US1444803A - Method for testing materials - Google Patents

Method for testing materials Download PDF

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Publication number
US1444803A
US1444803A US470085A US47008521A US1444803A US 1444803 A US1444803 A US 1444803A US 470085 A US470085 A US 470085A US 47008521 A US47008521 A US 47008521A US 1444803 A US1444803 A US 1444803A
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Prior art keywords
abrasive
particles
disc
test
action
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US470085A
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Ratner Leo
Schwarz Maurice
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N3/00Investigating strength properties of solid materials by application of mechanical stress
    • G01N3/56Investigating resistance to wear or abrasion
    • G01N3/567Investigating resistance to wear or abrasion by submitting the specimen to the action of a fluid or of a fluidised material, e.g. cavitation, jet abrasion

Definitions

  • @ur invention relates to a new and improved. method testing abrasives and. also materials which are subject to an abrading action.
  • Abrasives have been sold largely on a basis of guess-work and it has been im possible for a purchaser to be able to test the abrasive in a convenient and economical manner.
  • One of the objects of our invention is to provide a method and mechanism whereby abrasives may be quickly and cheaply tested.
  • Another object of our invention is to provide a mechanism for quickly and economically carrying out the said method.
  • Fig. 1 is a diagrammatic view largely in elevation.
  • Fig. 2 is a section along the line 2-2 of Fig. 1.
  • Fig. 8 illustrates a detail view.
  • a cup (I is mounted upon a suitable base B.
  • an ordinary electric motor M of any suitable design is supported in any suitable frame.
  • This motor M has a shaft S which is preferably vertical and this shaft S has a recessed extension S secured thereto by the pin 1? so that the extension shaft S can readily be removed at any time.
  • a disc D can be removably secured to the extension shaft S by means of the bolt or screw H.
  • the parts are assembled in the manner shown in Fig. 1 and Fig. 2 and the cup C is filled with the abrasive which of course is in powdered form, to a level above the top of the disc D.
  • the abrasive which rests upon the top of the disc 1) which is made of brass or some other suitable material which is slowly ground or abraded by the action of the abrading material, is set 1921.
  • the test disc D which has been Weighed before it was secured to the extension shaft S is again weighed and the loss of material of the test disc D indicates the power of the abrasive.
  • the efficiency of the material tested can be easily determined. It is desirable that the uniformity of the speed of rotation of the shaft S be tested from time totime by means of a revolution counter.
  • the embodiment shown in Fig. 3 is in tended to test the power of a material like that of a given grade of leather for example to withstand a rubbing or abrading action.
  • the cup C is filled with some abrasive of known abrasive quality, and the motor is operated in the same way as before, except that in this case the loss of weight of the test disc is a measure of the resistance of the material.
  • the main action is on the top of the test disc, it is preferred to provide a cup C of the same diameter, depth and contour as the test disc D of the material to be tested, so that the said cup C shall cover all parts of the test disc, save its top and abrading action shall be entirely confined to the top of the test disc.
  • the cup C can be made of metal, such as brass or the like so as to thoroughly protect the test disc D except at the top thereof.
  • the test disc is fitted within cup C, and both are then secured to member S by bolt H. lln the embodiment of Fig. l, the disc is not protected.
  • the above method is valuable not only for determining the relative abrasive qualities of difierent materials but also of different sizes of the same material or of mixtures of different sizes of the same or unlike materials.
  • a method of testing the action of an abrasive which consists in revolving a body or" a material which can be acted upon by the said abrasive, below the top of a mass 0i particles of the said abrasive, so that the particles of said abrasive which are adjacent the said disc will be moved away from the periphery of the said disc, the said particles being restrained from further outward movement at a definite distance beyond the periphery of the said disc, so that the pressure of the upwardly moving particles upon the particles which are prevented from further upward movement produces a vortexl-ike movement of the said particles.
  • a method of testing the action 0i an abrasive which consists in revolving a body masses of a material which can be acted upon by the said abrasive, below the top of a mass 0i particles of the said abrasive, so that the particles of said abrasive which are adjacent the said disc will be movedtaway from the periphery of the said disc, the said particles being restrained from further out ward movement at a definite distance beyond the periphery of the said disc, so that the pressure of the upwardly moving particles upon the particles which are prevented from further upward movement produces a vortex-like movement out the said particles, the said particles being permitted to only upon the top of the test body.
  • a. method or testing the action or an abrasive on. a material which consists in causing the movement of a mass of line particles of said abrasive relative to a body of said mat rial and in contact with said body so that said particles move in substantially horizontal. paths, and determining the loss in weight of said body.
  • a method of testing the action of an abrasive which consists in revolving a body of material around a substantially vertical axis, in a mass oi fine particles of the said abrasive, and determining the loss in weight of the said body.

