US2902380A - Slip casting method - Google Patents
Slip casting method Download PDFInfo
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- US2902380A US2902380A US597829A US59782956A US2902380A US 2902380 A US2902380 A US 2902380A US 597829 A US597829 A US 597829A US 59782956 A US59782956 A US 59782956A US 2902380 A US2902380 A US 2902380A
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- magnesium oxide
- water
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- slurry
- slip casting
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- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B33/00—Clay-wares
- C04B33/02—Preparing or treating the raw materials individually or as batches
- C04B33/13—Compounding ingredients
- C04B33/1305—Organic additives
-
- C—CHEMISTRY; METALLURGY
- C04—CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
- C04B—LIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
- C04B33/00—Clay-wares
- C04B33/02—Preparing or treating the raw materials individually or as batches
- C04B33/13—Compounding ingredients
Definitions
- the present invention is related to .a method of preparing a magnesium oxide 'sl-urry formaking slip cast ceramics and in particular a method for :preparing .a magnesium oxideslurr'y -:Wher.e verylarge EDT very .thin wall, slip-cast pieces are required.
- Preparing 'a magnesium oxide suspended *in water by the method of the present invention yields a very strong green slip casting and results in a fired piece of very close dimensional tolerance.
- the slurry is prepared by aging .the mixture of magnesium :oxide and water for 24 hours, then adding a small 'amount of defloccdlating agent.
- the green casting prepared with this slurry has so much strength that it appears that the magnesium .oxide has lformed a ceramic cement as a result of thechemical change in aging.
- Another-object of this invention is to provide-a-method for preparing a magnesium oxide slip slurry suspended in water and having the property of producing a high strength slip casting.
- a quantity of minus 200 mesh fused magnesium oxide with 30 ipercentwater is placed in .a '1 gallon porcelain pebble mill containing 'a charge of 4200 grams of porcelain balls /2 to 1 inch in diameter. 'The pebble mill is run at a speed of "50 revolutions per minute for a period of .15 hours. This provides a quantity of magnesium oxide of mesh size minus 325. Then3 percent additional distilled Water is added to the magnes'itun oxide and the pebble mill is again run for about 5 minutes to thoroughly mix the slurry.
- the slurry is now allowed to stand for 24 hours .at an ambient temperature of about 16 C. This is the very important step in the preparation of this slurry, as during the standing the magnesium oxide combines with H O to form what is probably a mixture of This has a basic pH of about 11.3.
- the hydrochloric acid is prepared by mixing equal volumes of concentrated hydrochloric acid and water. The hydrochloric acid is not sufiicient in quantity to make an appreciable change in the pH of the] solution, thus it remains basic.
- a suitable amount of coarse grain magnesium oxide can be added and thoroughly mixed until there are -no air bubbles in the slurry.
- the slurry is then poured in a plasterof Paris mold and cast by the usual techniques Well known in the art; and as described in the N.B.S. publication referenced above. Upon removal, the cast piece can be trimmed or otherwise handled Without breaking, as it has unusually high strength. It is air dried at room temperature and then fired in a suitable furnace.
- Table A below shows the preferred composition for the magnesium oxide slip of this invention.
- Table B shows the permissible limits of the components of the various slip compositions usable by this invention. All weights of magnesium oxide are dry weights.
- magnesium oxide crucibles have been made of a size heretofore impossible. walled intricate shapes are no problem and the results are highly reproducible and consistent. liter crucibles having A3" thick walls are readily made.
- 1500 pieces were produced with less than 2 percent loss through breakage. Since coarse grain magnesium oxide may be added, the shrinkage is lower than that resulting from an organic solvent slurry. The shrinkage does not exceed 5 percent compared with the order of 20 percent by methods of the prior art.
- the life of the molds is essentially indefinite since the aqueous slurry of this invention does not attack the molds.
- the quantity of molds required for a given production is not as great as in some slip casting processes, as the air drying time in the mold is only about 15 minutes and for high production rates the molds can be oven dried and in an even shorter time.
- the magnesium oxide aggregate particle size may vary within the ranges specified though larger particles help keep the firing shrinkage low. 7
- the aging indicated required by the present invention in the preferred embodiment appears to depend upon certain variables and although an optimum time is indicated, the time will vary with temperature so that at lower temperatures a longer time will be required and conversely at elevated temperatures a shorter time will be required.
