ISO 10602:1993

I N T E R NAT I O NA L IS0
STANDARD
10602
First edition
1993-03-01
Photography - Processed silver-gelatin
type black-and-white film - Specifications
for stability
Photographie - Film de type gélatino-argentique noir et blanc traité -
Spécifications pour la stabilité
Reference number
IS0 10602:1993(E)

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IS0 10602:1993(E)
Contents
Page
1 Scope . 1
2 Normative references . 1
3 Definitions . 1
4 Requirements for the film base . 2
5 Requirements for the processed film . 2
5.1 Safety film . 2
5.2 Amount of free acid . 2
5.3 Tensile properties and tensile properties loss . 2
6 Requirements for the emulsion and backing layers of processed
film . 3
6.1 Layer adhesion . 3
6.2 Emulsion flow . 3
6.3 Blocking . 3
6.4 Thiosulfate concentration . 3
6.5 Residual silver compounds . 3
7 Image stability . 4
7.1 Radiographic films . 4
Microfilms . 4
7.2
7.3 Other films . 4
8 Test methods . 4
8.1 Identification of film base . 4
8.2 Accelerated ageing conditions . 4
8.3 Determination of the amount of free acid . 5
8.4 Tensile property test for processed films . 5
8.5 Tape-stripping adhesion test . 6
(6 IS0 1993
All riahts reserved . No Dart of this aublication mav be rewoduced or utilized in anv form or
by any means. electronic or mechanical. including’photocopying and microfilm. without per-
mission in writing from the publisher .
International Organization for Standardization
Case Postale 56 CH-I21 1 Genève 20 Switzerland
Printed in Switzerland
II

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IS0 1 0602: 1 993 (E 1
8.6 Humidity-cycling adhesion test . 6
8.7 Emulsion flow test . 7
8.8 Blocking test . 7
8.9 Residual silver compound test . 7
8.10 Image stability test . 7
Annexes
A
Preparation of standard tetrabutylammonium hydroxide . 9
B
Washing and the effect of residual thiosulfate on the developed silver
image . 10
C Effect of residual silver compounds on the developed silver
image . 11
D Microscopic spots and blemishes . 12
E
Emulsion adhesion . 13
F
Accelerated image stability test for radiographic films . 14
G
Accelerated image stability test for microfilms . 16
H
Bibliography . 18

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IS0 10602:1993(E)
Foreword
IS0 (the International Organization for Standardization) is a worldwide
federation of national standards bodies (IS0 member bodies). The work
of preparing International Standards is normally carried out through IS0
technical committees. Each member body interested in a subject for
which a technical committee has been established has the right to be
represented on that committee. International organizations, governmental
and non-governmental, in liaison with ISO, also take part in the work. IS0
collaborates closely with the International Electrotechnical Commission
(IEC) on all matters of electrotechnical standardization.
Draft International Standards adopted by the technical committees are
circulated to the member bodies for voting. Publication as an International
Standard requires approval by at least 75 % of the member bodies casting
a vote.
International Standard IS0 10602 was prepared by Technical Committee
ISO/TC 42, Photography.
This first edition cancels and replaces both IS0 4331:1986, which covered
archival film on cellulose ester base, and IS0 4332:1986, which covered
archival film on poly(ethylene terephthalate) base. It constitutes a consoli-
dation and technical revision of these and, in addition, the scope has been
extended to include archival use of radiographic film and microfilm and
"medium-term" and "long-term" uses of all these films.
Annex A forms an integral part of this International Standard. Annexes B,
C, D, E, F, G and H are for information only.

