US1924874A - Method of making dental castings and composition employed in said method - Google Patents
Method of making dental castings and composition employed in said method Download PDFInfo
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- US1924874A US1924874A US641664A US64166432A US1924874A US 1924874 A US1924874 A US 1924874A US 641664 A US641664 A US 641664A US 64166432 A US64166432 A US 64166432A US 1924874 A US1924874 A US 1924874A
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- expansion
- silica
- sodium chloride
- composition
- casting
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
- A61C13/00—Dental prostheses; Making same
- A61C13/20—Methods or devices for soldering, casting, moulding or melting
Definitions
- One of the objects of the invention is to produce castings of accurately predetermined size. Another ⁇ object is to provide a composition that will produce molds having exactly the desired degree of expansion when heated preparatory to forming a casting. Other objects and details of the invention willappear as the description proceeds.
- the main ingredients of the investment compound most extensively used for making dental casting are silica and plaster of Paris.
- the molds are heated to a temperature around 1200 F. to 1500 F. before the casting is formed. During this heating the material of the mold usually expands slightly, thus enlarging the casting cavity.
- the composition of the investment material may be modied in various ways to vary the degree of this expansion, but I have discovered a new and improved method of modifying the composition so as to obtain the exact degree of expansion desired, and thereby obtain castings havingexactly the desired size relative to the original model.
- Fig. 1 is a series of graphs yshowing the expansion upon heating of a mixture oi' 45% plaster of Paris with approximately 55% oi' silica and different amounts of sodium chloride.
- Fig. 2 is a series of graphs showing the expansion upon heating of compositions contain- Y of Paris and approximately cristobalite, with and without sodium chloride.
- Fig. 4 is a pair of graphs showing the expansion upon heating of a mixture of 45% plaster of Paris, 28% cristobalite and approximately 27% ordinary silica, with and without the addition of sodium chloride.
- a ⁇ fairlycommon investment material is one containing 45% of plaster of Paris and 55%- silica, having an expansion such as indicated in graph 10 of Fig. 1. It will be understood that various elements in the treatment of the material modify the expansion to some extent, but the graph shown indicatesthe exact expansion found in one mixture of the kind indicated, and is typical of a mixture of that character. It will be seen that the expansion at a casting temperature between 120'0 F. and 1500. F. is between .2% Aand .3%. This is materially less than the contraction of the cooling casting. An expansion of over 1% is usually desired.
- the percentage of expansion is affected by the proportion of silica used.
- graphs 14, 15 and 16 show the expansion curves of mixtures containing respectively 40 35% and 25% plaster of Paris with the remainder silica. It Will be seen from these graphs thatincreasing proportions of silica result yin some increased expansion, graph 13 showing an expansion of between .3% and .4%.l graph 14 showing an expansion of between .6% and.7%, and graph 15 showing a maximum expansion of over .8%.
- graph 19 shows one of my preferred compositions, ⁇ as it is capable of quite general use with a high degree of satisfactory results.
- Cristobalite is a form of silica that has a greater expansion than ordinary silica, and can be used to increase the expansion where desired.
- graph 20 shows the expansion curve of a mixture of 25% plaster of Paris and 75% cristobalite. It will be seen that the maximum expansion is about 1.6%, which is amply high for all ordinary purposes, but even this can be increased by the addition of sodium chloride, as shown in graph 21.
- graph 22 is the expansion curve of a mixture of 25% plaster of Paris, 28% cristobalite and 27% silica. This shows a maximum expansion of nearly 1%.
- Graph 23 is the expansion curve of a similar mixture containing 1% sodium chloride, and showsthe increase of expansion to over 1.4%.
- the moldtormed therefrom is substantially y tion thus formed into a mold, pouring an alloy into the heated mold, and allowing the casting to cool.
- a composition for forming dental molds consisting essentially of plaster of Paris and silica and having its heat expansion increased by the addition of a material of the group consisting of the chlorides of sodium, potassium and lithium.
- a composition for forming dental molds consisting essentially of plaster of Paris and silica and having its heat expansion increased by the addition of sodium chloride.
