ANALYSIS OF DUPONT AND KODAK DUPLICATING FILMS
AND CHEMISTRIES IN A FTULTRON SPRAY PROCESSOR
This Report has been reviewed
and is approved.
PREPARED BY: __ _ ___ _ _
Mark S. WeinsteinPhotoscentist
APPROVED:-Gerard E. Sauer,/~upervisorPhoto Science Office
APPROVED: _ ___
Nbel T. LamarTechnical Monitor
CONCURRENCE BY: -7' .ohn R. Bri kmann, Chie
Photographic Technology Division
(NASA-CR-141495) ANALYSIS OF DUPONT AND N75-15937
iKODAK DUPLICATING FILMS AND CHEMISTRIES IN AFULTRON SPRAY PROCESSOR (Technicolor GraphicServices, Inc.) 99 p HC $4.75 CSCL 14E Unclas• _ _._G3/3 089 8
https://ntrs.nasa.gov/search.jsp?R=19750007865 2020-03-10T07:48:11+00:00Z
ANALYSIS OF DUPONT AND KODAK DUPLICATING FILMSAND CHEMISTRIES IN A FULTRON SPRAY PROCESSOR
This Report has been reviewed
and is approved.
John R. Brinkmann, ChiefPhotographic Technology Division
Noel T. LamarTechnical Monitor
erard E. Sauer, SupervisorPhoto Science Office
ABSTRACT
.This report describes a test program conducted with duPont
duplicating film type SR 112 and SCOlOR developer and Kodak
duplicating film types 2430, 2422, and FE 2628 (S0-467) and
MX-641 developer to determine sensitometric and image qual-
ity characteristics of these materials when used with a
Fultron Spray Processor.
The test results show that the SCOlOR developer foams ex-
cessively in the Fultron Processor when used without any
additives and when used with the addition of .05 milliliter
of antifoaming agent, tributyl phosphate, per liter of
SCO1OR developer.
For the film/process combinations tested, the Kodak type
FE 2628 film with MX-641 chemistry had the longest linear
Log E range at a 1.0 gamma.
Sensitometric curves and granularity traces for all film/
process combinations tested are included in the appendices.
INTRODUCTION
The duplication of photographic films is an especially critical
task for the Photographic Technology Division (PTD), since most
of the scientific investigations are conducted not with the
original imagery, but with various generation copies.
The Photographic Science Office is, therefore, continually
searching for new duplicating materials and techniques to
insure that the duplicate imagery distributed by the PTD is of
the highest possible quality.
One of the major problems confronting the Precision Iaboratory
is that of obtaining a high resolution duplicating material
capable of producing a gamma of 1.0 with a linear Log E range
of at least 1.4 using a chemistry compatible with the Fultron
Spray Processors. This requirement comes about primarily
because of the large density range encountered on much of the
lunar imagery. A search was instituted for new duplicating
materials capable of meeting the described parameters.
On January 4, 1972, representatives of the Photographic Science
Office and the Precision Laboratory met with representatives of
the E. I. duPont de Nemours & Company, Inc., to. discuss their
duplication materials. Two films, types CRN and SR 112, were
described which appeared to offer advantages in latitude and
1 ~:
resolution over those materials presently being used. The film
type CRN is a direct reversal material similar to Kodak film
type 2422, ,but is claimed to have a longer linear Log E range.
-Film type SR 112 is a negative type duplicating film with sensi-
tometric characteristics similar to Kodak film type 2420. The
recommended developer for these films is duPont SCO10R. However,
this developer had never been used in a Fultron Spray Processor.
The PTD requested that duPont supply eight 5 inch by 500 foot
rolls of each film type and 500 gallons of SCOIOR developer
for testing in the Fultron Processor.
Shortly thereafter, Kodak informed the PTD of a new experimental
duplicating film similar to 2420 but with a longer linear Log E
range and improved MTF characteristics. This film was called
FE 2628 at the time, but has since been formally numbered SO-467.
A comprehensive test plan was prepared to evaluate the duPont
films and chemistry. This same plan was to be followed using
Kodak duplicating materials to provide a basis for comparison.
While awaiting arrival of the duPont materials, tests were
conducted with Kodak duplicating film types 2430, emulsion
batches 178 and 175, and 2422 processed in a Fultron Processor
with MX-641 developer.
Considerable difficulty was encountered in obtaining the duPont
materials. They were considerably late in arriving at MSC and
2
when they finally arrived, they were not complete as requested;
no CRN material was received and only 60 gallons of SCO1OR dev-
eloper arr'ved, as opposed to the 500 gallons requested. This
quantity of developer was not nearly enough for evaluation in
the Fultron Processor. The original test plan had to be altered
and some of the objectives changed to account for a lack of
materials and, by now, lack of time. The objectives and test
procedures which follow reflect the required revisions.
3
TEST OBJECTIVES
I. Determine the gamut of sensitometric curves (D Log E)
obtainable in a Fultron Processor for all film/chemistry
combinations being tested.
II. Determine the image quality characteristics for all film/
chemistry combinations being tested.
III. Determine if there are any operational problems in using
duPont film type SR 112 with SC010R chemistry in a Fultron
Processor.
4
TEST PROCEDURES
I. Prepare a printer loop make up of the following items:
A. Twenty-one step tablet on Kodak type 3400 film with a
nominal .15 density increment between steps.
B. Twenty-one step, 5 modulation level resolution frisket
superimposed on a step tablet made up of steps of
Wratten #96 neutral density filters with a nominal
.30 density increment between steps.
C. Five 3 inch by 3 inch Wratten #96 neutral density patches
with nominal density values of 0.3, 0.6, 0.9, 1.2, and
1.5.
D. Samples of pan and metric camera imagery including both
high and low phase angle photography.
II. Determine the optimum exposure for duplicating the printer
loop in a Niagara Printer with the mercury vapor lamp. Do
this for each of the film/process conditions to be tested.
III. Expose one 500-foot rool for each film/process combination
with the printer loop in a Niagara Printer using exposure
criteria determined in Step II.
IV. Determine proper replenishment rate.
V. Process each film/process combination according to its
respective specification except that 1/3 of each roll
will be processed at a speed of 10 fpm, the second third
at 20 fpm, and the last third at .40 fpm.
5
VI. Uniformly expose 2000 feet of each film type, so that when
processed the nominal density will be l,0.
YII. Pr ocess the exposed film in a Fultron Processor to specifi-
cations supplied by the Phot Science Office. Process a
sensitometric control strip at 100-foot intervals, along
with the 2000 feet of exposed film.
VIII.Expose 15 sensitometric strips from two different emulsion
batches (if available) for each film type using the I-B
sensitometer. Process the 30 strips from each film type
randomly in a Fultron Processor to specifications supplied
by the PSO.
IX. Throughout all steps continually be conscious of, and record,
operational characteristics, including such problems as
foaming, clogging of the spray heads, drying ability, track-
ing, and contamination.
6
DISCUSSION
-The test procedure was followed first with Kodak duplicating film
type 2430, a high resolution negative acting emulsion, and film
type 2422, a direct reversal emulsion. Development was carried
out in the Fultron Processor using MX-641 chemistry at 680F. and
800F. with machine speeds of 10, 20, and 40 feet per minute.
Tests were conducted with two different emulsion batches of film
type 2430. No problems were encountered during this phase of
the testing program. These films and chemistry are normally used
by the Precision Laboratory in the Fultron Processor.