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IS0 10602:1993(E)
Introduction
Since 1930, great advances have been made in the use of photographic
films for the preservation of records. The preservation of film records by
governments, banks, insurance companies, industry and other enterprises
has been stimulated by a recognition of the economies in storage space,
organization, accessibility, and ease of reproduction that results from the
use of film records.
During the early development period of the art of copying documents,
35 mm nitrate motion-picture film was sometimes used. This material is
highly flammable and deteriorates rapidly under unfavourable storage
conditions. Nitrate film is not suitable for film record use. The manufacture
of nitrate film declined after World War II and was discontinued in most
countries in the 1950's.
For many years the only safety films in commercial use were made on
some type of cellulose ester base such as cellulose acetate, cellulose
acetate propionate or cellulose acetate butyrate. The.useful life of safety
cellulose-ester-type films is somewhat conjectural, since actual experience
with commercial material extends back only to about 1908. However,
these materials show severe degradation when exposed to high tem-
peratures and particularly to high humidities [Il 141, Laboratory incubation
studies predict a useful life of several centuries[ll when stored under
recommended conditions.
A second type of polymer safety film base belonging to the polyester
class, known chemically as poly(ethylene terephthalate), was introduced
commercially in 1956. This material has a number of advantages over the
cellulose ester base such as greater strength, stiffness, tear resistance,
flexibility, dimensional stability, and other characteristics, which make it
121 [31. Actual experience with
superior for many photographic applications
polyester film is considerably shorter than with cellulose ester film al-
though this material has been used for over 35 years. However, core set
can create problems for some film types and adhesion was not completely
satisfactory on some of the early polyester products (see annex E). Prac-
tical experience gained to date and accelerated ageing tests indicate that
this film support is more stable than safety cellulose ester film base
il1 141.
More recent studies on the stability of silver-gelatin type films investigated
the effect of residual hypo on the image permanence of radiographic
films [51 and microfilms [61. This work suggested modifications to the re-
sidual hypo limits and a more quantitative image stability test than given
in IS0 4331:1986 and IS0 4332:1986. These changes are included in this
International Standard. Additional studies are underway on other film types
and future editions of this International Standard will include these when
stability data become available. Currently, radiographic films, microfilms
and "other" films are described. The scope of the "other" category should
narrow as additional categories are specifically defined. Three levels of
V

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IS0 10602:1993(E)
stability are specified - medium-term, long-term and archival, following
the definitions given in IS0 5466.
This International Standard is intended to eliminate possible hazards to
permanence attributable to the chemical or physical characteristics of the
processed film. Some of these characteristics are the responsibility of the
film manufacturer, some of the film processor and some are influenced
by both. However, specifying the chemical and physical characteristics of
the material does not, by itself, ensure satisfactory archival behaviour. It
is essential to provide proper storage temperattire and humidity and pro-
tection from the hazards of fire, water, fungus and certain atmospheric
pollutants. Storage conditions for archival films are specified in IS0 5466.
vi

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INTERNATIONAL STANDARD IS0 10602: 1993(E)
Photography - Processed silver-gelatin type
black-and-white film - Specifications for stability
are subject to revision, and parties to agreements
1 Scope
based on this International Standard are encouraged
to investigate the possibility of applying the most re-
1 .I This International Standard establishes the
cent editions of the standards indicated below.
specifications for photographic films intended for
Members of IEC and IS0 maintain registers of cur-
medium-term, long-term and archival records; specifi-
rently valid International Standards.
cally, safety cellulose ester-base and polyester-base
[poly(ethylene terephthalate)] films having silver-
IS0 5-21 991, Photography - Density measurements
gelatin emulsions processed to produce a black-and-
- Part 2: Geometric Conditions for transmission
white silver image by negative, or full reversal
density.
processing.
IS0 5-3: 1 984, Photography - Density measurements
1.2 This International Standard does not apply to
- Part 3: Spectral conditions.
films with colour images of any type, to silver images
that have been altered by treatments such as toning,
IS0 41 7:-*), Photography - Determination of re-
intensification or reduction, nor to films with a mag-
sidual thiosulfate and other related chemicals in proc-
netic recording track. It does not apply to films with
essed photographic materials - Methods using
silver images produced by dry or thermal processing
iodine-amylose, methylene blue and silver sulfide.
or by diffusion reversal or partial (halide) reversal
processing. It does not apply to films that have been
IS0 543: 1 990, Photography - Photographic films -
processed by a monobath or by those reversal pro-
Specifications for safety film.
cesses that combine a developer and fix into one
solution. It is not applicable to films where the silver
IS0 1 184: 1 983, Plastics - Determination of tensile
salts are removed by other than thiosulfate properties of films.
solutions [7].
IS0 5466: 1992, Photography - Processed safety
photographic films - Storage practices.
1.3 This International Standard does not apply to
films to which lacquers have been applied.
3 Definitions
1.4 This International Standard applies to films hav-
ing ultrasonic or dielectric (induction heated) splices. For the purposes of this International Standard, the
It does not cover films with splices made by means following definitions apply.
of adhesive tape or solvent type splices1).
3.1 archival storage conditions: Conditions suit-
able for the preservation of photographic film having
2 Normative references
permanent historical value.
The following standards contain provisions which,
NOTES
through reference in this text, constitute provisions
of this International Standard. At the time of publi- 1 Archival storage conditions will prolong the useful life
cation, the editions indicated were valid. All standards of both archival and non-archival films.
1) Solvent type splices are not recommended since they can retain traces of residual solvents containing peroxide which can
pose some risk of oxidative attack on the silver image.
2) To be published. (Revision of IS0 417:19771
1