- a composition for forming dental molds consisting mainly of plaster of Paris and silica, at least some of the silica being in the form of cristobalite, and the composition having its heat expansion increased by the addition of sodium chloride.
- a composition for forming dental molds consisting substantially of 25 parts plaster of Paris, 74 parts silica and .8 parts sodium chloride.
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- Health & Medical Sciences (AREA)
- Oral & Maxillofacial Surgery (AREA)
- Dentistry (AREA)
- Epidemiology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Dental Prosthetics (AREA)
Description
Patented Aug. 29, 1933 UNITED STATES PATENT OFFICE METHOD OF MAKING'DENTAL CASTINGS AND COMPOSITION EMPLOYED IN SAID METHOD Thomas E. Moore, Toledo, Ohio, assignor to Ransom & Randolph Company, Toledo, Ohio, a corporation oi' Ohio This invention relates to a method of making dental castings and to a composition for molds employed in the method.
One of the objects of the invention is to produce castings of accurately predetermined size. Another` object is to provide a composition that will produce molds having exactly the desired degree of expansion when heated preparatory to forming a casting. Other objects and details of the invention willappear as the description proceeds.
In making dental castings, it is customary to iirst form a model of the desired casting, then employ a plaster setting investment material to shape a mold having a cavity therein correspond-l ing to the model, allow the mold to set,'heat the set mold, pour an alloy into the heated mold, and allow thecasting thus formed to cool to normal temperature. y
The main ingredients of the investment compound most extensively used for making dental casting, are silica and plaster of Paris. Customarily, the molds are heated to a temperature around 1200 F. to 1500 F. before the casting is formed. During this heating the material of the mold usually expands slightly, thus enlarging the casting cavity. The composition of the investment material may be modied in various ways to vary the degree of this expansion, but I have discovered a new and improved method of modifying the composition so as to obtain the exact degree of expansion desired, and thereby obtain castings havingexactly the desired size relative to the original model.
Ordinarily, I prefer to employ a material that has an expansion during heating substantially equal to the shrinkage of the casting during cooling from solidiiication temperature to the normal temperature at which it is employed, since this results in producing castings of the exact size of the cavity formed in the mold at normal temperature; but a number of factors, such as the exact composition of the casting, the useto which it is to be put, the manner and material by means o f which the pattern is formed, etc., modify the amount of expansion desirable, and therefore I vary my investment compositionv to suit the use for which it is intended.
The behavior of various compositions during heating, and the manipulation by which correct behavior is obtained, will be discussed in connection with the accompanying drawing, which forms a part of this specication.
Fig. 1 is a series of graphs yshowing the expansion upon heating of a mixture oi' 45% plaster of Paris with approximately 55% oi' silica and different amounts of sodium chloride.
Fig. 2 is a series of graphs showing the expansion upon heating of compositions contain- Y of Paris and approximately cristobalite, with and without sodium chloride.
Fig. 4 is a pair of graphs showing the expansion upon heating of a mixture of 45% plaster of Paris, 28% cristobalite and approximately 27% ordinary silica, with and without the addition of sodium chloride.
A` fairlycommon investment material is one containing 45% of plaster of Paris and 55%- silica, having an expansion such as indicated in graph 10 of Fig. 1. It will be understood that various elements in the treatment of the material modify the expansion to some extent, but the graph shown indicatesthe exact expansion found in one mixture of the kind indicated, and is typical of a mixture of that character. It will be seen that the expansion at a casting temperature between 120'0 F. and 1500. F. is between .2% Aand .3%. This is materially less than the contraction of the cooling casting. An expansion of over 1% is usually desired. The substitution of .4% sodium chloride for that amount ofy silica in the mixture, results in an increase of over .6% in the expansion, or a total of over .8% expansion, as shown in graphv 11 on Fig. l. Doubling the sodium chloride, so as to use .8% thereof, further increases the expansion to nearly 1.1%, as shown in graph 12, but the increase in sodium chloride does not increase the expansion in proportion to the amount of the sodium chloride. A further increase to 2% sodium chloride increases the expansion to slightly over 1.1%, as shown in graph 13. Further addition of sodium chloride is not shown by the graphs, but it may be stated that such further additions have little aiect upon the expansion.