The second phase of the testing program commenced with the
arrival of film and chemistry from duPont. Two duplicating
film types, SR 112, a negative acting emulsion, and CRN, a
direct reversal emulsion, were to have been received. Only
four 500-foot rolls of the SR 112 film were received initially.
An additional four rolls were requested, and they arrived the
following day. No CRN material was available. Only 60 gallons
of SCOlOR chemistry were received for testing as opposed to the
500 gallons originally requested. The lack of chemistry result-
ed in an abbreviated test being carried out in the Fultron Pro-
cessor
The duPont SCOlOR chemistry was mixed in three 20-gallon batches.
The resultant chemical analysis, pH and specific gravity (Table 1)
7
indicates that there is no difference between the three batches.
TABLE 1
duPont SCO1OR Chemical Analysis
Batch pH Specific Gravity
1 9.87 1.062
2 9.87 1.063
3 9.87 1.062
As suggested by the duPoint representative, Mr. -Charles L. Wick-
ham, no antifoaming agent was added initially to the chemistry.
duPont had conducted tests with a spray processor and the SC010R
chemistry that indicated that no antifoaming agent would be re-
quired.
Foaming of the developer occurred after about 200 feet of film
had been processed. The foaming was of such magnitude that it
began flowing out of the developer cabinet door and onto the
processing feed elevator and floor of the room. At this point
it was decided to add .05 milliliter of antifoaming agent, tri-
butyl phosphate, per liter of SCOlOR developer. The developer
was then recirculated for thirty minutes, and another processing
cycle was attempted. The same foaming problem occurred again.
8
Due to the lack of devceloper solution, no further testing could
be done. Subsequent testing of duPont film type SR 112 was
'carried out in Kodak MX-641 chemistry.
An additional operational problem was noted by the Precision
Laboratory. They are of the opinion that the plastic cans
the SR 112 film is packaged in would contribute a major hand-
ling problem due to the extreme effort required to remove the
tops.
No further problems were encountered when using duPont SR 112
film with Kodak MX-641 developer in the Fultron Processor.
The final testing phase was carried out with Kodak film design-
ated by an experimental emulsion, number FE 2628. This film is
now produced as a special order item numbered S0-467. Only
one 500-foot roll was received. This, hatever, was sufficient
to determine sensitometric characteristics.
9
TEST RESULTS
"Fifteen sensitometric strips exposed in the PTD I-B Precision
Sensitometer were read on a MacBeth TD217DR densitometer,
averaged, and plotted for each film/process combination
tested. The resultant D Log E curves are included in Appendix
A. The gamma derived from each curve and a listing of all
film/process combinations tested can be found in Table 2.
A sensitometric comparison between the two emulsion batches
of Kodak film type 2430 is illustrated in Figures 1 through 6.
An examination of these curves shows that no significant sensi-
tometric difference exists between the two emulsion batches.
D Log E curves derived by exposing the film in a Niagara printer
using a Film Type 3400 step tablet to modulate the light are
plotted and included in Appendix B.
The gamma derived from these plots for duPont film type SR 112
in both SCOlOR and MX-641 developers, and Kodak film type 2430
in MX-641 developer, are included in Table 2. A comparison of
the Niagara derived gamma versus the I-B derived gamma shows
that the Niagara gamma is lower in all cases but one. This is
due primarily to a difference in spectral quality between the
10
Niagara printer and the Niagara simulation with the I-B
sensitometer.
A program developed by Technicolor photoscientist, Bob Goodding,
for the Wang 700B Programmable Calculator and Model 702 Plotter
was used to provide a plot of the D Log E curve and a plot of
the instantaneous slope at each point on the curve superimposed
on the same graph. This technique is useful for showing graphi-
cally the amount of linearily inherent in the D Log E curve.
These curves are included in Appendix C. The curve, displayed
as a combination of crosses and dots, is the D Log E curve de-
rived from the average of fifteen I-B sensitometric strips as
described previously. The curve, displayed as a series of circles,
is a representation of the slope at each point on the D Log E
curve. If the D Log E -curve was perfectly linear from one end to
the other, then the plot of slope would show as a horizontal
straight line positioned in the Y-axis at .a point equal to the
slope of the D Log E curve.
A relative number for linear Log E range was derived from the
described slope curve by finding the two points on the curve
equal to the maximum slope minus 10%. The Log E distance be-
tween these two points is defined as the linear Log E range.
This data can be found in Table 2.
11
\---
To simplify the analysis of the large amount of data collected,
the information shown in Table 2 is illustrated graphically
.in Figures 7, 8, 9, and 10. Figure 7 is a graph of machine
speed versus gamma. Figure 8 shows machine speed versus linear
Log E range. Figures 9 and 10 illustrate gamma versus linear
Log E range for two different temperatures.
Granularity traces were made at four density levels for each
film/process combination using a Joyce Loebl microdensitometer
with an effective aperture.of approximately 23 by 23 .microns.
These traces are included in Appendix D.
12
TABLE 2
Process LinearFilm Chemistry Speed(fn) Temnip(.) I-B Gamma Niagara Gamma Log E Range
SR 112 SCOlOR 10 68 1.04 01 o 0.60SR 112 SCOlOR 20 68 0.61 0.42 0.80SR 112 SCOlOR 40 68 0.27 0.22 2.40
SR 112 SCOlOR 10 80 1.06 1.09 1.00SR 112 SCOIOR 20 80 0.72 0.69 - 1.20SR 112 SCOlOR 40 80 0.38 0.31 1.65
SR 112 MX-641 10 68 1.38 1.21 0.50SR 112 MX-641 20 68 1.10 0.94 1.00SR 112 MX-641 40 68 0.73 0.67 1.75
SR 112 MX-641 10 80 1.40 1.30 0.60SR 112 MX-641 20 80 1.23 1.12 0.75SR 112 MX-641 40 80 0.91 0.79 0.75
2430-178 MX-641 10 68 2.13 1.90 0.402430-178 MX-641 20 68 1.73. 1.45 0.902430-178 MX-641 40 68 1.40 1.17 0.75
2430-178 MX-641 10 80 2.06 1.98 0.402430-178 MX-641 20 80. 2.09 1.98 0.452430-178 MX-641 40 80 1.61 1.44 1.10
2430-175 MX-641 10 68 2.22 0.252430-1.75 MX-641 20 68 1.72 1.052430-175 MX-641 40 68 1.40 0.75
2430-175 MX-641 10 80 2.10 0.352430-175 MX-641 20 80- . 2.10 0.452430-175 MX-641 40 80 1.60 1.10
TABLE 2 (continued)
Process LinearFilm Chemistry Speed(fpm) Temp(OF.) I-B Gamma Niagara Gamma Log E Range
FE-2628 MX-641 10 68 1.60 0.70FE-2628 MX-641 20 68 1.19 - 0.80FE-2628 MX-641 40 68 0.86 2.00
FE-2628 MX-641 10 0 1.. 77 0.60FE-2628 MX-641 20 80 1.46 0.70FE-2628 MX-641 40 80 1.01 1.20
6DKT CONTROL I TASK PREPARED BY
178FILM 2430 EMULSION I - MFG EXPIRATION DATE -
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER PROCESSOR INSTRUMENT SPEED (
ILLUMINANT :"K CHEMISTRY TYPE D-MAX
TIME SEC. SPEED TANKS 10 FPM APERTURE SIZE MM GAMMA
FILTER TEMP OF 6 TIME - FILTER BASE FOG
1 3 7 9 11 13 15 17 19 21CHEMICAL II'l ii ii I H Ii ! l! ll llll ll I L LLL L
ANALYSIS
EMULSION BATCH COMPARISONSP R 3.8 3.8
----- 2430-178
3.6 3.6pH 2430-175 -
3.4 3.4TA
TRP 3.2 7 .-- = - .3.2
KB1 3.0 ---- -. 0KB,
20
19 2.6 .... 2.6
17 2.4 -
14
131 2.0 2.0
11 ----
12 .
