US1998953A

US1998953A - Ferrous alloy

Info

Publication number: US1998953A
Application number: US758753A
Authority: US
Inventors: Joseph V Emmons
Original assignee: Cleveland Twist Drill Co
Current assignee: Cleveland Twist Drill Co
Priority date: 1934-12-22
Filing date: 1934-12-22
Publication date: 1935-04-23
Anticipated expiration: 1952-04-23

Description

Patented Apr. 23, 1935 UNITED STATES.

PATENT OFFICE.

.FERROUS ALLOY -No Drawing.

8 Claims.

In my previous U. S. Patent No. 1,937,334 there is disclosed the fact that the addition of tungsten, to a steel alloy of the type in which molybdenum is the dominating alloying ingredient, in amounts from 5% to 40% of the amount of molybdenum present, has a powerful auxiliary eifectfar in excess of any effect secured in similar steels without the use of such tungsten.

The present invention relates to the discovery that even smaller proportional amounts of tungsten than contemplated by my above identified patent, particularly when added to alloy compositions in which molybdenum is present in amounts of more than about 6%, have a powerful auxiliary efiect upon the alloy, which effect is totally unexpected in that it is much greater than the usual efiect secured by the use of similar amounts of tungsten in other alloy compositions.

It is the principal object of my invention, therefore, to provide a ferrous alloy of the type in which molybdenum is a principal alloying constituent and to which there has also been added certain minor amounts of tungsten for the production of an alloy composition which, when used in the formation of articles, such as cutting tools, has performance characteristics totally unexpected and superior to those of comparable tungsten-free alloys in the prior art.

It is a further object of this invention to provide a ferrous alloy composition of the type commonly referred to as high speed steel, including molybdenum as the dominating alloying constituent, which alloying efiect is augmented by the cooperative and auxiliary alloying efiect of minor amounts of tungsten present in a certain proportional relationship to the amount of molybdenum present.

Other objects of my invention will appear as the description proceeds.

To the accomplishment of the foregoing and related ends, said invention, then, consists of the means hereinafter fuly described and particularly pointed out in the claims.

The following description sets forth in detail some approved combinations of ingredients embodying my invention, such disclosed means constituting, however, but a few of the various forms in which the principle of the invention may be used.

Broadly stated, this invention comprises the provision of a ferrous alloy composition in which molybdenum is present in amounts from about 6% to about 15% and which also includes tung- Application December 22, 1934, Serial No. 758,753

sten in amounts from about 2% to about 4.50% of the amount of molybdenum present.

More particularly, I have found that the alloy composition of the type defined and having the above identified range of molybdenum present is unexpectedly improved by the addition thereto of tungsten in amounts from about 3% to 4% of the amount of molybdenum present. As will hereinafter appear from a consideration of specific alloy compositions, it will be noted that a preferred embodiment of my invention comprises the use, in an alloy of the character described having molybdenum present in the amounts indicated, of tungsten in amounts about 3.8% or 3.9% of the amount of molybdenum present. The broad limits of composition contemplated by this invention are as follows, viz:-

Carbon from about 0.15% to about 1.60%.

Chromium from none to about 10.00%.

Molybdenum from about 6.00% to about 15.00%.

Tungsten from about 0.20% to about 0.70%.

Silicon from a. trace to about 3.00%.

Manganese from a trace to about 2.00%.

Vanadium from none to about 5.00%.

Cobalt from none to about 16.00%.

The remainder being substantially iron, together with such other alloying elements and impurities as are sometimes found in this type of alloy composition.

A somewhat narrower range of the limits within which the various elements may be present in the composition contemplated by this invention is as follows, viz.:-

Carbon from about 0.50% to about 1.00%.

Chromium from about 2.00% to about 6.00%.

Molybdenum from about 6.00% to about 12.00%.

Tungsten from about 0.20% to about 0.54%.

Silicon from about 0.10% to about 2.00%.

Manganese from about 0.10% to about 1.00%.

Vanadium from about 0.20% to about 3.00%.

Cobalt from none to about 14.00%. The remainder being substantially iron together with such other alloying elements and impurities as are sometimes found in this type of alloy composition.

A still narrower range of limits within which the various alloying elements may be present is as follows:

Carbon from about 0.60% to about 0.90%.

Chromium from about 3.00% to about 5.00%.

Molybdenum from about 7.00% to about 11.00%.

Tungsten from about 0.20% to about 0.50%.

Silicon from about 0.10% to about l.00%.

Manganese from about 0.10% to about 0.60%. Vanadium from about 0.60% to about 2.00%. Cobalt from none to about 12.00%. The remainder being substantially iron together with such other alloying elements and impurities as are sometimes found in this type of alloy composition.

Specific examples of alloy compositions, or more particularly steels, coming within the above defined limits of composition are as follows, v1z:

due to the fact that in making up the steel it is extremely difiicult, if not impossible to commercially produce a composition exactly like a given specification. It is to be understood, therefore, that throughout the description and claims where I .have used figures to denote definite amounts and ranges, such amounts and ranges are to be construed to include the range of variations usually permissible in the making up steel to given specifications.