Description

Feb. 13, 1923. 1,444,803
I RATNER ET AL METHOD FOR TESTING MATERIALS Filed May 16, 1921 1 INVENTO/Yf) A TTORNEYS.
l ldd ddd' entice.
LEO RATHER Z-llD IVTAUEICE SCHVJARE, 015 NEW YORK, N. 52.
METHOD FOR TESTING lVlA'IERIALS.
Application filed May 16,
To all whom it may concern:
Be it known that we, Lao lternnn and Mansion Sor-rwnzzz, citizens of the United States, residing at New York. in the county of New York and State of New York, have invent d certain new and useful Improvements in Methods for Testing Materials of which the following is a specification.
@ur invention relates to a new and improved. method testing abrasives and. also materials which are subject to an abrading action.
l-leretofore it has been impossible to accurately test abrasives or to accurately test the strength of materials to resist an abrading action. Abrasives have been sold largely on a basis of guess-work and it has been im possible for a purchaser to be able to test the abrasive in a convenient and economical manner.
One of the objects of our invention is to provide a method and mechanism whereby abrasives may be quickly and cheaply tested.
Another object of our invention is to provide a mechanism for quickly and economically carrying out the said method.
Other objects of our invention will be set forth in the following description and drawings which illustrate a preferred embodiment thereof.
Fig. 1 is a diagrammatic view largely in elevation.
Fig. 2 is a section along the line 2-2 of Fig. 1.
Fig. 8 illustrates a detail view.
A cup (I is mounted upon a suitable base B. Above the base B an ordinary electric motor M of any suitable design is supported in any suitable frame. This motor M has a shaft S which is preferably vertical and this shaft S has a recessed extension S secured thereto by the pin 1? so that the extension shaft S can readily be removed at any time.
A disc D can be removably secured to the extension shaft S by means of the bolt or screw H.
To carry out our invention, the parts are assembled in the manner shown in Fig. 1 and Fig. 2 and the cup C is filled with the abrasive which of course is in powdered form, to a level above the top of the disc D.
When the motor is started, the abrasive which rests upon the top of the disc 1), which is made of brass or some other suitable material which is slowly ground or abraded by the action of the abrading material, is set 1921. Serial No. 470,085.
into rapid motion. This motion .is of the voter; type as the particles of abrasive seem to move in regular closed paths relative to the top of the disc D. This is because the revolution of the disc D, which may be called the disc. imparts a tangential motion to the particles of abrasive and at the same time the cen rifugal force tends to move m outwardly in a radial direction. This tedency to move from the center to the side of the cup causes the abrasive material to be heaped up at the side of the cup and depressed in the center. After the angle of repose of the abrasive has been reached particles move inwardly from the side of the cup to the center totake the place of the particles which are forced centrifugally from the center. It is therefore evident that the particles of abrasive above the level of disc D are continually active; that is to say they are at all times either moving outwardly under centrifugal action (thus abrading the surface of the test disc) or moving inwardly under gravitational action.
ilfter the motor has been operating-at the same speed for a definite period of time, the test disc D which has been Weighed before it was secured to the extension shaft S is again weighed and the loss of material of the test disc D indicates the power of the abrasive. By comparison with some standard abrasive, the efficiency of the material tested can be easily determined. It is desirable that the uniformity of the speed of rotation of the shaft S be tested from time totime by means of a revolution counter.
The embodiment shown in Fig. 3 is in tended to test the power of a material like that of a given grade of leather for example to withstand a rubbing or abrading action. For this purpose, the cup C is filled with some abrasive of known abrasive quality, and the motor is operated in the same way as before, except that in this case the loss of weight of the test disc is a measure of the resistance of the material.
Since the main action is on the top of the test disc, it is preferred to provide a cup C of the same diameter, depth and contour as the test disc D of the material to be tested, so that the said cup C shall cover all parts of the test disc, save its top and abrading action shall be entirely confined to the top of the test disc.
