Expressed Peach Kernel Oil - Industrial & Engineering Chemistry

INDUSTRIAL AND ENGINEERING CHEMISTRY

1452

TABLE

Stock So Formula, p a r t s b y n t S-40

TYxm-

Perbunan 3 5 S S 90 Basic lead carbonate Stearic acid Dioctyl phthalate Observations Physical properties (unaged) Tensile, lb./sq. in. Ultimate elongation, % Shore durometer hardness Specific gravity Brittle temperature, O F. Crescenr tear a t room temp., Ib./in Extrusion a t 220O F.* Inches/min. l a ) Grams./min. ( b ! Swell index ( b ) ! ( a ) Appearance Physical properties (oven-aged for 3 d a y s a t 250' F.) Tensile, Ib./sq. in. I-ltimate elongation, Fc Shore durometer hardness Physical properties (oven-aged f o r 6 days a t 2503 F , i Tensile, ib.'sq. in. Ultimate elongation, wc Shore durometer hardnees * 80 r . p . m . , 0.4-inch die b y 0.3-inch pin

...

XI. PERBUXAN-\'\*~T$~ S-40 R L E S D ~ 5

6

7

2D

25

100 50

100 50

50 100 50

50 100 50

1.5 25 blight odor, 'light rack

1

2

3

4

10

25 100 50 3 1.5

30 100 50

100 50 3 1.5

S o odor, no surface tack

2490 140 95

1.222 - 30 560

Yo odor, no

surface tack

2

S o odor, n o surface tack

S o odor, no surface tack

Slight odor, slight t a c k

1760 190 93

1710 310 88 1 171

1260 320 87 1.139 - 10

2010 190 94 1.222 20 505

2

f40 420

- 20 280

1330 400 71 1.142 - 30 170

56 77 4 1 38 Smooth

61 81 1.33 Smooth

100 1.19 Ern oo t h

1080

1290

.....

+

123 1.98 Smooth

Smooth

2960 50 80

2370 130 90

2210 1-10 85

1520 130

3360 20 81

1890 120 92

2 1c,o

2090

52.5 80 8 1.54

120 80

parts on tlic I-\-S\T-no dioctyl phthalatv \va,< r i y u i r d t o obtain good Ion teinpcrature properties. Once again th(3 i.csu1ts on extrusion at 220" F. shon-rd that the S-40 polynirr actctl as a processing aid for thc Perbunan-VYSTV blends 01' thii PerhurlanVTS\V-djoctyl phthalate blends. As thc amount of S-40polymer was increastbd in the blend, the extrusion ratc as improved and the sv--elling index v a s reduced. The S-40 polynicir-Perbunan-VTSTV-dioctyl phthalate blends eshibitcti inttwsting aging properties when held a t 250" F. in a n air OVCII. For example, in the 6-day aging test, the Perbunan-VI-STT tilcnti s h o w d a short elongation to break, whereas the S-polymerPerbunan 3 5 X S - T T S K type blends retained to a grcat rstcnt their original elongation.

3

3 1.0

.....

.....

70 100 1 43 Eniooth

62

Vol. 39, No. 11

85

110 80

3 1 5 50 Slight odor, .light tack 800.

50 71 1.125 - 20 110

220

84

72 84 1 17 Smootb

'

860

140 80

140 85

30

1320 120 79

1930 100 84

1490 30

75

76

.ACKNOWLEDGRIENT

The advice, c.ricour:igc,nient, and assistance of I,. T3. Turricr, 13. 11. V:tnclci.liilt, \T7, ,J, Snarlis, and E. ?;. Cunninglinni during thc c o i i r ~ rof this work are greatly appreciated. LITERATURE CITED

lI.,.I. - 1 ~ 1 C'hem. . SOC..63, 369-78 (1941). ( 2 ) Hendermii. D. I?.. IT,9 . Patent 2,3300,353 (Seot. 2 5 . 1943) (3) Kcnney. It. P.. Jforlcrn Plastics, 23, 106-7 (Sept. 1940). (1) lloulton. 11. 8.. Iliid.. 23, 117-20 (Oct. 1916). (5) Plotterberk, 0. r., arid Young. D. IT,,Am. Pairif 6.. 2 9 , Yo. 5.4,

(1) I.'uo~s.I!.

16 (1944).

(6) Sn1yei.s. \V.11.. U. P.Patent 2.274.749 (1942). (7) Vinkelmann, H. A , , India R i ~ h b T o~d d , 113, 799-804 (1946) R E C E I V EM D a y 0 , 1947.

EXPRESSED PEACH KERNEL OIL W. A. BUSH

.iSD

B. J. C.4G.41

3135 East 2 6 t h S t r e e t , Los iingeles 23, Culif.

U

STIL a little oyer two decades ago the so-called peach kerncl oil of coninierce (sometimes also called "oil almonds P.K.")

was obtained from apricot kernels. I n 1023, at the request of agents of the United States Department of Agriculture, the oil expressed from domestic apricot kernels \vas correctl?- named "apricot kcrnel oil" a n d is commercially kno1v-u as such today. Peach pits arc more difficult to dry and t o crack than apricot pits. The percentage of dry kernels obtained from peach pits is, in most cultural varieties, only 9 t o 11 of the whole dried pits. Frequently the percentage is even lower. This is less than half the yield from apricot pits, which is 20 to 33C, of the kcrriels, according to variety. For these reasons t r u c peach k ( ~ n o loil had seldom, if ever, been manufactured in commercial quantities. Scarcity of edible and pharmaceutical oils and a n iniprovcd commercial outlet for the by-product shells have resulted in the possibility of a n oil pressing operation on a commercial scalc. ~ In this operation 21,400 kg. of peach kernols ( ~ o n t a i n i n g 4 2 . 3 ?of oil) were pressed t o produce peach kernel oil and oil-cake meal. T h e crude oil has a yclloiv color and a strong flavor and odor of

I ) c l l x a l d t ~ h y d c c . ~ : ~ r ~ h ~ (It~ rwas i n . e a d y improved in flavor and lightctnc~din color by simple treatment r i t h an activated niontmorillonite. Thc characteristics of the treated oil are: Specific gravity, 1:' C. Refractive index, 2 5 . S C C. Saponification \ - d u e I-nsaponifiable matter, 7 Iodine number (Il-ijs) .kcid \.slue Titer, 0-c: Color i l o v i b o n d ) Flavor

0.9224 1.46990 191 4 0.65 98.1 0.67 11

25 yellow, 3 red Bland, mildly almondlike

The titer is 2 lo\vcsr t h i n the l o i n s t of the range given by Jamieson ( 2 ) . H o ~ - ( ~ vitL is ~ I\\-ithin ., the 5-13' C. range given by Hilditch (1). LITERATURE CITED

(1) Hilditrh, T. P., "Ilidustrial Chemistry of Fats a n d \Vases." 11. 119, New York, D. \-anNostrand Go., 1941. ( 2 ) Jamieson, G. 9.."1-egetable Fats and Oils," 2nd ed., 1). 173. Xew York, Reinhold Puh. Corp., 1943. RrcEIVEo October 4. 1946