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IS0 10602:1993(E)
2 The term "archival" as used in photography and defined
5 Requirements for the processed film
as in this International Standard is frequently being misap-
plied in related fields of imaging. ISO/TC 42 will therefore
5.1 Safety film
replace the term "archival storage" with "extended-term
storage" or specify a "life expectancy (LE)" classification in
The film shall meet the requirements specified in
future editions of its standards.
IS0 543.
3.2 archival film: Photographic film suitable for the
preservation of records having permanent value when
5.2 Amount of free acid
stored under archival storage conditions, providing the
original images are of suitable quality. Different specifications and test methods for deter-
mining the amount of free acid are given for polyester
base and cellulose ester base films. The polyester
3.3 long-term film: Photographic film suitable for
base shall not have an amount of free acid greater
the preservation of records for a minimum of 100
than the equivalent of 1 mI of 0,l moll1 sodium hy-
years when stored under archival storage conditions,
droxide solution per gram of film and the cellulose
providing the original images are of suitable quality.
ester base shall not have an amount of free acid
greater than the equivalent of 0,5 ml of 0,l moll1
3.4 medium-term storage conditions: Conditions
sodium hydroxide solution per gram of film. The
suitable for ensuring a minimum useful life of 1 O years
amount of free acid shall be measured in accordance
for photographic films.
8.3.
with
3.5 medium-term film: Photographic film suitable
The volume of 0,l moll1 sodium hydroxide equivalent
for the preservation of records for a minimum of 10
to the amount of free acid of the processed film shall
years when stored under medium-term storage con-
not increase by more than 0,5 ml over its original
ditions, providing the original images are of suitable
value after the accelerated ageing described in 8.2.
quality.
5.3 Tensile properties and tensile properties
3.6 non-curl backing layer: Layer usually made of
loss
gelatin, applied to the side of the film base opposite
that of the emulsion layer, for the purpose of pre-
The film samples shall be processed and dried under
venting curl. It is comparable to the emulsion layer in
the conditions used for the film records. Processed
thickness and is not removed in processing.
films shall be tested for tensile properties as de-
(Antihalation or other layers removed in processing
scribed in 8.4 and shall have a tensile strength and
are excluded from this definition.)
elongation at break as specified in table 1 for unheated
film. The loss in tensile properties after accelerated
3.7 safety photographic film: Film that meets the
8.2 shall not exceed the per-
ageing as described in
specifications with respect to ignition and burning
centage specified in table 1 for heated film.
time as defined in IS0 543.
Table 1 - Limits for tensile properties and
3.8 safety cellulose-ester base: Film base com-
tensile properties loss on ageing
posed mainly of cellulose esters of acetic, propionic,
i
or butyric acids, or mixtures thereof.
Base il^ Elongation
strength at at break
material
break %
3.9 safety poly(ethy1ene terephthalate) base:
Polyester film base composed mainly of a polymer of
ethylene glycol and terephthalic acid.
Minimum per- Cellulose MPa 1)
15
missible tensile ester
properties of
3.10 full reversal processing: Processing that in- 75
unheated film Polyester 140 MPa
cludes a final fix and wash after the second develop-
ment step.
Maximum per- Cellulose
15 % 30
missible loss in ester
tensile proper-
ties of heated
4 Requirements for the film base film compared I Polyester I 15 % I 30 I
with unheated
film
The base used for medium-term, long-term and ar-
I I I
chival record films shall be of a safety poly(ethy1ene
1) 1 MPa = 106 N/m*
terephthalate) or cellulose ester type and can be
identified by the method described in 8.1.
2

