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NTIS 바로가기Journal of the American Ceramic Society, v.37 no.12, 1954년, pp.588 - 595
SMOTHERS, W. J. (Institute of Science and Technology, University of Arkansas, Fayetteville, Arkansas) , REYNOLDS, H. J. (Institute of Science and Technology, University of Arkansas, Fayetteville, Arkansas)
The sintering and grain growth of alumina as a function of the type of impurity (oxide) added was studied. One weight per cent of the impurity was added to a commercial Be‐grained alumina or was coprecipitated with iilcl3 to form hydroxides. Fired shrinkage, bulk density, and apparent porosity...
1 Rheinhold Reichman , “ Spark Plug ,” U. S. Pat. 1,799,225, April 7, 1931 .
2 Eugene Ryshkewitch , One Component Oxide Ceramics on Basis of Physical Chemistry (Oxydkeramik der Einstoffsysteme vom Standpunkt der Physikalischen Chemie) . Springer‐Verlag , Berlin , 1948 , 280 pp.; Ceram. Abstr. , 1949, October, p. 233g.
3(a) T. G. McDougal , A. H. Fessler , and, Karl Schwartz‐walder Spark‐Plug Insulator ,” U. S. Pat. 2,120,338, June 14, 1938; Ceram. Abstr., 17 [9] 309(1938).
3(b) T. G. McDougal , A. H. Fessler , and H. B. Barlett , “ Ceramic Body for Spark‐Plug Insulators ,” U. S. Pat. 2,177,943. October 31, 1939 .
3(c) T. G. McDougal , A. H. Fessler , and H. B. Barlett , “ Ceramic Body for Spark‐Plug Insulators , U. S. Pat. 2 , 214 , 931 , September 17. 1940 :,” Ceram. Abstr., 19 1111 260 (1940).
3(d) T. G. McDougal , A. H. Fessler , and H. B. Barlett , “ Ceramic Body for Spark‐Plug Insulators, U. S. Pat. 2, 232, 860, February 25, 1941; ,” Ceram. Abstr. , 20 [ 5 ] 121 ( 1941 ).
4 J. A. Jeffery , “ Spark‐Plug Insulator ,” U. S. Pat. 2,274, 067, February 24, 1942;,” Ceram. Abstr., 21 [5] 105 (1942).
5 C. R. Austin and E. J. Rogers , “ Ceramic Batch ,” U. S. Pat. 2, 494, 276, January 10, 1950; Ceram. Abstr., 1950, July, p. 147c.
6 V. A. Bron , “ Sintering of Alumina by Recrystallization ,” Ogneupory , 16 [ 7 ] 312 – 23 ( 1951 ); Ceram. Abstr., 1952, March, p 42g.
7 G. E. Comstock III , “ Molded Alumina ,” U. S. Pat. 2, 618 – 667 , November 18, 1952 ; Ceram. Abstr., 1953, February, p. 27f.
8 S. P. Robinson , “ Stabilized Alumina Pebbles ,” U. S. Pat. 2,631,353, March 17, 1953 ; Ceram. Abstr. , 1953 , August, p. 143b.
9(a) S. P. Robinson , “ Magnesium Aluminate Pebble ,” U. S. Pat. 2,618,566, November 18, 1952 ; Ceram. Abstr. , 1953 , February, p. 26d.
9(b) S. P. Robinson , “ Stabilized Alumina Pebbles .” U. S. Pat. 2,630, 616, March 10,′1953; Ceram. Abstr. , 1953 , June, p. 105j.
9(c) S. P. Robinson , “ Alumina Pebble ,” U. S. Pat. 2,630, 617 , March 10, 1953 ; Ceram. Abstr., 1953, June, p. 104h.
9(d) S. P. Robinson , “ Heat‐Exchange Pebbles ,” U. S. Pat. 2,644,799, July 7, 1953 ; Ceram. Abstr. , 1954 , May, p. 92b.
10 Eugene Ryshkewitch , “ Compression Strength of Porous Sintered Alumina and Zirconia‐9th Communication to Ceramography ,” J. Am. Ceram. Soc. , 36 [ 2 ] 65 – 68 ( 1953 ).
11 Friedrich Reinhart , “ Alumina Bodies” (Tonerdekörper) ,” Glas-Email-Keramo-Tech. , 5 [ 5 ] 180 – 84 ( 1954 ); Ceram. Abstr., 1954, November, p. 203a.
12 S. S. Kistler , “ Refractories in Turbine Blades Plus Miscellaneous Applications ,” Rept. PB 4260 , 29 pp. ( 1945 ); p. 12 ; Ceram. Abstr., 1947, March, p. 70g.