10 1.8 ------ -- - ~- ----
9
7.
5 kill
3
.0 - -- -- - 1.0
.8 ... - .8
.6 = /.6Technicolor
FIGURE 1.4 .4
ABSOLUTE .2 --. 2LOG E
AT R.L.E. - 0
1131111 1111-10 ll .6 . 9 llll 1 1 1111111 .il ll il ll 2 lill lli7 3.0
.3 6 . .6 .9 :125 1.5 - 1.8 2. 2.4 2.7 3.0
DATE CONTROL I ._ TASK PREPARED BY
178
FILM 2O30 EMULSION# 17 MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER PROCESSOR INSTRUMENT SPEED ( )-
ILLUMINANT 'K CHEMISTRY TYPE _ D-MAX
TIME . SEC. SPEED TANKS '20 FPM APERTURE SIZE MM GAMMA
FILTER TEMP "F 68 TIME I FILTER BASE , FOG
S 3 5 7 9 11 13- 15 17 19 21
CHEMICAL 74.04.0
4.0S ANALYSIS 4.
EMULSION BATCH COMPARISON 3.8SP GR 3.8
- 2430-1783.6
3.6.. 2430-175
3.4 3.4TA -
TP
3.0 3.0
KBr
21 2.8.8
20
19 2.6 2.6
18 2
17 2.4- .4
16
2. 2.2
146..
16 -1. --- - -- 1.4
5--
1.6 .1.
S 1.4 1.4
1.2 1.
1.0 - - -- 1.0
.8- -- .
.6 ..... 6J Technicolor
.4 FIGURE 2 .4
ABSOLUTE .2 2/ .
LOG EAT R.L.E.-0
-10 i.6ll liI.9 il I Ill IIll4lii 1i5 1.illiIIIIII 1 2 4 2. 3.0illil
.3 .6 .9 Li 1.5 1.8 2.1 2.4 2.7 3.0
_ O CONTROL -...... - TASK PREPARED BY178
FILM 2430 EMULSION # 175 MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER PROCESSOR INSTRUMENT SPEED ( )
ILLUMINANT -K CHEMISTRY TYPE D-MAX
TIME SEc. SPEED rANKS 40 0 rP APERTURE SIZE MM GAMMA
FILTER TEMP F TIME FILTER BASE , FOG _
1 3 . 5 7 9 11 13 15 17 19 21C H E M IC A L I H l i llIll !l ll llil ! 1 i il 111 m mII]u- ll W ! H ] 1 ! l I I ;li iil I i1 1 1Hi II 17 111111 Hin li I.CHEMICAL .0 4.0ANALYSIS 4
SP GR 3.8 EMULSION BATCH COMPARISON - 3.8
3.6 2430-178 - 3.6
2430-1753.3.
3.0 - 3.0KBr
21 2.8
20
19 2.6 2.618
17 2.4 - -- - . . . .2.416
15
2.2 - -- _- - -- '- - §7. _-- 2.214
1312 2.0 2.0
11
1018 1.89
8 1 .6 - --- .. 1.6
6 1.4 - - - 1.4S - ------ -- - - --- -- -
1.2 - 1.2
1.0 -- - - -- - 1.0
.8 .8
.6 ------ .6Tachnicolor
.4 FIGURE 3 .4
ABSOLUTE ,LOG E
AT R.L.E. - 0
-10
?TI-22 .3 .6 .9 1i2 1.5 1.8 21 2.4 2.7 3.0
-i CONTROL I TASK PREPARED BY178;
2430FILM EMULSION # 175 MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRYSENSITOMETER PROCESSOR INSTRUMENT SPEED ( )
ILLUMINANT 'K CHEMISTRY - TYPE D-MAXTIME sEc. SPEED TANKS 10 FPM APERTURE SIZE MM GAMMA
FILTER _ TEMP F 80 TIME - FILTER BASE * FOG
1 3 5 7 9 11 13 15 17 19 .21-CHEMICAL IIll lllANALYSIS 4.0 - -4.
3. 38SP GR EMULSION BATCH COMPARISON
3.6 ---- 2430-178 3.6pH 3
2430-175TA ___--3.4 3.4TA
.-- - - -- -- ; -z.--_ z
SP 3.2 3.2
3.0 - 3.0
1 1 28 --. -__
19 2.6 - .. 2.618 -
17 2.4 2.416
15 -t-
12.2 _ _- -- 2.2
13- --- ------ .8
S.6
1.6 .... .6
F
6 .... 4
. --
ABSOLUTE 1.2
LOG -
S.3 . .9 1.5 1.8 2.1 2.4 2.0
.6. __ --
FIGURE 4 - -.4 .. .4
ABSOLUTE .4 ; - • :
AT R.L.E.- 0
.3 .6 .9 ' 1 1.3 1.1 2.1 2.4 .7 3.0
i ' CONTROL I TASK PREPARED BY
178FILM 2430 EMULSION # 175 MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRYSENSITOMETER PROCESSOR INSTRUMENT SPEED (__ILLUMINANT '_ K CHEMISTRY TYPE D-MAX
TIME sec. SPEED TANKS 20 FPM APERTURE SIZE MM GAMMA
FILTER TEMP_ _F 80 TIME FILTER BASE * FOG _
1 3'' 5 7 9 11 13 15 17 19 21CHEMICAL 4.0 I
-ANALYSIS 4.0 -
SP GR 3.8 EMULSION BATCH COMPARISON 3.8
. 3.6 ------ 2430-178 3.6pH
T 2430-175- 3 4 3.4TA
T 3.2 ---- 3.2
KB, 3.0 .0
20~~~~~~- -- --- ......2.21 28
2019
2.6 2.6Is17
2.4 2.416 -
S2.2 2.214 - -
13
12 2.0 _ 2.0
11 -
10 1.8 - 1.8
8 1.6 1.67
6.s~~~~~~~- ... -... _ :_L- - -
3.2
2 --1.0 1.0
.8.8
.6- -_ .6
.4 =q-..