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IS0 10602:1993(E)
The analysis for thiosulfate shall be made on a film
6 Requirements for the emulsion and
sample from a clear area and shall be made within 2
backing layers of processed film
weeks of processing (see annex B).
The test method does not measure any change in the
6.1 Layer adhesion
sample between the time of processing and the time
of analysis but is used to judge the keeping of the film
following the time of the test.
6.1.1 Tape-stripping adhesion
The processed film shall not show any removal of the
emulsion layer or backing layer when tested as de-
mcentration
Table 2 - Limits for thiosulfate
scribed in 8.5.
Maximum
permissible
6.1.2 Humidity-cycling adhesion
concentration
Film
Film type
of
classification
thiosulfatel)
The emulsion layer or backing layer of the processed
film shall not show separation or cracking that would
am2
possibly impair its intended use, when tested as de-
scribed in 8.6 (see annex E).
Radiographic Medium-term 0,100
Long-term 0,050
Archival 0,020
6.2 Emulsion flow
The processed film shall not show any visual evidence
Long-term 0,030
Microfilms
of emulsion flow (caused by partial emulsion remelt-
0,014
Arc hiva I
ing) as a result of accelerated ageing of the processed
film. Emulsion flow shall be determined as described
in 8.7 when the accelerated ageing is performed as
Archival 0,0072)
Other: fine grain
described in 8.2.
Other: coarse grain Archival 0,020
6.3 Blocking
1) For radiographic and "other" films having photo-
graphic layers on both sides, or a non-curl backing layer,
Processed film shall show no evidence of blocking
values are for each side of the film. For microfilms, val-
(sticking), delamination or surface damage when
ues are for the complete film.
tested as described in 8.8. A slight sticking of the film
2) The limit for fine grain archival films is currently less
samples that does not result in physical damage or a
than for archival microfilms. This apparent anomaly is
change in the gloss of the surface is acceptable.
based on the results of a study of residual hypo that is
currently underway. The work on microfilm has been
completed but studies of other film types are not.
6.4 Thiosulfate concentration
Films shall be fixed in solutions containing either
sodium thiosulfate (hypo) or ammonium
thiosulfate [TI. Hypo-eliminating agents containing
oxidizing agents such as peroxides or hypochlorites
6.5 Residual silver compounds
st-,all not be used.3) After processing, the film shall not
contain a greater concentration of residual thiosulfate
The processed film shall not show more than a barely
calculated as thiosulfate ion S203- than that specified
in table2 when determined by the test methods de- perceptible tint when tested in accordance with 8.9
scribed in IS0 417.4) (see annex Cl.
3) Hypo-eliminating agents contain chemicals, usually strong oxidizing agents, which decompose thiosulfate (see annexes B
and D). These are to be distinguished from hypo clearing baths, which are high ionic strength salt solutions. These facilitate the
washing of thiosulfate from the film, but do not chemically alter the thiosulfate.
4) Three methods for measuring residual chemicals in film are described in21S0 41 7. All three methods are considered suf-
ficiently reliable to report thiosulfate concentrations at the level of 0,014 g/m . The methylene blue method is considered reli-
able for thiosulfate concentrations of 0,007 g/m2. The methylene blue and iodine amylose methods measure thiosulfate ion
only and must only be run within two weeks of processing. The silver sulfide densitometric test method measures polythionate
decomposition products and other residual chemicals in addition to thiosulfate. The method may be run more than two weeks
after processing. To determine thiosulfate levels accurately with this method, a calibration curve for the particular film is
necessary.

