-
Disclosure to Promote the Right To Information
Whereas the Parliament of India has set out to provide a
practical regime of right to information for citizens to secure
access to information under the control of public authorities, in
order to promote transparency and accountability in the working of
every public authority, and whereas the attached publication of the
Bureau of Indian Standards is of particular interest to the public,
particularly disadvantaged communities and those engaged in the
pursuit of education and knowledge, the attached public safety
standard is made available to promote the timely dissemination of
this information in an accurate manner to the public.
इंटरनेट मानक
“!ान $ एक न' भारत का +नम-ण”Satyanarayan Gangaram Pitroda
“Invent a New India Using Knowledge”
“प0रा1 को छोड न' 5 तरफ”Jawaharlal Nehru
“Step Out From the Old to the New”
“जान1 का अ+धकार, जी1 का अ+धकार”Mazdoor Kisan Shakti
Sangathan
“The Right to Information, The Right to Live”
“!ान एक ऐसा खजाना > जो कभी च0राया नहB जा सकता
है”Bhartṛhari—Nītiśatakam
“Knowledge is such a treasure which cannot be stolen”
“Invent a New India Using Knowledge”
है”ह”ह
IS 8886-1 (1978): Ships' Ordinary Rectangular Windows, PartI:
Types and Dimensions [TED 17: Shipbuilding]
-
IS 8886 (Part 1) : 2012
© BIS 2012
December 2012 Price Group 7
B U R E A U O F I N D I A N S T A N D A R D SMANAK BHAVAN, 9
BAHADUR SHAH ZAFAR MARG
NEW DELHI 110002
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iksr dh lkekU; vk;rkdkj f[kM+fd;k¡ — fof'kf"VHkkx 1 oxhZdj.k]
vk;ke] lkefxz;k¡] fpUgkadu ,oa vfHkuke
(igyk iqujh{k.k )
Indian StandardSHIPS’ ORDINARY RECTANGULAR WINDOWS —
SPECIFICATIONPART 1 CLASSIFICATION, DIMENSIONS, MATERIALS,
MARKING AND DESIGNATION
( First Revision )
ICS 47.020.10
-
Shipbuilding Sectional Committee, TED 17
FOREWORD
This Indian Standard (Part 1) (First Revision) was adopted by
the Bureau of Indian Standards, after the draftfinalized by the
Shipbuilding Sectional Committee had been approved by the Transport
Engineering DivisionCouncil.
This standard was first published in 22 parts. Parts 1 and 2 in
1978, Part 3 in 1979 and remaining in 1980. Thisrevised standard
shall also cover Part 2 and Parts 4 to 22. Hence Part 2 and Parts 4
to 22 of this standard shallstand withdrawn whereas Part 3 of this
standard shall be retained.
In this revised standard separate detailed dimensions for heavy
and light rectangular windows have not beenspecified instead
dimensions, materials, etc, for critical items only have been
specified in a standardizeformat.
The standard generally incorporates the requirements under the
Merchant Shipping Act, 1958, and the rulesmade thereunder; and in
addition, general requirements and positioning of ships’
rectangular windows issubject to the approval by the Government of
India under the said Act and the Rules.
In the fromulation of this standard, considerable assistance has
been derived from ISO 3903 : 1993 ‘Shipbuildingand marine
structures — Ships’ ordinary rectangular windows’ issued by the
International Organization forStandardization.
This standard is also based on the experience of ships’ window
and glass manufacturers, shipbuilders andauthorities who apply to
ships the regulations of the International Convention for the
Safety of Life at Sea,1974 (SOLAS 1974), with Amendments, 1981 and
of the International Convention on Load Lines, 1966.
For the purpose of deciding whether a particular requirement of
this standard is complied with, the final value,observed or
calculated, expressing the result of a test or analysis, shall be
rounded off in accordance withIS 2 : 1960 ‘Rules for rounding off
numerical values (revised)’. The number of significant places
retained inthe rounded off value should be the same as that of the
specified value in this standard.
-
IS 8886 (Part 1) : 2012
1
Indian StandardSHIPS’ ORDINARY RECTANGULAR WINDOWS —
SPECIFICATIONPART 1 CLASSIFICATION, DIMENSIONS, MATERIALS,
MARKING AND DESIGNATION
( First Revision )
1 SCOPE
This standard specifies the classification of
ordinaryrectangular windows for ships (series, types andmodels) and
gives the dimensions forinterchangeability and construction,
materials, tests,marking and designation of these windows.