FIGURE 5 -
ABSOLUTE .2 2-LOG E7 -
AT R.L.E.- 0
-7 -2 .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.02 'n
DATE CONTROL * TASK PREPARED BY
17 "'-FILM 24330 EMULSION i 175 MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER PROCESSOR INSTRUMENT SPEED (
ILLUMINANT 'K CHEMISTRY TYP'E D-MAX
TIME : SEC. SPEED__ TANK 40 FPM APERTURE SIZE MM GAMMA
FILTER TEMP 0 F -0 TIME FILTER BASE , FOG
1H 3 . L5 7 9 19 13 15 17 19 21CHEM ICAL TTl H li lm li 111 II I H il l Il I I l ilI I 1 li I I I
ANALYSIS 4.0 4.0
3.8 3.8SP GR EMULSION BATCH COMPARISON
H 3.6 - .. 23-173.6
3.4 2430-175 3.4TA
3TPP .2 .3.2
KB, 3.0 3.0
21 2.820 ---
2. 1 6 -1.618
17 17 2.4 --- 2416
15
13.2 2.0
11 - -
10 1.89
8 1 6 1.6
. / ... . . .. 1.46 -- - --- ---- 1.45 -
1.2s . ....--- --3 1.2
1 1.0
.8 .8
Te,,chncolor .6
.4 .4FIGURE 6
ABSOLUTE .2LOG E--
AT R.L.E.- 0
-107 .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0Inr
BEE 20x20 TO INCH
FIGURE 7. Machine Speed*vs. Gamma -
2.4 ± f t - -v ~7IT --- .
2.02430 MX-641 00 F.2430 1 6t1 6 -0 F. - -F
- t-
2 . 2 . ... ......----- .. ... .
1.6~~HT - -I
t 1-W-1 FE-6 MX-641 F.
1.4 2 2 1 80OF
2.04- +4H1-1HI f
243062 MX-641 6F..
4-4-t
4. - -T
-flr V -f
1 .8-I VF -fi --- + 1ff-fl1 1
T- S 112 M4-1 63 0r L t1.6I fft f R1 t l 1
1.4 SR12 SHlRIK{.f~~
108 2064 100 20140
BEE 20x20 TO INCH
FIGURE 8. Machine Speed vs. LinearLog E Range
2.
t +
SR 112 SC01OR 680F. +2.2 f -
2.0 0
FE-2628 MX-641 680F.-
.8
1.a FE-2628 MX-641 800F.
1.6
1.4 -
1.2 0 20 FE-262 x 1 8010 20 F.
SR 112 X- 80.
2430 MX-641 68F. 44- -
6 t - ------ ----. I-
1u 4-
10 --- 0--0
BEE 20U20 TO INCH
FIGURE 9. Gamma vs. Linear Log E. . .. Range (680F.)
q -p r -I -I -I
2.4
SR 112 SCO10OR 680F. --
2.2 -
2.20 ~ ~ t-
2.0 I - - - ~FE-2628 MX-641 60F - - - --- -V -a- -
2. - ij - - - - > - - - -
-1.8
1.6
t - 262 SR 112 MX-66P1 6 0F.
o~f -T- :
W -A
1.2
1.0
+ -4- --- SR 12 m -64
.2 - ----
2430 MX61 6F
. .2 .4 .6 .8 1.0 1.2. 1.4 1.6 1.8 2.0 2.2 24 2.6 2.8 3.0
FI-
-,, --t fl.8
I0 If
.2 --- --- - J.
G+MA :xj-1~
- ~ ~ ~ ~ -2- f4 6 5 0 1 1 . 1 . .2 24 2. 3
BEE 201x20 TO INCH
FIGURE 10. Gamma vs. Linear Log ERange (800F.)
:----H-
2.4
1.0
,--0
SSR 112 SCOOR1 80 80FF.S.6
o+i
0 +82SR 112 F2MX-641 80°F. 0 F------
1.4
2 T 41 0. 0
2 4 .6 .8 10 1.2 14 1.6 18 2.0 2.2 . 2.4 2.6 28 3.0
CONCLUSIONS
I
.The duPont SCOlOR Developer foamed excessively in the Fultron
Processor when used without any additives and when used with the
addition of .05 milliliter of antifoaming agent, tributyl phos-
phate, per liter of SCOlOR developer.
The film/process combinations tested produced the following
range of gammas:
Minimum MaximumFilm Chemistry Gamma Gamma
SR 112 SCO1OR 0.27 .1.06
SR 112 MX-641 0.73 1.38
2430 MX-641 1.40 2.13
FE 2628 MX-641 O.86 1.77
The film/process combinations tested produced the following
maximum linear Log E ranges:
MaximumFilm Chemistry Linear Log E Range
SR 112 SCO10OR 2.40
SR 112 MX-641 1.75
2430 MX-641 1.10
FE 2628 MX-641 2.00
25
For the film/process combinations tested, the Kodak film type
FE 2628 with MX-641 chemistry had the longest linear Log E range
-at a 1.0 gamma.
26
APPENDIX A
DATE Feb 1972 CONTROL # TASK PREPARED BY
duPont
FILM SR 112 EMULSION # MFG EXPIRATION DATE
792-15(XPOSURE DATA 24c89 PROCESSING DATA DENSITOMETRY
SENSITOMETER T-B PS680q PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED (
ILLUMINANT_ 3000 K CHEMISTRY SCO 10R TYPE TD217DR D-MAX
TIME 2 SEc. SPEED TAN KS1,204M APERTURE SIZE MM GAMMA
FILTER none TEMP - 68 TIME- FILTER BASE FOG _
1 3, 5 7 9. 11 13 s15 17 . 19 21
CHEMICAL 4. 10Lli l 11 l[.I 11 li i l l.1 tl1 l1 [ 0i 11 111I 4.0
,-ANALYSIS 4.0
-SP GR .. - 3.8
P• -- __ __ __ - ---- B---- 3.6
•"3.6 . -- 3.6•pH - - - _
++ -A 3.4 3.4
T A
3.2 -. .--- 3.2TRP
3.0 -- 3., t- .KBr
21 2.8 ?.8
20
19 2.6 2.6+18 t_. -
17 4
-2.2 2.2
16 _ - --- - -f -
. 1 _ -- . . . .14
13
12 ..
10 . -:
9
8 1.6 - 1.6
7 : 7 . _I ... . ..--- 7
6 1.4 1.4
5 -- -
44 1.2 -- --. - ... -- .- - -_ ,1.23- --- -, ---
2 -. . : I
1.0 1.
S.8 ----- -- -. - ------ 8---
.6 -- -
.4 .4
ABSOLUTE .2LOG E
AT R.L.E. - - - --
- 10 Ilill Illl l l l Hill I H 1 ~I l l I ll l I l ' * lit l lli lt ll l'iH IH It Hl ill mll! i I tllili 1 l i~ li i
- ASA- MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0T71-21
DATE Feb 1972 CONTROL # TASK PREPARED BY
FILM EMULSION # MFG EXPIRATION DATE
1V2--)UEXPOSURE DATA '- PROCESSING DATA DENSITOMETRY
SENSITOMETER I-B PS6809 PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED )
ILLUMINANT 3000 OK CHEMISTRY SCO 10R TYPE TD217DR D-MAXTI 10,20,40 4
TIME 2 SEc. SPEED TANKS. FPM APERTURE SIZE . MM GAMMA
FILTER none TEMP OF E0 TIME FILTER . Visual . BASE - FOG-
1 3 5 7 9 11 13 15 17 19 21CHEMICAL
%ANALYSIS 4.0 4.0
38 ' , -3.8SP GR
pH 3.6 - 3.6
TA 3.4
TRP .2 3.