- the ball mill time is considered a part of Thin 4 the aging time and if the magnesium oxide is not ground in a ball mill for 15 hours a greater aging time will be required. Further embodiments of the present invention are understood to be possible and it is therefore understood that the invention is not to be limited by the specific examples but only by the appended claims.
- a process for making an aqueous magnesium oxide casting slurry which comprises aging a mixture of magnesium oxide grains and water in the proportion of about 20 grams of water per 100 grams of magnesium oxide at about 16 C. temperature until said mixture has a viscosity of about 275 centipoises, the, size of said magnesium oxide grains beingabout minus 325 mesh, said mixture having a pH value of about 11.3, and adding from about 0.02 to about 0.1 cc. of 5 N hydrochloric acid per 100 grams of magnesium oxide.
- a process of making a magnesium oxide slip casting slurry which comprises milling at least a portion of said magnesium oxide in water for a period of about 15 hours to a size of about minus 325 mesh, the magnesium oxide and water mixture having a pH value of about 11.3, allowing said magnesium oxide and water mixture to stand for about 24 hours at about 16 C., adding about 0.1 cc. 5 N hydrochloric acid per 100 grams of dry magnesium oxide, said water to be in the proportion of about 20 grams of water per 100 grams of magnesium oxide.
- a process of making a magnesium oxide slip casting slurry which comprises milling at least a portion of said magnesium oxide in water for a period of about 15 hours to a size of about minus 325 mesh, the magnesium oxide and water mixture having a pH value of about 11.3, allowing said magnesium oxide and water mixture to stand for about 24 hours at about 16 C., and adding about 0.05 cc. of 5 N hydrochloric acid per 100 grams of dry magnesium oxide and finally adding an amount of magnesium oxide of grain coarser than 325 grain mesh up to about 150 percent of the weight of 325 mesh vgrain, said water to be in the proportion of about 20 grams of water per 100 grams of total magnesium oxide.
- the process of making a magnesium oxide slip casting slurry which comprises milling for about 15 hours at least a portion of said magnesium oxide in water in the proportion of 20 grams of water per 60 grams of magnesium oxide, said milling to produce a magnesium oxide particle size of about 325 mesh, said magnesium and water mixture having a pH value of about 11.3, allowing said magnesium and water mixture to stand until said mixture has a viscosity of about 275 centipoises, deflocculating said mixture by adding from about 0.02 to 0.1 cc. of 5 N hydrochloric acid per 100 grams of magnesium oxide, and finally adding an amount of magnesium oxide of minus 100 mesh to plus 100 mesh up to about 150 percent of the Weight of said minus 325 mesh magnesium oxide.
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Ceramic Engineering (AREA)
- Dispersion Chemistry (AREA)
- Materials Engineering (AREA)
- Structural Engineering (AREA)
- Organic Chemistry (AREA)
- Compositions Of Oxide Ceramics (AREA)
- Mold Materials And Core Materials (AREA)
Description
2,902,380 SLIP CASTING .METHOD .UnitedStates of America as represented by-the United States Atomic Energy Commission N Drawing. Application July "13, 1956 "Serial No. 597,829
6 Claims. .(Cl. -10612'1) The present invention is related to .a method of preparing a magnesium oxide 'sl-urry formaking slip cast ceramics and in particular a method for :preparing .a magnesium oxideslurr'y -:Wher.e verylarge EDT very .thin wall, slip-cast pieces are required.
.Priorzto 'the present invention the preparation of slipcast pieces of magnesium :oxide has been :diflicult for small size castings and "virtually impossible for large :castingszor for :small castings of thin wall and/or intrizcate. shapes. The useof water'asthersuspending "medium for the magnesium oxide :usedfforslip casting has .not been Adrian G. Allison, Columbus, Ohio, assignor to the satisfactory, .as the cast pieces thus produced nearly The use of a solvent such as ethyl alcoholhas 'a number of disadvantages. The highrate of evaporation of the alcohol makes the process quite inconvenient. The
resulting green slip casting is very weak and must be handled with extremecare, a very undesirable feature for a production product. Further, the success of slip casting with an organic medium depends almost entirely on the skill of theperson doing the casting. It is rather common for the piece to stick to the mold and skill beyond that the ordinary workman is required to produce asound, intact casting. Because of the great weakness of such a casting, it has been virtually impossible to produce large magnesium oxide slip-cast pieces or pieces of intricate shape when using an organic solvent asa medium. Another very serious disadvantage to the use of a slurry containing organic solvent is that only fine grain, i.e., small particle .sizes (magnesium oxide), may be used. This results in high shrinkage of the fired product and diificulty in holding the fired piece to a close tolerance in physical size. Afurther disadvantage to the use of alcohol is that it causes rapid deterioration of the mold.