In the embodiment shown in Fig. 3, the cup C can be made of metal, such as brass or the like so as to thoroughly protect the test disc D except at the top thereof. In this embodiment, the test disc is fitted within cup C, and both are then secured to member S by bolt H. lln the embodiment of Fig. l, the disc is not protected.
The above method is valuable not only for determining the relative abrasive qualities of difierent materials but also of different sizes of the same material or of mixtures of different sizes of the same or unlike materials.
We have shown a preferred embodiment of our invention but it is clear that numerous changes and omissions could be made without departing from its spirit.
What we claim is:
1. A method of testing the action of an abrasive which consists in revolving a body or" a material which can be acted upon by the said abrasive, below the top of a mass 0i particles of the said abrasive, so that the particles of said abrasive which are adjacent the said disc will be moved away from the periphery of the said disc, the said particles being restrained from further outward movement at a definite distance beyond the periphery of the said disc, so that the pressure of the upwardly moving particles upon the particles which are prevented from further upward movement produces a vortexl-ike movement of the said particles.
2. A method of testing the action 0i an abrasive which consists in revolving a body masses of a material which can be acted upon by the said abrasive, below the top of a mass 0i particles of the said abrasive, so that the particles of said abrasive which are adjacent the said disc will be movedtaway from the periphery of the said disc, the said particles being restrained from further out ward movement at a definite distance beyond the periphery of the said disc, so that the pressure of the upwardly moving particles upon the particles which are prevented from further upward movement produces a vortex-like movement out the said particles, the said particles being permitted to only upon the top of the test body.
a. method or testing the action or an abrasive on. a material which consists in causing the movement of a mass of line particles of said abrasive relative to a body of said mat rial and in contact with said body so that said particles move in substantially horizontal. paths, and determining the loss in weight of said body.
4:. A method of testing the action of an abrasive which consists in revolving a body of material around a substantially vertical axis, in a mass oi fine particles of the said abrasive, and determining the loss in weight of the said body.
In testimony whereof we hereunto affix our signatures.
LE O RATNER. MAURICE SCHWARZ.
US470085A 1921-05-16 1921-05-16 Method for testing materials Expired - Lifetime US1444803A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519323A (en) * 1944-09-02 1950-08-15 Walter B Shank Method of measuring corrosion and erosion
US2648220A (en) * 1950-05-08 1953-08-11 Pennsylvania Salt Mfg Co Cleaner testing apparatus and method
US3040559A (en) * 1960-04-07 1962-06-26 Int Paper Co Wet rub tester
US3229498A (en) * 1965-02-16 1966-01-18 Clemtex Ltd Abrasive tester
US4404840A (en) * 1981-05-18 1983-09-20 Burr Bruce H Device for evaluating abrasive wear of elastomeric O-ring materials
US5343733A (en) * 1991-01-30 1994-09-06 Sumitomo Electric Industries, Ltd. Abrasion testing method
US5531095A (en) * 1994-01-14 1996-07-02 Regal Ware, Inc. Method and apparatus for determining the mechanical durability of the surface finish of a cooking vessel

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2519323A (en) * 1944-09-02 1950-08-15 Walter B Shank Method of measuring corrosion and erosion
US2648220A (en) * 1950-05-08 1953-08-11 Pennsylvania Salt Mfg Co Cleaner testing apparatus and method
US3040559A (en) * 1960-04-07 1962-06-26 Int Paper Co Wet rub tester
US3229498A (en) * 1965-02-16 1966-01-18 Clemtex Ltd Abrasive tester
US4404840A (en) * 1981-05-18 1983-09-20 Burr Bruce H Device for evaluating abrasive wear of elastomeric O-ring materials
US5343733A (en) * 1991-01-30 1994-09-06 Sumitomo Electric Industries, Ltd. Abrasion testing method
US5531095A (en) * 1994-01-14 1996-07-02 Regal Ware, Inc. Method and apparatus for determining the mechanical durability of the surface finish of a cooking vessel

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