KB 3.0
21 2.8
20
19 2.6 --
18
17 2.4 - - 2416
15 - -- ... - --4- 2.2 -- -- 2.2
143
1312 2.0 . 2.0
10 1.8 -- - -- 1.8
9
8 1.6 -7-- 1.6
6 1.4 1.45
4S1.2 - -------- 1.2
2S1.0 1.0
.8 -- .8
.6 - - -. 6
Technicolor
.4 _ .4
ABSOLUTE .2 .-LOGE --
AT R.L.E. - 0 -
-10 I
NASA - MSC Z .3 .6 .9 1.5 1.8 2.1 2.4 2.7 3.0T71-21 -
DATE Leb_1 0 CONTROL I TASK PREPARED BY
FILM SR 112 EMULSION # 150-3 MFG EXPIRATION DATE
7 9 2-l 5 4XPOSURE DATA 2489 PROCESSING DATA DENSITOMETRY
SENSITOMETERI-B PS6809 PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED(
ILLUMINANT .3000 OK CHEMISTRY MX-641 TYPE TD217DR D-MAX
TIME 1/2 sEc. SPEED TANKS O1,20,4QM APERTURE SIZE MM GAMMA
FILTER none TEMPOF 6- . TIME FILTER Visual BASE - FOG _
1 3. 5 7 9 11 13 15 17 19 21CHEMICAL 4.0ANALYSIS
3.83SP G R
3.6 3.6PH
3.4 3.4TA 3.
-7 - R..3 3.2
S19 2.6 2.618
177 2.4 -2.416
1s2.2 - - 2.2
14
13
12 2.0 2.0
10 1.8 1.89
8 1.6 1.6
7
1.2 - ------ 1.32
1.0 1.0
.8 .8./ /k---rt-
.6 .6Technicolor--
4 4
ABSOLUTE .2 -- .LOG E
-
AT R.L.E. O-
- 10 I llll l
T721 NASA- MSC .3 .6 .9 1.21.2 1 1.8 2.1 2.4 2.7 3.0771-21 ;AA2
. . .
:DATE Feb 1972 CONTROL I TASK PREPARED BY
FILM SR 112 EMULSION 1 150-3 MFG EXPIRATION DATE
792-150EXPOSURE DATA 2489 PROCESSING DATA DENSITOMETRY
SENSITOMETERI-B PS6809 PROCESSOR Fultron # 1 _IINSTRUMENT Mac Beth SPEED (
ILLUMINANT 3000 0 K CHEMISTRY MX-641 TYPE TD217DR D-MAX
TIME 1/2 SEc. SPEED T-AN_ TANKS10, 2 0,-~.i APERTURE SIZE - MM GAMMA
FILTER none TEMP nF 80 TIME FILTER Vs BASE ,-FOG
1 3 5 7 9 11 13 15 17 19 21CHEMICAL
ANALYSIS 4.0 4.0
SP GR 3.8
pH 3.6 3.6PH
TA 3.4
TRP 3.2 3.2
3.0 - - 3.0-K B,
21 28 '.820
19 2.6 i18
17
16
2.2 2.214
13
12 2.0 2.011
10 1 _ 1.8
9
8 1.6 -- - 1.6
6 .1 4 ' 1.45
41.2- 1. _ -- . -- -.---- -- .2
.8 . - , .8
.Tech.colo -- -4 / -- - -- _ -- - 4f
.4 .4
ABSOLUTE 2 __LOG E
AT R.L.E. --- _ - . ...
-10 .l lN MllS i ]l . I6 HF .2i 1.5iHi' 1.8l tl 2.1 242.73.il0lll i 1 11t H i! i
NA A - MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0771-21 30
DATE Feb 1972 CONTROL # TASK PREPARED BY
FILM 213 0 EMULSION # 178-1 MFG EXPIRATION DATE
7 9 2 1 5 XPOSURE DATA 2kA9 PROCESSING DATA DENSITOMETRY.SENSITOMETER I-B PS6809 PROCESSOR Fultron # 1 INSTRUMENT Ma Beth SPEED (
ILLUMINANT 3000 oK CHEMISTRY MX-641 TYPE TD217DR D-MAX .TIME 1 SEc. I SPEED TANKS-1
20 1
4QPM APERTURE SIZE 4 MM GAMMA
FILTER none TEMP F 68 TIME FILTER Visual BASE FOG..
1 3 , 5 7 9 11 13 15 17 19 21-CHEMICAL ll: lIi i i lllil H illH I Illil il llHIl i IiA 1HIM , ill i li
ANALYSIS4.0 4.0
SPGR 3.8 - 3.8SSP GR
3.6 - 3.6
TA .4 - - 3.4
3.2 -,- - 3.2
KB 3.0 3.0
21 2.8 -f ?.8
20
69 2.6. 2.618
17 242.4 . -7 2.4
16
15_.2 - 7 2.2 .
14
13
12 2.0 2.0
11
10 1.8 • 1.8
9
8 1.6 . ---- - 1.6
7
6 4 . 1.45/
4 1 .2 --- - / -1 .2
2
.86 - - - .6
Technricolor
.4 -- ~v-- .
ABSOLUTE .2 .2LOG E
AT R.L.E. O 0
-10-10 3!! 6illi 1.i II 2 lill2i i3.ill0 ill0li ill 11111 I llllll lllli i Ul 110 i iI! ii lli I I Hlil l!i !l i H i H
TA1-2as -MSc .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0T71-21 31
DATE Feb-1972 CONTROL # TASK PREPARED BY
FILM 2430 EMULSION # 178-1 MFG EXPIRATION DATE
92-150 EXPOSURE DATA 2089 " PROCESSING DATA DENSITOMETRY
SENSITOMETER T-J PS6R09 PROCESSOR FPir.trnn # 1 INSTRUMENT MacBeth SPEED(
ILLUMINANT 3000 oK CHEMISTRY MX-6L1 TYPE TD217DR D-MAX
TIME 1 SEC. SPEED TANK~O20, 4qpM APERTURE SIZE 4 MM GAMMA
FILTER none TEMP OF 80 TIME FILTER Visual BASE i+ FOG
1 3. 5 7 9 11 13 15 17 19 21CHEMICAL III].nmi l l influl m ail l r 11111 0 1111111 111m limt Inm n:!iMl jlj lJn M i i .ill ill ] I HJ 4CHEMICAL4.0
-ANALYSIS 4.0
SP GR 3.8 3.8
pH 3.6 3.6
3.4 .3.4TA
TRP 3.2 -- - .2
KBr 3.0
1918 , .. .6 _ ,-----2 .
18
172.4 2.4
16
154 2.2 2.2
13
12 2.0 .- 2.0
o10 1 .8 - - 18
9
• . - . . .-- -_ -- . 67
6 1.4 1.4
1.2 1.2
2 -
.8 .8.,---
.6 - . .6
Technicolor -
.4- --- _ - .. ..
ABSOLUTE .2LOG E
AT R.L.E. -. 0- -
NASA- MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0T71-21 3.1 '
DATE Feb 1972 CONTROL # TASK PREPARED BY---
FILM 2430 EMULSION # t'7c5-11 MFG EXPIRATION DATE
792-150EXPOSURE DATA 2489 PROCESSING DATA DENSITOMETRY
SENSITOMETERI-B PS6809 PROCESSOR Fultron # 1 INSTRUMENT NacB u SPEED (
ILLUMINANT 3000 _KICHEMISTRY MX-641 TYPE TD217DR D-MAX
TIME 1 sec. SPEED TANKS 0,2- 4M APERTURE SIZE MM GAMMA
FILTER none TEMP OF _ TIME FILTER Visual BASE t FOG
3 /5 7 9 11 13 15 17 19 21
.:-CHEM ICAL j Tl i I llTI IITHlM|ill l Illll 111 U l111 I III lli l [ll lzANALYSIS 4.0
4.0
3.8 3.8- - I T-I- I - f tl38SP GR
pH
H 3.6 , ' . .. 3'"6
S3.4 " " '3TA. 3 ..