The requirements of fire resistant rectangularwindows and heated
rectangular windows are notcovered in the standard.
2 REFERENCES
The following standards contain provisions whichthrough
reference in this text, constitute provisionsof this standard. At
the time of publication, theeditions indicated were valid. All
standards aresubject to revision and parties to agreements basedon
this standard are encouraged to investigate thepossibility of
applying the most recent editions ofthe standards indicated
below.
IS No. Title1365 : 2005/ Slotted countersunk flat headISO 2009 :
1994 screws (common head style) —
Product grade A (fourth revision)1366 : 2002/ Slotted cheese
head screws —ISO 1207 : 1992 Product grade A (third revision)4218
(Part 2) : ISO General purpose metric screw
2001/ threads: Part 2 General planISO 261 : 1998 (second
revision)6101 : 2005/ Slotted pan head screws —ISO 1580 : 1994
Product grade A (second revision)6180 : 1989 Toughened safety
glasses for
ships’ round windows (f irstrevision)
7483 : 2005/ Pan head screws with Type H or ZISO 7045 : 1994
cross recess — Product grade A
(second revision)7485 (Part 2) : Countersunk flat head
screws
2005/ (common head style) with Type H orISO 7046-2 : 1990 Type Z
cross recess — Product
Grade A: Part 2 Steel of propertyclass 8.8 stainless steel and
non-ferrous metals (second revision)
7486 : 2005/ Countersunk raised head screwsISO 7047 : 1994
(common head style) with Type H
or Type Z cross recess — Productgrade A (second revision)
8809 : 1991 Shipbuilding — Gaskets for ship’sside windows (first
revision)
8886 (Part 3) : Specification for ships ordinary1979 rectangular
windows: Part 3
Positioning8911 : 2005/ Countersunk slotted raised headISO 2010
: 1994 screws (common head style) —
Product grade A11914 : 1986 Glossary of terms for ships’
windows
3 DEFINITIONS
For the purpose of this standard the definitionsgiven in IS
11914 shall apply.
4 CLASSIFICATION
Rectangular windows shall be classified by series,types, models
and nominal sizes in accordancewith 4.1 to 4.4 respectively.
Further classification characteristics are the materialclasses
(see 6.1).
NOTE — A survey of standardized rectangular windowsthat is given
in 4.5.
4.1 Series
4.1.1 Regular Series (N)
Rectangular windows of the regular series shallcontain a
toughened safety glass pane that meetsthe requirements of IS
6180.
4.2 Types
Ships’ ordinary rectangular windows may be of thetwo types:
a) Type E — Heavy-type rectangular window; andb) Type F —
Light-type rectangular window.
IS No. Title
-
IS 8886 (Part 1) : 2012
2
4.3 ModelsModels shall be designated according to thefollowing
principal characteristics:
a) Opening or non-opening model;b) Opening direction of
glassholder; andc) Type of fastening.
The various combinations of these, which are inaccordance with
the definitions given in IS 11914,are laid down in Table 1.
4.4 Nominal Sizes
The nominal size is defined by the clear lightdimension for
width w1 and height h1 of therectangular window, in millimetres,
and is identifiedby a code number (see Table 2).
4.5 Survey of Types, Models and Sizes
A survey is given in Table 3 for all rectangularwindows
standardized in this standard. It applies towindow series N
(regular).
The illustrations given in Table 3 do not define the
construction; they are simplified examples forinformation
only.
5 TECHNICAL REQUIREMENT
5.1 General
Rectangular windows of all series, types, models andnominal
sizes shall be manufactured to therequirements (dimensions,
materials, etc) given inthis standard. They shall be capable of
meeting thetest requirements specified in 7.
5.2 Dimensions
5.2.1 Main Dimensions
The main dimensions of rectangular windows shallbe as given in
Fig. 1 and Tables 4 and 5. Thecorrelation between nominal sizes and
types andmodels shall be as given in Table 3.
NOTE — Figure 1 does not define the construction ofany series,
type, model or size or rectangular window; it isgiven for the
indication of standardized dimensions only.The illustration shows
an inwards opening side-hingedrectangular window.