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IS0 10602:1993(E)
by the use of enzyme solution. All sublayers shall then
7 Image stability
be removed by scraping. A sample of the base ma-
terial shall then be prepared by scuffing the surface
The specifications and test methods for image stab-
with a suitable tool.
IS0
ility are different for the different product types.
visual diffuse density or Status A blue-density shall be
The general procedure is to move the scuffing device
measured on a densitometer which has spectral con-
back and forth over the sample manually while exert-
formance to IS0 5-3 and geometric conformance to
ing a very slight pressure. This removes the top layer
IS0 5-2. Processed film samples shall be incubated
of the base as a very fine dust, which is carefully
as described in 8.10.
brushed into a mortar. The sample shall be mixed with
about 100 times its mass of potassium bromide pre-
7.1 Radiographic films
viously ground to about 75 pm. A strip or pellet shall
be prepared as described in [8]. An infrared absorp-
An area of unexposed processed film shall be tested.
tion curve shall be obtained from the prepared pellet
The Status A blue-density change of the unexposed
by means of an infrared absorption spectro-
area shall be no greater than 0,05 density units after
photometer. By comparing the infrared absorption
incubation for medium-term, long-term and archival
curve for the unknown with curves for known
films.
polymers, the identity of the unknown can be estab-
lished W6)
7.2 Microfilms
Two areas on the processed film sample shall be
tested; one area of minimum density, the other having
8.2 Accelerated ageing conditions
a visual diffuse density of 1,2 f 0,l. The following
criteria shall apply to the different film categories.
Processed film shall be subjected to the accelerated
ageing conditions to meet the requirements for in-
7.2.1 Long-term film
crease in the amount of free acid, tensile properties
loss and emulsion flow.
The minimum density area shall have a visual diffuse
density of less than 0,4 after incubation. The differ-
The test specimens shall be conditioned to
ence in visual density between the two test areas
(23 f 1) "C and (50 f 2) % relative humidity for at
shall be at least 0,8 after incubation.
least 15 h. After conditioning, the specimens shall be
placed in a moisture-proof envelope and the envelope
7.2.2 Archival film
shall be heat-sealed." To prevent sticking between
adjacent specimens, it may be necessary to interleave
Neither the minimum nor the high density area shall
them with aluminium foil. A high ratio of film to air
change by more than 0,l visual diffuse density units
volume shall be ensured by squeezing out excess air
after incubation.
prior to heat sealing. A separate envelope shall be
used for each film sample. The envelopes shall be
7.3 Other films
heated in an oven for 72 h at (100 rt 2)
0
Samples of processed film containing representative An alternative method of incubatina the sDecimens in
image areas shall be tested. The film image shall a closed environment is by placing them in 25 mm
show no degradation after incubation that would im- borosilicate glass tubesW Each tube shall have two
pair the film for its intended use.5) flanged sections separated by a gasket to provide a
moisture seaP and shall be held together by a metal
clamp. Sufficient film specimens shall be used to
8 Test methods
provide a high ratio of film to air volume.
8.1 Identification of film base In subsequent subclauses, samples subjected to
these accelerated ageing conditions are designated
con-
All emulsion and backing layers shall be removed from "heated". Comparison samples kept at standard
ditions are designated "unheated".
a sample of the unknown film, either by scraping or
5) Work is currently underway to establish more quantitative tests for other film types.
6) It is difficult, although not impossible, to distinguish among cellulose acetate, cellulose acetate propionate and cellulose
acetate butyrate base by this method, but such separation is not necessary for the purpose of this International Standard.
7) A suitable moisture-proof envelope is a metal foil bag that is coated on the inside with polyethylene for heat-sealing.
8) Incubation is accomplished in a closed environment to prevent escape of any acid that is produced during incubation. Such
acid can catalyse further base degradation.
91 A suitable inert gasket can be made from poly(tetrafluoroethy1ene).
4