TRP 3.2 .3 -.. - ----- .2.TRP
j .0 , 3.0KB,
21 2. -- ' ' '-- -~ "*8
20
19 .6 -- 2.618
-2.4 2 .416
15' .215 - - 2.214 --
13
12 "/ -1.0 -11
o10 1.8 1.89 --- --- ------- 1.6
8 1.6 1.6
7
6 . - / - 1.4
4
"-- -- : - -- "F t'-;L-- ' "-- -f- - -.. ... -- -:£ :- - E-- -.--:.-..
-- 8. ----'- ' - .. . . ..___ z_- __ -:-~ :_.*v_:L--- L31.2 -- ---.. .- _.1.2
12
"8 " [--/I, I., - _fttft; t; L. 1.
8-- -i6S;;F~; -/ / " -- ------- . --. .
.6 -.Techricolor
.4 .4---'----'-- - ------- _
ABSOLUTE .2 - .. 2LOG E
AT R.L.E. O
- 10 lff II l ll llil I li i' ill i l il ' i l lil l I I I lln n il l ll I li
.7 R-21NAAMSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0T71-21
DATE Feb 1972 CONTROL # TASK PREPARED BY
2430 175-25FILM EMULSION # MFG EXPIRATION DATE
792-15EXPOSURE DATA 2489 PROCESSING DATA DENSITOMETRY
SENSITOMETER I-B PS6809 PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED ( )
ILLUMINANT 3000"K CHEMISTRY M IX-641 TYPE TD217DR -MAX
TIME 1 SEC. SPEED _ TA.NKLO"20'4F 4 PM APERTURE SIZE 4 MM GAMMA.
FILTER none TEMP OF.~LTIME I FILTER Visual BASE - FOG _
1 3 5 7 9 11 13 15 17. 19 21CHEMICAL il 4.0
ANALYSIS 4.0
3.8 - 3.8SP GR
3.6 " t .. 3.6PH
TA 3.4 3.4
'32- 3.2TRP 3.2
K 3.0 - 3.0
21 2.8
20 --
2..6 - 2.618
17 2.4 7 .. 2.416
1514 2.2 ------" -- 2.2
13
12 2.0 - 2.0
11 - ---
9
8 1.6 - -_ - 1.67_ ,-
1.4 -- -- 1.4
1.2- ---. 2
2
1.0 1.0
.8 -/ .8
.6 -- - .6Technicolor-
.4 / - -i / _ .7 .. ......
ABSOLUTE .2 __c - - -'.2LOG E
AT R.L.E.- 0 ------ - -
- 10 Ili Ill ll Il Il i 4li
T71-21 NASA- MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.071-21 34
DATE . M-rrh 7" CONTROL# 9 " TASK HT- 36 PREPARED BY E. Wei7.er
FILM _EEZ-22a EMULSION # MFG E.K. Co. EXPIRATION DATE
792 EXPOSURE DATA 2489 PROCESSING DATA DENSITOMETRYSENSITOMETER 1. I PROCESSOR Full-ron INSTRUMENT Macbeth SPEED(ILLUMINANT 3000 "K CHEMISTRY MX-641 TYPE T a 403 . D-MAXTIME 1/2 SEc. SPEED_ TANKS" FPM APERTURE SIZE 4 MM GAMMA
FILTER nonP- TEMP "F-6_TIME FILTER Visual BASE - FOG
S 3 . 5 7 9 11 13 15 17 19 21,CHEMICAL-ANALYSIS - 4.0
SP GR 3.8 3.8
H 3.6 3.6
TA 3.4 3.4
KB, 3.0 3.0
21 2.8
20
.19 - -- 2.618
172.4 - -- -F- 2.4
16
152.2 - _7 n -- 2.2
14 2
13
12 2.0 - 2.0
10 1.8- - 1.8
9
1.6 - - -- 1.6
6 1.4 - --- 15
4
21 1.0 - 1.0
LOG E .2AT R.L.E-
9, 4 c/~ -10 ll
T71-21 NASA-MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.035
DATE 21 Mr--,ch -72 CONTROL# 9 5" TASK 4t- -r PREPARED BY E. Weie7 -
FILM FP7 AF22 EMULSION # MFG .. ,, EXPIRATION DATE
792 EXPOSURE DATA 2489 PROCESSING DATA DENSITOMETRY
SENSITOMETER 1-B PROCESSOR Fultron INSTRUMENT Macbeth SPEED (
ILLUMINANT 3000 "K CHEMISTRY Mm-641 TYPE TD 403 D-MAX
TIME - 1/2 SEc. SPEED TANKS FPM APERTURE SIZE 4 MM GAMMA -
FILTER None TEMP OF.80 TIME FILTER Visual BASE - FOG _
1 3 ,5 7 9 11 13 15 17 19 21CH EM IC A L j il l tilllllH i ll I l il lii [I1H Il lH I i[ liffl H 1f i
ANALYSIS 4.0 - 4.0
SP GR 3.8 3.8
3.6 - 3.
TA 3.4 , -"3.4TA
TRP .2 3.2
KB .0 3.0
20
19. - - .618
17 2.4-- -16
152.2 - .. -I2.2
14
13
12 2.0 __•-. 2
10 1.8 -- - - 1.8
5 - 7 - - -- - - -- - - - -- ------S1,6 -- --- - 1.
LOG E
.4 .6 . 2.1 2.4 21.7
3636
DATE Feb 1972 CONTROL # TASK PREPARED BY
FILM 2422 EMULSION #. MFG EXPIRATION DATE
792-15(xPosuRE DATA 2489 PROCESSING DATA DENSITOMETRY
5ENSITOMETERI-B PS6809 PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED )
ILLUMINANT 3000 OK CHEMISTRY MX-641 TYPE TD217DR D-MAX
TIME sEc. SPEED TANK J-LO20QPM APERTURE SIZE MM GAMMASFILTER none TEMP OF 80 TIME FILTER Visual BASE + FOG
1 3 5 /7 9 11 13 15 17 19 21CHEMICAL II ItmI 1 01[ 1 lll0ll i il H ll i. 1 lllilllLmI Il l Il w !!wIillml wim 1111 1.! I i 4.0illANALYSIS 4.0
.
3.83.SP GR
pH .36
.
3.4 --------- 3.4TA
TRP 3.2 .. - .3.2TRP
B, 3.0 3.0KB,
21 2.8
20
19 2. , . . -- -- 2.618 F
17 , ., 2. 416
14
13
2.0 2.012 1" I
5d - ...... --8 1.- " "r-t- -- t - ~ -- t---- -+-t+- - '-- .t--i :-:-
s
6 - , - .6
.4, i , -- r-ff a-~-- --- 4-- ! --- --- --- _-- .
4.