The percentage of expansion is affected by the proportion of silica used. In Fig. 2, graphs 14, 15 and 16 show the expansion curves of mixtures containing respectively 40 35% and 25% plaster of Paris with the remainder silica. It Will be seen from these graphs thatincreasing proportions of silica result yin some increased expansion, graph 13 showing an expansion of between .3% and .4%.l graph 14 showing an expansion of between .6% and.7%, and graph 15 showing a maximum expansion of over .8%. IGraphs 17, 18 and 19 -show asf the expansion curves of the same mixtures as graphs 14, 15 and 16 respectively, with .8% sodium chloride used in place oi' that much silica. It will be seen that in each instance the addition of sodium chloride increases the expansion.
In this connection, it may be stated that for many purposes an expansion of around 1.25% is 5 not alter the application of my invention.
`ride mltigates this dlculty.
desirable, as it approximates the shrinkage of the castings during cooling.` Therefore, graph 19 shows one of my preferred compositions,` as it is capable of quite general use with a high degree of satisfactory results.
Cristobalite is a form of silica that has a greater expansion than ordinary silica, and can be used to increase the expansion where desired. In Fig. 3, graph 20 shows the expansion curve of a mixture of 25% plaster of Paris and 75% cristobalite. It will be seen that the maximum expansion is about 1.6%, which is amply high for all ordinary purposes, but even this can be increased by the addition of sodium chloride, as shown in graph 21. In Fig. 4, graph 22 is the expansion curve of a mixture of 25% plaster of Paris, 28% cristobalite and 27% silica. This shows a maximum expansion of nearly 1%. Graph 23 is the expansion curve of a similar mixture containing 1% sodium chloride, and showsthe increase of expansion to over 1.4%.
As will be seen from graphs 20 and 22, cristobalite expands sharply between 400 F. and 600 and heating must be conducted slowly to avoid cracking because of this sudden expansion. Where suilicient expansion is obtainable by the use oi ordinary silica and sodium chloride, it is 'preferableto omit cristobalite, because of this danger of cracking, alsobecause cristobalite is an expensive material, and for the additional moon that cristobalite continues to expand be- Vtween 1200 F. and 1500 F. more than does ordinary silica, as appears from the graphs. This continued yexpansion between 1200 F. and 1500 I". adds to the care required in accurately determining the temperature oi' the mold when the casting is made in order to accurately determine the size of the casting. As will be seen from graphs 21 and 23, the addition of sodium chlo- Where sumcient expansion can be obtained by a material such as illustrated by graph 18, this is preferred; and ii a higher expansion is desired,
it can beobtained by the use of sodium chloride and some cristobalite to advantage over the use of the material without the sodium chloride, as the salt reduces both the amount of cristobalite necessary to obtain a given expansion and the dii.'- culties resulting from its use.
Throughout the description the use of sodi chloride has been discussed. Chlorides oi!l potassium and lithium have a similar effect, but
' not as great. Since the chlorides of lithium and potassium are less'eiiective and more expensive than sodium chloride, there is no practical advantage in their use, but i1 the use of sodium chloride was not possible, some of the advantage of its use could be obtained by the use of the chlorides oi lithium or potassium, and therefore in its broadest aspect my invention contemplates the use o! any of the three chlorides mentioned. Small quantities of materials for modifying the speed of setting or other qualities maybe added. to my compound, as to other investment materials containing plaster of Paris and silica, and the presence or absence of such materials does To summarize, bythe addition of sodium chloride to a compound consisting essentially of plaster of Paris and silica, the expansion reached at 1200 F. is increased, the expansion up to that point is rendered more even and continuous, so as to facilitate rapid heating, the change in volume between 1200 F. and 1500 F. is little affected where it is otherwise small and is reduced where it is otherwise large, the full expansion desired can be obtained ordinarily with the use of common silica, and where exceptional requirement calls for greater expansion, it can be obtained with the addition of comparatively small amounts of cristobalite. By properly selecting the common terial of the 'group consisting oi' the chlorides of sodium, potassium and lithium, removing the composition from the model, allqwing the composition to harden, heating the hardened composition thus formed into a mold, pouring an alloy into the heated mold, and allowing the casting toY cool.