13 Francis Odell , and J. L. Taylor , “ Recrystallization of Beryllium Oxide Bodies at 2000°C. ,” J. Am. Ceram. Soc. , 32 111 1 – 9 ( 1949 ).
14 H. B. Barlet and Karl Schwartzwalder , “ Trends in Chemical and Mineralogical Constitution of Spark‐Plug Insulators ,” Am. Ceram. Soc. Bull. , 28 [ 11 ] 462 – 70 ( 1949 ).
15 Louis Bonnet and Maurice Marty , “Ceramic Mixtures,” U. S. Pat. 2, 436,708, February 24, 1948; Ceram. Abstr., 1948, Tune. p. 133d.
16 Eugene Ryshkewitch , General Survey of Work by Dr. Ryshkewitch ,” Rept. PB 79484 , pp. 9‐10, October 15, 1945. 29 pp.
17 T. G. McDougal , A. H. Fessler , and Karl Schwartzwalder , “ Insulator for Spark Plugs , U. S. Pat. 2,152,656, April 4, 1939; Ceram. Abstr., 18 [6] 159(1939).
18 T. G. McDzugal , A. H. Fessler , and Karl Schwartzwalder , “ Ceramic Body , U. S. Pat. 2, 218, 584, October 22. 1940; Ceram. Abstr., 20 [1] 21 (1941).
19 B. Hopps and C. J. Smithells , “ Electrical Insulator and Method of Making ,” U. S. Pat. 2,436,005, February 17, 1948 ; Ceram. Abstr. , 1948 , May, p. 106a.
20 F. P. Hall and Herbert Insley , “ Phase Diagrams for Ceramists ,” J. Am. Ceram. Soc. , 30 [ 11 , Part 11] 152 pp. ( 1947 ); p. 28 .
See p. 10 of fopote 16. .
21 G. F. Hüttig , “ Fritting of One‐Component Powders; Study of Processes of Powder Metallurgy and Ceramics: 111, Comprehensive Report on Course of Chemical Processes Involving Solids, (3) Schematic Description of Fritting Process ,” Kolloid-Z. , 98 [ 3 ] 263 – 86 ( 1942 ); Ceram. Abstr., 22 [9] 163 (1943).
22 G. F. Hüttig , “ Fritting of One‐Component Powders; Study of Processes of Powder Metallurgy and Ceramics: 111, Comprehensive Report on Course of Chemical Processes Involving Solids, (2) Experimental Data on Fritting ,” Kolloid-Z. , 98 [ 1 ] 6 – 33 ( 1942 ); Ceram. Abstr., 22 [9] 163(1943).
23 P. P. Budnikov and L. M. Blyumen , “ Physiochemical Nature of Sintering of Ceramic Materials ,” Trudy Moskov. Khim. Tekhnol. Inst. im. D. I. Mendeleeva , 1949 , No. 16 , Stroitel. Materially Sbornik, No. 2, pp. 73‐86; Ceram. Abstr., 1953, April, p. 55c.
24 Carl Wagner , “ Reactions of Metals and Alloys with Oxygen, Sulphur, and Halogens at High Temperatures ,” Corrosion and Material Protection , 5 [ 5 ] 9 – 11 ( 1948 ); J. Corrosion, 1‐4.
25 W. A. Weyl , “ Atomic Interpretation of Mechanism of Solid‐State Reactions and of Sintering ,” Ceram. Age , 60 [ 5 ] 28 – 38 ( 1952 ).
26 W. A. Weyl and D. P. Enright , “ Mechanism of Recrystallization and of Sintering ,” O.N.R. Technical Report No. 36, Contract No. N6 onr 269, Task Order 8 NR 032–264; August, 1951. 2.3 PP.
27 P. W. Clark and J. White , “ Some Aspects of Sintering ,” Trans. Brit. Ceram. Soc. , 49 [ 7 ] 305 – 33 ( 1950 ); Ceram. Abstr., 1952, June, p. 118f. 28 P. W. Clark, J. H. Cannon, and J. White, “Further Investigations on Sintering of Oxides,” Trans. Brit. Ceram. Soc., 52 [l] 1‐49 (1953); Ceram. Abstr., 1954, March, p. 58f.
29 Honoré Thibon , Jaques Charrier , and Pbert Tertian , “ Thermal Decomposition of Alumina Hydrates , Bull. Soc. chim. France , 1951 , pp. 384 – 92 .
30 Leo Brewer , “ Thermodynamic Properties of the Oxides and Their Vaporization Processes ,” Chem. Revs. , 52 , 1 – 75 ( 1953 ).
31 E. A. Durbin , H. E. Wagner , and C. G. Harman , “ Properties of Some Columbium Oxide‐Basis Ceramics. ” BMI‐792, 15 pp., December, 1952.
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