ABSOLU T E .2
LOG EAT R.L.E. O -
-1 H i l Im liili!II m lH I 1 H I II HiHt~ l Hlt~ i Hill HUll Tlii
1.20NASA-- MSc .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0
.6-2 .6
APPENDIX B
DATE Feb 1972 CONTROL I TASK PREPARED BY
SR 112FILM EMULSION # MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER Niagara PROCESSOR Fultron # 1 INSTRUIMENTMacBeth SPEED ILLUMINANT _K CHEMISTRY SCO 10R TYPE TD217DR D-MAX
TIME - SEc. SPEED TANKO, _Q.PM APERTURE SIZfl..__ MM GAMMA
FILTER TEMP OF 6_ TIME FILTER a BASE i- FOG _
1 3 7 9 11 13 15 17 19 21CHEMICALANALYSIS 4.0 1 I 4.
i. , - ~- -f F- i i !--3.SP GR 3.8
H 3.6 -- 3.6, '
TA 3.4 - 3.4
TA
3.2 -- 3.2
KB, 3.0 3.0
21 2.820
19 2.6 2.618
17 2.4 2.416
1514 2 - . -2.2
14
13
12 2.0 - 2.0
11
1 8 - - - 18
9 18 1.6 - - 1.6
7
S14 1 .45
1.2 1.23
2
110.
.8 . - .8
.6 .6
Technicolor -
.4 -..-I--.. .4
ABSOLUTE 2LOG E 2
AT R.L.E. 0 - .
-10 illmll ,tlli illi tl ll H i i linlHilIII lll 1111 1 i iHIith - - 1il- l 111111111
TA71-21 SA- MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0?71-21N e%
DATE Feb 1972 CONTROL # TASK PREPARED BY
FILM SR 112 EMULSION # MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER Niaara _ PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED (ILLUMINANT -K CHEMISTRY SCO 10R TYPE TD217 DR D-MAX
TIME SEc. SPEED TAKS,2O0 o APE RTURE SIZE _MM GAMMAFILTER TEMP OF 80 TIME. FILTER" Visual BASE FOG
TIM FILERBASE i- FOG -
S3. . 5 7 9 11 13 s15 17 19 21CHEM IC AL ll i Ii 11 1111111111 111 H lil I n l l M 1 1 1HANALYSIS 4.0 4.0
3.8 - -- ;----- F -- 13.3SP GR
H 3.6 - - 3.6pH
"... ' .. 3.4 .... ... 4TA
3.2 21 2TRP
17 2.4 3 .4KBr .
2. .. . .• .
': -- ~g . , -, .:, ; i , •- , - ---- .~---
20
19 . .. 6 ' . ' " .. ' " : * ' ' , ' : 2.0
17S. , . . •.4
16
152.2 - 2.2
14
13
12 2.0 2.0
I
..8 1.8
9
18 ,b].1.6 1 .6I
7
6 1.4- 1.4
43 1. - 12 . r-: .
.:: 61.0 . .. .+.. . 1.0
-.. 8
.6 .6Techcolor/-
.4 " -,t ,"= -. ...... 4
ABSOLUTE .2 .LOG E-
AT R.L.E. - 0
-10
771-21 NA5A - MSC V~- .3 .6 .9 3192 .5 23 .4 2.7 3.0
:DATE Feb 1972 CONTROL # TASK PREPARED BY
-FILM SR 112 EMULSION # MFG " EXPIRATION DATE
3400 EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER Niagara PROCESSOR Fultron # 1 INSTRUMENT MaRcRth. SPEED (
ILLUMINANT 'K CHEMISTRY MX-641 TYPE TD217 DR D-MAXTIME 10,20,40
TIME SEC. SPEED_ TANKS FPM APERTURE SIZE MM GAMMA
FILTER TEMP F __8 TIME _ FILTER Visual BASE . FOG _
1 3 f 5 7 .9. 11 13 15 17 19 21CHEMICAL. H l HU.!HHH (il H III ill ll (HIIl1 ilH HANALYSIS 4.0 4.0
SP GR 3.8
3.6 - 3.6
TA 4. I 3 .4
TRP .
S3.0 0 " "'KBr
21 2.8 -
20
19 2.6 2.618
17
2.4 14--
13
12 2.0 - . 2.0
10 1.8 1.8
" . . I .-.--- -I-- I I r r = 79
6 1.6 1.676 1.4 1.4
1.2 1.2
.6 .6
.4 - - - .4
ABSOLUTE 2 - .2LOG E
AT R.L.E. O -
- 10 i Iill iIll
T71-2 rASA- MSC .3 .6 .9 1.2 1.5- 1.8 2.1 2.4 2.7 3.0An
DATE Fheb 1972 CONTROL # TASK PREPARED BY
FiLM SR 112 EMULSION # MFG EXPIRATION DATE
3400 EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER Niagara PROCESSOR Fultron # 1 INSTRUMENT MacBeth SPEED(
ILLUMINANT _._K/CHEMISTRY MX-641 TYPE TD217DR D-MAX .
TIME SEC. SPEED_ n 2 0 PM APERTURESIZE 4 MM GAMMA
FILTER TEMP 0F TIME FILTER Visual BASE - FOG
1 3. 7 9 11 13. 15 17 19 21..CHEM ICAL . . __ _ .. ...-C H E M IC A L IM 11 lll I 111: IIIU III IlI 11 1111 lm ill ill 11 I Im i illiI I III m II IUil. j i l 1 HI II i ll 11111
ANALYSIS
SP GR 38 3.8
p 3.6 3.6
TA 3.4 - .4
3.2 3.2TRP 2 3.2
KBr .0 3.0
21 2.820
19 2.6 " . 2.6
18
17 .17 2. -- " --- -/- / 2.416
151. 2.2 7 - - " / _ - . .. 2.2
13
27 2. 2.0
12.2
11 / ,
S 1. - . 1.8
1.6 ..
.4 4
ABSOLUTE ,. .2LOG E
AT R.L.E- 0
121 41271-2141
DATE Fe'h 1972 CONTROL # TASK PREPARED BY
FILM 2430 EMULSION # MFG EXPIRATION DATE
3400 EXPOSURE DATA PROCESSING DATA DENSITOMETRYSENSITOMETER Nqca. PROCESSOR Fllt'rnn 1Y INSTRUMENT la.cBeth SPEED ( )ILLUMINANT oK CHEMISTRY MX-641 TYPE TD217DR D-MAX
TIME SEc. SPEED TANK -(LO"2049tPM APERTURE SIZE 4 MM GAMMA
FILTER TEMP OF 68 TIME FILTER Visual BASE -FOG
3 5 7 9 11 13 15 17 19 21:CHEMICALl I I l I ll l lI il
--ANALYSIS 4.0 4.0
S3.83.SP GR 3.
3.6 3.6pH I
3.4 3.4TA
S3.2TRP 3.2 .2
KB, 3.0 3.0
21 2.8 n20
9 "--19 1 2.6 2.618
1 7 2 4
16
1515 2.2
14 2..2 2.2
1311' '--- -- t t..
12 202.0
10 1.8 1.89
S1.6 __ 1.67
6 1.4 1.45 ---4 _ ..
3 .2
221 1.0_ 1.0
.8
.6 -- Z --L - . . .. .