2. The process of forming dental castings consisting in forming a model of the shape oi the desired casting, applying to said model a plastic setting composition consisting essentially of plaster of Paris and silica and having its heat expansion increased by the `eaddition ofl a material of the group consisting of the chlorides of sodium, potassium and lithium, the amount of y said. material being lsuch as to give a heat expansion during the subsequent heating of the mold substantially equal to the contraction during cooling of the castingto be made therein, removing the composition from the model, allowing the composition to harden, heating 'the hardened composition thus formed into ,a mold, pouring an alloy into the heated mold, and allowing the casting to cool.
3. The process ot forming dental castings consisting in forming a model of the shape of the desired casting, applying to said model a plastic setting composition consisting essentially of plaster of Paris and silica and having its heat expansion increased by the addition of sodium chloride, removing the composition from the model, allowing the composition to harden, heating the hardened composition thus formed into a mold, pouring an alloy into the heated mold, and allowing the casting to cool.
4. The process of forming dental castings consisting in forming a model o! the shape ot the desired casting, applying to said model a plastic setting composition consisting essentially of plaster of Paris and silica and having its heat expansion increased by the addition of sodium chloride so that its expansion during the heating las iso
o! the moldtormed therefrom is substantially y tion thus formed into a mold, pouring an alloy into the heated mold, and allowing the casting to cool.
5. A composition for forming dental molds consisting essentially of plaster of Paris and silica and having its heat expansion increased by the addition of a material of the group consisting of the chlorides of sodium, potassium and lithium.
6. A composition for forming dental molds consisting essentially of plaster of Paris and silica and having its heat expansion increased by the addition of sodium chloride.
7. A composition for forming dental molds consisting mainly of plaster of Paris and silica, at least some of the silica being in the form of cristobalite, and the composition having its heat expansion increased by the addition of sodium chloride.
9. A composition for forming dental molds, consisting substantially of 25 parts plaster of Paris, 74 parts silica and .8 parts sodium chloride.
THOMAS E. MOORE.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US641664A US1924874A (en) | 1932-11-07 | 1932-11-07 | Method of making dental castings and composition employed in said method |
Applications Claiming Priority (1)
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US641664A US1924874A (en) | 1932-11-07 | 1932-11-07 | Method of making dental castings and composition employed in said method |
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US1924874A true US1924874A (en) | 1933-08-29 |
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US641664A Expired - Lifetime US1924874A (en) | 1932-11-07 | 1932-11-07 | Method of making dental castings and composition employed in said method |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3303030A (en) * | 1963-06-20 | 1967-02-07 | Dentists Supply Co | Refractory mold |
US3313007A (en) * | 1963-08-22 | 1967-04-11 | Gen Motors Corp | Method of making sheet metal forming dies |
JPS50112218A (en) * | 1974-02-13 | 1975-09-03 | ||
US5310420A (en) * | 1992-09-21 | 1994-05-10 | Precision Metalsmiths, Inc. | Refractory containing investment material and method of making |
-
1932
- 1932-11-07 US US641664A patent/US1924874A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3303030A (en) * | 1963-06-20 | 1967-02-07 | Dentists Supply Co | Refractory mold |
US3313007A (en) * | 1963-08-22 | 1967-04-11 | Gen Motors Corp | Method of making sheet metal forming dies |
JPS50112218A (en) * | 1974-02-13 | 1975-09-03 | ||
JPS5211924B2 (en) * | 1974-02-13 | 1977-04-04 | ||
US5310420A (en) * | 1992-09-21 | 1994-05-10 | Precision Metalsmiths, Inc. | Refractory containing investment material and method of making |
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