In the ceramic art a common method ofpreparing a metal oxide slurry, other than magnesium, for slip casting is to mix the finely divided oxide with water, add acid to make the slurry acidic and then cast the slurry. This method is successful with most metal oxides but, although others have occasionally claimed practicability with magnesium oxide, it has not been success- 2 111 for that particular oxide, as many skilled in the-art have found-and reported'in the literature, ashereinbefore noted. Thus'until the present invention there has been no successfulmeans of slip casting magnesium oxide.
Preparing 'a magnesium oxide suspended *in water by the method of the present invention yields a very strong green slip casting and results in a fired piece of very close dimensional tolerance. The slurry is prepared by aging .the mixture of magnesium :oxide and water for 24 hours, then adding a small 'amount of defloccdlating agent. The green casting prepared with this slurry has so much strength that it appears that the magnesium .oxide has lformed a ceramic cement as a result of thechemical change in aging.
It is therefore an object of this invention to provide a method for preparing a slip casting slurry that sets to an unusually high strength when cast in a mold.
Another-object of this invention is to provide-a-method for preparing a magnesium oxide slip slurry suspended in water and having the property of producing a high strength slip casting.
Further objects-of this-invention will be apparent from the following specification and appended claims.
By ithe method ofthe presentinvention the magnesium oxide slurry is prepared in the preferred embodiment in the -following steps:
A quantity of minus 200 mesh fused magnesium oxide with 30 ipercentwater is placed in .a '1 gallon porcelain pebble mill containing 'a charge of 4200 grams of porcelain balls /2 to 1 inch in diameter. 'The pebble mill is run at a speed of "50 revolutions per minute for a period of .15 hours. This provides a quantity of magnesium oxide of mesh size minus 325. Then3 percent additional distilled Water is added to the magnes'itun oxide and the pebble mill is again run for about 5 minutes to thoroughly mix the slurry.
"The slurry is now allowed to stand for 24 hours .at an ambient temperature of about 16 C. This is the very important step in the preparation of this slurry, as during the standing the magnesium oxide combines with H O to form what is probably a mixture of This has a basic pH of about 11.3. After the slurry is aged for 24 hours, it is mixed with a variable speed mixer and a small amount of hydrochloric acid is added while mixing. The hydrochloric acid is prepared by mixing equal volumes of concentrated hydrochloric acid and water. The hydrochloric acid is not sufiicient in quantity to make an appreciable change in the pH of the] solution, thus it remains basic. Now a suitable amount of coarse grain magnesium oxide can be added and thoroughly mixed until there are -no air bubbles in the slurry. The slurry is then poured in a plasterof Paris mold and cast by the usual techniques Well known in the art; and as described in the N.B.S. publication referenced above. Upon removal, the cast piece can be trimmed or otherwise handled Without breaking, as it has unusually high strength. It is air dried at room temperature and then fired in a suitable furnace.
In .the aging process, it appears that the: factor which determines that the slurry is ready is not the pH,'but the viscosity. Experiments have shown thatat 6 hours aging, the viscosity is about 65-75 centipoises, at .24
hours from 270-280centipoises, and at 4.8 hours from 6000 to 9000 centipoises. It is apparent that the viscosity change is very large with a variation in time. In this case, the viscosity was measured by a model RVT- Brookfield viscometer with a No. 1 spindle run at both 10 and 20 r.p.m., with the slurry at room temperature, i. e., 21 C. The important step of this invention, therefore, is that the slurry must be aged to have a viscosity of about 275 centipoises, which can be achieved by aging for a known time.
Table A below shows the preferred composition for the magnesium oxide slip of this invention. Table B shows the permissible limits of the components of the various slip compositions usable by this invention. All weights of magnesium oxide are dry weights.
Table A Minus 100 Minus 325 Mesh, Plus H012H10=121 Mesh MgO 200 Mesh Water By Volume MgO Gma. Gms. Gms.
60 40 20 0.0575 00. per 100 grams of MgO.