.6 .6Technicolor4 .4
7f
ABSOLUTE .2 - -- -.LOG E
AT R.L.E. 0 -
- 10 t 1 1 11i il I1 1il 1 1i. H I! I I l ili n1-1NASA -Mse .3 .6 .9. 2 1.5 1.8 2.1 2.4 2.7 3.0
41
DATE - g .CONTROL # TASK PREPARED BYbU J7 4 -_
FILM - 2430 EMULSION # MFG EXPIRATION DATE
3400 EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER Nia rram PROCESSOR Fultron # 1 _INSTRUMENT M,-RB'th SPEED ( )ILLUMINANT OKICHEMISTRY MX-641 TYPE TD217DR D-MAxTIME SEC. SPEED TANKrJ0,20,4Q Pm APERiURE SIZE MM GAMMA
FILTER TEMP 0F -0 TIME FILTER 'Viua l BASE c FOG1 3. 5 7 9 11 13 15 17 19 21
C H EM ICA L .'III liffifl 1i l II HMi ll H III IIIII H IfI l l f i ll il lIH H I111111 P f : (Il tiff ill i II I li f ill4ANALYSIS 4 0 4.0
SP GR 3.8 , . -- .8
3.4 3.4TA3
3.2 -3.2TRP
Kr 3.0 3..0 _
KB,
21 1.a8 _ - - .
2019 1 t , -;2.661817
2.4 2 .416
15- .2 2.2 - -r i _1
14
13
12 2.0 2.0
1010 " 1.8 - ' --- 1.8
9
"7 , ,T ,l -I -/ +__ _ _.r __ _ _
8 1.6 1.67
1.4 1.45
3 - - 1.2 1.2
., 2 --- /--.0
" " .8__ / / / __ --- :.0.--. 8
.6 -. 6Technicolor
4 .4
ABSOLUTE .2 -LOG E-
A T R.L ,E. 0 -- -
-10 'Ti7 I ' il li i l tlll i ll illll lil7t ll I I lim n
771-21 NASA-MSc .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0
DATE Fph 1q72 CONTROL # TASK PREPARED BY
FILM 2422 EMULSION # 11-19 MFG EXPIRATION DATE
EXPOSURE DATA PROCESSING DATA DENSITOMETRY
SENSITOMETER Niagara PROCESSOR Fultron #1 INSTRUMENT MaCBeth SPEED( )
ILLUMINANT OK CHEMISTRY MX-641 TYPE TD217DR D-MAX
TIME SEC. SPEED TANKS 1020OMI APERTURE SIZE MM GAMMAVisuaf--
FILTER TEMP F 80 TIME FILTER BASE t FOG
1 3 S 7 9 11 13 15 17 19 21-CHEMICAL li il WH ll I l Hm H i( ill i IANALYSIS .0 4.0
3.8 - 3.8S P G R ..
3.6 _ 3.6
3.4 3.4TA
3.6 - " ' .... -3.2TRP 3.2
S 3.0 - - 3.0KB ,
21 2 .
20
19 2.6 . . -2.618
17 . " -S1 -2.4 -.- 42.4
16
15-- 2- 2.2 - 2
14
1312.0 -- " Jm \ " 2.012
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AT R.L.E.- 0
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1-r2 ASA - MSC .3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0
APPUTDIX c
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB SC010R 10 fpm 680F
4.0-------------------I
3.57I
I I
3.00*
GoaG
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1.5r .o ..9 - " 12
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.3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB SC01OR 20 fpm 68 * F
4.0 -- ---- - - --------I II
I
3.5-7
030. 0 -
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2.0 |2 5*5
1.
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46
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB SCO10OR 40 fpm 68°F
4.0- -- - - -
I
I
3.5-
3.0&
I .
II
2.5I
I
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4747
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB SCOlOR 10 fpm 80 0 F
4 .0- -. .,
3
2.5-
2 .
3.0 5
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S.+ .
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48
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB SCOO1R 20 fpm 80 0 F
4.0- -. -
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.3 .6 .9 1.2 1.5 1.8 2.1 2.4 2.7 3.0
49
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB SCO1OR 40 fpm 800 F
,4.0----------------------
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2 .57
t I
5
3.0*
I
1109
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1.504.ti
50
TECHNICOLOR SENSITONETRIC REPORT
SR-112 IB MX-641 10 fpm 68 0 F
4.0----------- ----- --- -I
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3.57
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51
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB MX-641 20 fpm 68 0 F
4.0-
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3.5Tt
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52
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB MX-641 40 fpm 68°F
4.0- - - - - - - - - -I
3.5-I
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53
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB MX-641 10 fpm 80*F
4.0-
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3.54
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TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB MX-641 20 fpm 80*F
4.0---------------- -------
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55
TECHNICOLOR SENSITOMETRIC REPORT
SR-112 IB MX-641 40 fpm 80*F
4.0- - - - - - - - - - - - - - - - - - - - -
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56
TECHNICOLOR SENSITOMETRIC REPORT
2430-178 IB MX-641 10 fpm 6.8 F
4.0------ ------- -------------- ---
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TECHNICOLOR SENSITOMETRIC REPORT
2430-178 IB MX-641 20 fpm 680 F
4.0- - - - - - - - - - - - - - - - - - - - -
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58
TECHNICOLOR SENSITOMETRIC REPORT
2430-178 IB MX-641 40 fpm 68 0 F
4.0-I
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59
TECHNICOLOR SENSITOMETRIC REPORT
2430-178 IB MX641 10 fpm 80 0 F
4.0- - - - - - - - - - - - - - - - - - - - -
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TECHNICOLOR SENSITOMETRIC REPORT
2430-178 IB MX-641 20 fpm 800 F
4. 0- - ---------------- -I
1
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3.57
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1 6
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61
TECHNICOLOR SENSITOMETRIC REPORT
2430-178 IB MX-641 40 fpm 80 0 F
4.0- ------------- -------
3.5
2.5,
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62
TECHNICOLOR SENSITOMETRIC REPORT
2430-175 IB MX-641 10 fpm 68 deg.
4-0- - - -- -- - --- - - -4.0-
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63
TECHNICOLOR SENSITOMETRIC REPORT
2430-175 IB MX-641 20 fpm 68 deg.
4.0- ----- ------------I
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64.
TECHNICOLOR SENSITOMETRIC REPORT
2430-175 IB MX-641 40 fpm 680 F
3.5T
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65
TECHNICOLOR SENSITOMETRIC REPORT
2430-175 IB MX-641 10 fpm 80 0 F
-4., O- - - -
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66
TECHNICOLOR SENSITOMETRIC REPORT
2430-175 IB NX-641 20 fpm 80*F
4.0- - - - - - - - - ---- ---
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67
TECHNICOLOR SENSITOMETRIC REPORT
2430-175 IB MX-641 40 fpm 80°F
-4.0---------------------
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68
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TECHNICOLOR SENSITOMETRIC REPORT
FE-2628 IB MX--641 10 fpm 68 0 F
4.0-I
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6969
TECHNICOLOR SENSITOMETRIC REPORT
FE-2628 IB MX-641 20 fpm 68.F
4.0---- -------- ---- ---- -------------
3.0 m&I
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TECH-NICOLOR SENSITOMETRIC REPORT
FE-2628 IB MX-641 40 fpm 68 * F
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TECHNICOLOR SENSITOMETRIC REPORT
FE-2628 IB MX-641 10 fpm 800 f
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TECHNICOLOR SENSITOMETRIC REPORT
FE--2628 IB NX-641 20 fpm 80*F
4 0-
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TECHNICOLOR SENSITOMETRIC REPORT
FE--2628 IB MX-641 40 fpm 80 0 F
A,4 .0 - - -. . . . . . .-
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APPENDIX D
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