It is understood that in the composition speci- Example No. Or Mo W S1 Mn Va 00 A 1 Ratio Mo ctua Per cent Per cent Per cent Per cent Per cent Per cent .Per cent Per cent the remainder being substantially iron, together with such other alloying elements and impurities as are sometimes found in this type of alloy composition.

Specific Example No. 5 was found to harden Well at temperatures in the range from 2150 F. to 2250 F. Its maximum secondary hardness was attained at tempering temperatures "from 1000 F to 1100 F. When hardened and drawn in these temperature ranges the Rockwell hardness varied from C 64 to C 66.5. In the hardened and tempered condition, the torsional strength was found to be high and the plasticity unusually high indicating exceptional toughness. Twist drills made from this steel showed an excellent performance in drilling, in fact only slightly inferior to that of drills made from 18-4-1 high speed steel with which they were compared.

From the foregoing description it will be apparent that my invention relates not to the substitution. of tungsten for molybdenum in a molybdenum high speed steel as has been suggested in certain instances in the prior art, but instead, to the production of a new type of molybdenum high speed steel in which a specific minor amount of tungsten is employed for its powerful auxiliary effect in increasing the cutting and wearing qualities of such steel.

By the addition of the auxiliary quantities of tungsten in the above defined specific ratio to the amount of molybdenum present, I have been able to produce a high speed steel of the molybdenum type having cutting properties better than those of tungsten-free molybdenum steels of the prior art.

A wide variety of heat treatments may be employed in connection with the above mentioned steels, including, among others, hardening, tempering, carburizing and nitriding for the purpose of developing specific useful properties in articles made from such steel. It should be noted that the tempering and nitriding operations may, if desired, be carriedout simultaneously. If desired, steels of the above compositions may be deposited as weld metals for the purpose of producing localized cutting or wear-resisting por tions of an article of manufacture.

As is well known to those familiar with the prior art, any specification for a particular alloy composition must permit of certain variations fied herein, minor amounts of other alloying elements and impurities, such as manganese, nickel, titanium, tantalum, uranium, copper, aluminum, sulphur, phosphorus, arsenic, tin, etc. may be included and when the phrase the remainder being substantially all iron is used, it is intended to include minor amounts of such elements which, for example, may find their way into the composition by being present in the raw materials such as scrap used in making up the composition.

Other forms may be employed embodying the features of my invention instead of the one here explained, change being made in the composition, provided the elements in the amount stated by any of the following claims or the equivalent of such stated elements be employed.

I, therefore, particularly point out and distinctly claim as my invention:-

1. A ferrous alloy comprising: carbon from about 0.15% to about 1.60%; chromium from a substantial amount to about 10.00%; molybdenum from about 6.00 to about 15.00% tungsten from about two per cent to about four and fifty hundredths Per cent of the amount of molybdenum present; silicon from a substantial amount to about 3.00%;

'manganese from a substantial amount to about 2.00%; vanadium from a substantial amount to about 5.00%; and the remainder being substantially all iron.

2. A ferrous alloy comprising: carbon from about 0.50% to about 1.00%; chromium from about 2.00% to about 6.00%; molybdenum from about 6.00% to about 12.00%; tungsten from about two per cent to about four and fifty hundredths per cent of the amount of molybdenumpresent; silicon from a substantial amount to about 3.00%; manganese from a substantial amount to about 2.00%; vanadium from a substantial amount to about 5.00%; and the remainder being substantially all iron.

3. A ferrous alloy comprising: carbon from about 0.60% to about 0.90%; chromium from about 3.00% to about 5.00%; molybdenum from about 7.00% to about 11.00%; tungsten from about two per cent to about four and fifty hundredths per cent of the amount of molybdenum present; siliconfrom a substantial amount to about 3.00%; manganese from a substantial amount to about 2.00%; vanadium from a substantial amount to mainder being substantially all iron.

5. A ferrous alloy comprising: carbon about 0.79%; chromium about 3.75%; molybdenum about 11.00%; tungsten about 0.25%; vanadium about 1.00%; and the remainder being substantially all iron.

6. A ferrous alloy comprising: carbon about 0.79%; chromium about 3.31%; molybdenum about 8.92%; tungsten about 0.35%; silicon about 0.25%; manganese about 0.13%; vanadium about 0.98%; and the remainder being substantially all iron.

'7. A ferrous alloy comprising: carbon about 0.61%; chromium about 5.00%; molybdenum about 6.50%; tungsten about 0.29%; vanadium about 1.50%; and the remainder being substantially all iron.

8. A tool formed of a ferrous alloy comprising: carbon from about 0.15% to about 1.60%; chromium from a substantial amount to about 10.00% molybdenum from about 6.00% to about 15.00%; tungsten fromabout two per cent to about four and fifty hundredths per cent of the amount 01' molybdenum present; silicon from a substantial amount to about 3.00%; manganese from a substantial amount to about 2.00%; vanadium from a substantial amount to about 5.00%; 'and the remainder being substantially all iron.

JOSEPH V. EMIMONS. 20