and the fatigue strength may be increased by about 30-50%, these values relating to the increase in the lateral direction and to conventional heat treatment steels for shot-gun barrels.
The ultimate breaking strength and yield strength may be additionally affected by heat treatment after the wringing. An increased possibility to heat treat the steel to an increased hardness and strength, without the material showing tendencies of becoming brittle, is created since the wringing results in an improved toughness. As an alternative, a harder and stronger alloy may be chosen. Such an increase in strength will result in an improved wear resistance and may therefore also be used for saving weight in connection with a decreased wall thickness in the gun barrels as produced.
Furthermore, it is generally true that the steel will become tougher and stronger the larger the degree of processing. By the wringing according to the invention, the degree of plastic machining may be increased without affecting the dimensions of the bar. The machining direction is also taking place in the most advantageous direction, i.e. in the direction in which the largest loads will arise at the use of the weapon.
According to one aspect of the invention, the wringing is performed in two or more hot working steps, the material being allowed to recover between these steps, in order for re-crystallisation to take place. As an alternative, the wringing may be performed in a single step, if it is done slowly. The purpose of performing the wringing in several steps, or to perform it slowly in a single step, is to avoid local overheating, which otherwise may arise in certain cases when the wringing is fulfilled in a single, fast step. Such local overheating may cause surface defections in the bar, which at continued wringing may grow to surface fissures. At a continued wringing, the fissures will grow even more, whereby the bar will be wrung off. The critical limit for the forming of surface defections vary between different steel grades.
By use of the invention, there is created a possibility to increase the charge of a fire-arm and/or to lower the weight of the weapon, as the gun barrel may be provided with a smaller wall thickness as compared to known gun barrels.
Any steel or steel alloy suitable for gun barrels may be used as raw material in the bar. From an strength point of view it is especially advantageous to use a powder metallurgical alloy, preferably a fast solidified powder metallurgical alloy. These types of alloys are common today in qualified metal machining tools, due to their superior strength.
Powder metallurgy will beneficially also give an opportunity to achieve compound materials which are suitable for the purpose. As a material for the part which is to form the inside of the bore in the gun barrel,
Bednarek Michael D.
Damasteel Aktiebolag
Shaw Pittman LLP
Zimmerman John J.
LandOfFree
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