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IS0 10602:1993(E)
8.3 Determination of the amount of free acid A 30 mI blank, which has been heated for the same
length of time as the samples, shall be titrated. De-
tails of preparation of the standardized tetrabutyl-
8.3.1 Specimen preparation
A.
ammonium hydroxide are given in annex
Measurements shall be made on two unheated and
The cellulose ester solution shall be titrated with
two heated specimens of imaged film of mass ap-
0,l ml/l sodium hydroxide, using cresol purple as the
proximately 1 g to 2 g each. Weigh the specimens to
A blank titration shall also be made on the
indicator.
the nearest 0,Ol g. The films shall be heated in ac-
solvent mixture.
cordance with 8.2. All coatings shall be removed from
the film base by scraping. Each specimen shall be cut
8.3.4 Calculation
into small pieces and accurately weighed prior to dis-
solving in the appropriate solvents.
The amount of free acid, A, expressed in equivalent
millilitres of 0,l moi/i sodium hydroxide per gram of
8.3.2 Solution preparations
film base, is calculated as follows for each sample:
(Vs - VB~T
The polyester base and the cellulose ester base re-
A=
quire different solvents. 0,lm
Polyester samples shall be immersed in 30 ml of a
where
purified 70/30 (m/m) mixture of ocresol/chloroform.
V, is the volume of titrant used for the sam-
ple, in millilitres;
WARNING - Chloroform is harmful if inhaled.
Avoid breathing vapour, mist or gas. Use with
VB is the volume of titrant used for the blank,
adequate ventilation. If inhaled, move to fresh air.
in millilitres;
Contact should be avoided between chloroform
and eyes, skin or clothing. Obtain medical atten-
cT is the concentration of the titrant, in moles
tion immediately.
per litre;
o-Cresol is toxic if swallowed. Contact should be
m is the mass of the sample, in grams.
avoided between o-cresol and eyes, skin or cloth-
ing. Wash after handling. In case of contact, flush
Th titration shall be carried out in duplicate on sep-
eyes and skin thoroughly with water. Obtain
an dy prepared solutions. The average amount of
medical attention immediately.
free acid for the unheated and heated film samples
shall be calculated and reported separately.
The polyester support shall be dissolved by heating
at 90 OC to 95 OC for 30 min or until the sample has
8.4 Tensile property test for processed films
dissolved.lo) The dissolved samples shall be cooled to
room temperature.
8.4.1 Specimen preparation
Cellulose ester samples shall be immersed in ap-
proximately 80 mI of methylene chloride to which
Processed film already in 16 mm format may be
40 ml of denatured ethyl alcohol is then added slowly. tested in this width. In the case of perforated 16 mm
film, specimens shall be cut from between the per-
WARNING - Methylene chloride is harmful if
forations. Film in other sizes shall be cut into sections
inhaled. Avoid breathing vapour, mist or gas. Use
15 mm to 16 mm wide and at least 150 mm long us-
with adequate ventilation. If inhaled, move to
ing a sharp tool that does not nick the edges of the
fresh air. Contact should be avoided between
sample. Five specimens are required for the unheated
methylene chloride and eyes, skin or clothing.
film and five specimens for the heated film. The
Obtain medical attention immediately.
specimens to be heated and the control specimens
shall be cut alternately and contiguously from a single
piece of film. The thickness of each specimen shall
8.3.3 Titration
a suitable gauge to the nearest
be measured with
0,002 mm and the width to the nearest 0,l mm.
The polyester solution shall be titrated potentiometri-
cally with standardized 0,1 mol/l tetrabutylammonium
8.4.2 Accelerated ageing
hydroxide using an automatic recording titrimeter.”)
The electrode of the titrimeter shall have been pre-
conditioned for 24 h i
...