Table B Minus 100 Minus 325 Mesh, Plus HC1:H1O=1:1 Mesh MgO 200 Mesh Water By Volume MgO Gms. Gms. Gms. 100-50 -75 30-12 0.02 to 0.1 cc. per 100 grams of MgO.
The exact phenomenon which occurs as a result of the aging and which makes the magnesium oxide slip casting so very strong is not thoroughly understood. However, apparently the HCl acts as a defiocculent even though it is not added to the slurry in sufiicient quantity to cause the slurry to be acidic. It is believed that after the magnesium hydroxide forms a portion of it is transformed to a form of a magnesium oxychloride cement. This cement probably sets when the water leaves the slurry in the mold, thus improving the green strength of the cast piece.
By the present invention magnesium oxide crucibles have been made of a size heretofore impossible. walled intricate shapes are no problem and the results are highly reproducible and consistent. liter crucibles having A3" thick walls are readily made. In one production run 1500 pieces were produced with less than 2 percent loss through breakage. Since coarse grain magnesium oxide may be added, the shrinkage is lower than that resulting from an organic solvent slurry. The shrinkage does not exceed 5 percent compared with the order of 20 percent by methods of the prior art. The life of the molds is essentially indefinite since the aqueous slurry of this invention does not attack the molds. Further, the quantity of molds required for a given production is not as great as in some slip casting processes, as the air drying time in the mold is only about 15 minutes and for high production rates the molds can be oven dried and in an even shorter time. The magnesium oxide aggregate particle size may vary within the ranges specified though larger particles help keep the firing shrinkage low. 7
The aging indicated required by the present invention in the preferred embodiment appears to depend upon certain variables and although an optimum time is indicated, the time will vary with temperature so that at lower temperatures a longer time will be required and conversely at elevated temperatures a shorter time will be required. The ball mill time is considered a part of Thin 4 the aging time and if the magnesium oxide is not ground in a ball mill for 15 hours a greater aging time will be required. Further embodiments of the present invention are understood to be possible and it is therefore understood that the invention is not to be limited by the specific examples but only by the appended claims.
What is claimed is:
1. The process of making an aqueous magnesium oxide slip casting slurry, which comprises adding magnesium oxide grains to water in the proportion of about 12 to about 30 grams of water per 100 grams of magnesium oxide, the size of said magnesium oxide grains being about minus 325 mesh, mixing said magnesium oxide with said water, said mixture having a pH value of about 11.3, aging said magnesium oxide in said water until said mixture has a viscosity of about 275 centipoises, and adding from about 0.02 to about 0.1 cc. of 5 N hydrochloric acid per 100 grams of magnesium oxide whereby said aged slurry may be used to prepare a high strength slip casting.
2. A process for making an aqueous magnesium oxide casting slurry which comprises aging a mixture of magnesium oxide grains and water in the proportion of about 20 grams of water per 100 grams of magnesium oxide at about 16 C. temperature until said mixture has a viscosity of about 275 centipoises, the, size of said magnesium oxide grains beingabout minus 325 mesh, said mixture having a pH value of about 11.3, and adding from about 0.02 to about 0.1 cc. of 5 N hydrochloric acid per 100 grams of magnesium oxide.
3. A process of making a magnesium oxide slip casting slurry which comprises milling at least a portion of said magnesium oxide in water for a period of about 15 hours to a size of about minus 325 mesh, the magnesium oxide and water mixture having a pH value of about 11.3, allowing said magnesium oxide and water mixture to stand for about 24 hours at about 16 C., adding about 0.1 cc. 5 N hydrochloric acid per 100 grams of dry magnesium oxide, said water to be in the proportion of about 20 grams of water per 100 grams of magnesium oxide.
4. A process of making a magnesium oxide slip casting slurry. which comprises milling at least a portion of said magnesium oxide in water for a period of about 15 hours to a size of about minus 325 mesh, the magnesium oxide and water mixture having a pH value of about 11.3, allowing said magnesium oxide and water mixture to stand for about 24 hours at about 16 C., and adding about 0.05 cc. of 5 N hydrochloric acid per 100 grams of dry magnesium oxide and finally adding an amount of magnesium oxide of grain coarser than 325 grain mesh up to about 150 percent of the weight of 325 mesh vgrain, said water to be in the proportion of about 20 grams of water per 100 grams of total magnesium oxide.
5. The process of making a magnesium oxide slip casting slurry comprising aging a mixture of minus 325 mesh magnesium oxide and water until said mixture has a viscosity of about 275 centipoises, said mixture having a pH value of about 11.3, adding hydrochloric acid, and adding magnesium oxide having a grain size coarser than 325 mesh within the proportion limits of about 40 to about percent minus 325 mesh magnesium oxide, from about 10 to about 60 percent magnesium oxide having a grain size coarser than 325 mesh and from about 0.02 to about 0.1 cc. of 5 N hydrochloric acid per grams of magnesium oxide, said water to'be in the proportion of from about 12 grams to about 30 grams of water per 100 grams of total magnesium oxide.
6. The process of making a magnesium oxide slip casting slurry which comprises milling for about 15 hours at least a portion of said magnesium oxide in water in the proportion of 20 grams of water per 60 grams of magnesium oxide, said milling to produce a magnesium oxide particle size of about 325 mesh, said magnesium and water mixture having a pH value of about 11.3, allowing said magnesium and water mixture to stand until said mixture has a viscosity of about 275 centipoises, deflocculating said mixture by adding from about 0.02 to 0.1 cc. of 5 N hydrochloric acid per 100 grams of magnesium oxide, and finally adding an amount of magnesium oxide of minus 100 mesh to plus 100 mesh up to about 150 percent of the Weight of said minus 325 mesh magnesium oxide.
References Cited in the file of this patent UNITED STATES PATENTS 2,313,746 Heany Mar. 16, 1943 6 OTHER REFERENCES MacDougal: The Casting of Clay Wares, U.S. Bureau of Mines Technical Paper No. 126, Government Printing Ofiice (1916); 26 pages; see pages 6-16.
Green et a1.: Ceramic-A Symposium, The British Ceramic Society (1953); pages 551-656.
Thompson et 211.: J. Research of the Nat. Bur. Standards, vol. 23 (1939), Research Paper No. 1236; pages 325-326.
British Ceramic Society, vol. 53 (1954), Abstract 2265, page 320A.
Claims (1)
1. THE PROCESS OF MAKING AN AQUEOUS MAGNESIUM OXIDE SLIP CASTING SLURRY, WHICH COMPRISES ADDING MAGNESIUM OXIDE GRAMS TO TO WATER IN THE PROPORTION OF ABOUT 12 TO ABOUT 30 GRAMS OF WATER PER 100 GRAMS OF MAGNESIUM OXIDE, THE SIZE OF SAID MAGNESIUM OXIDE GRAINS BEING ABOUT MINUS 325 MESH, MIXING SAID MAGNESIUM OXIDE WITH SAID WATER, SAID MIXTURE HAVING A PH VALUE OF ABOUT 11.3 AGING SAID MAGNESIUM OXIDE IN SAID WATER UNTIL SAID MIXTURE HAS A VISCONITY OF ABOUT 275 CENTIPOISES, AND ADDING FROM ABOUT 0.02 TO ABOUT 0.1 CC OF 5 N HYDROCHLORIC ACID PER 100 GRAMS OF MAGNESIUM OXIDE WHEREBY SAID AGED SLURRY MAY BE USED TO PREPARE A HIGH STRENGTH SLIP CASTING.
Priority Applications (1)
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US597829A US2902380A (en) | 1956-07-13 | 1956-07-13 | Slip casting method |
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US597829A US2902380A (en) | 1956-07-13 | 1956-07-13 | Slip casting method |
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US2902380A true US2902380A (en) | 1959-09-01 |
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US597829A Expired - Lifetime US2902380A (en) | 1956-07-13 | 1956-07-13 | Slip casting method |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3116155A (en) * | 1961-07-28 | 1963-12-31 | Stephen D Stoddard | Magnesium oxide slip casting method |
US3133134A (en) * | 1964-05-12 | Process for the production of articles |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2313746A (en) * | 1943-03-16 | Process of making magnesia ceramics |
-
1956
- 1956-07-13 US US597829A patent/US2902380A/en not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2313746A (en) * | 1943-03-16 | Process of making magnesia ceramics |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3133134A (en) * | 1964-05-12 | Process for the production of articles | ||
US3116155A (en) * | 1961-07-28 | 1963-12-31 | Stephen D Stoddard | Magnesium oxide slip casting method |
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