Table 1 Principal Characteristics of Models(Clause 4.3)
Opening orNon-opening
Opening
Opening Direction FasteningBolted (B) Welded (W)
ModelDesignation
Code
Outwards(O)
Side-hinged
Left-hand(L)
Right-hand(R)
Left-hand(L)
Right-hand(R)
Top-hinged(T)
B
—
B
—
B
—
B
—
B
—
B
—
B
——
—
W
—
W
—
W
—
W
—
W
—
W
—
W
ILB
ILW
IRB
IRW
ITB
I T W
OLB
OLW
ORB
ORW
OTB
OTW
NOB
NOW
(1) (2) (4)(3) (5)
Side-hinged
Inwards(I)
Non-opening(NO)
Top-hinged(T)
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IS 8886 (Part 1) : 2012
3
Table 2 Nominal Sizes(Clause 4.4)
Code No.
(1)
1
2
3
4
5
6
Nominal Size
w1 × h1
mm × mm(2)
300 × 425
355 × 500
400 × 560
450 × 630
500 × 710
560 × 800
Illustration
(3)
7
8
9
900 × 630
1 000 × 710
1 100 × 800
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IS 8886 (Part 1) : 2012
4
Table 3 Survey of Rectangular Windows(Clauses 4.5 and 5.2.1)
Type
E
F
E
F
Model (see 4.3)
Nominal Sizesby Code No.
(see 4.4)
Illustration(Shown are Bolted Windows)
(2) (3) (4) (5)
ILB —
— ILW
IRB —
— IRW
ILB —
— ILW
IRB —
— IRW
ITB —
— ITW
ITB —
— ITW
1 to 6
4 to 8
4 to 9
Inwards opening top-hinged windows
(1) Bolted Welded
(see 4.2)
Inwards opening side-hinged windows
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IS 8886 (Part 1) : 2012
5
Table 3 (Continued)
Type
E
F
E
F
OLB —
— OLW
ORB —
— ORW
OLB —
— OLW
ORB —
— ORW
OTB —
— OTW
OTB —
— OTW
1 to 6
4 to 8
4 to 9
Outwards opening top-hinged windows
Model (see 4.3)
Nominal Sizesby Code No.
(see 4.4)
Illustration(Shown are Bolted Windows)
(2) (3) (4) (5)(1) Bolted Welded
(see 4.2)
Outwards opening side-hinged windows
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IS 8886 (Part 1) : 2012
6
Table 3 (Concluded)
NOB —
— NOW
1 to 8
5.2.2 Corner Radii
The basic radius is the corner radius r1 of the clearlight size
(see Table 4).
The values of the other radii shall be as follows:
a) Spigot outside corner radius and welding-inmain frame utside
corner radius:
r2 = r1 + 24 mm; and
b) Flange outside corner radius : r3 = r1 +65 mm maximum.
MinimumNumber ofFasteners2)
(10)
444466
688
r1 1)
(9)
505050
100100100
100100100
g
Max
(8)
414141414141
414141
h3
Max
(7)
555630690760840930
760840930
w3
Max
(6)
430485530580630690
1 030 1 130 1 230
h2
+ 2
(5)
473548608678758848
678758848
w2
+ 2
(4)
348 403 448 498 548 608
948 1 048 1 148
w1 × h1
(3)
300 × 425355 × 500400 × 560450 × 630500 × 710560 × 800
900 × 6301 000 × 7101 100 × 800
Code No.
(2)
123456
789
Sl No.
(1)
i)
ii)
Nominal Size
1) For corner radii r2 and r3, see 5.2.2.2)The number of
fasteners includes only closing devices and hinges with round
holes, see 5.6.
Table 4 Main Dimensions and Number of Fasteners(Clauses 5.2.1,
5.2.2 and 5.6.1)
All dimensions in millimetres.
Model (see 4.3)
Nominal Sizesby Code No.
(see 4.4)
Illustration(Shown are Bolted Windows)
(2) (3) (4) (5)(1) Bolted Welded
(see 4.2)
Non-opening windows
Type
E
F 1 to 9
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IS 8886 (Part 1) : 2012
7
FIG
. 1 M
AIN
DIM
ENSI
ON
S OF R
ECTA
NG
ULA
R W
IND
OW
1B W
elde
d m
odel
1A B
olte
d m
odel
-
IS 8886 (Part 1) : 2012
8
5.2.3 Height of Spigot
The recommended nominal heights of the main framespigot, which
should be preferred for all types,models and nominal sizes of
rectangular windows,are given in Table 6.
5.2.4 Glass Recess
The dimensions of the glass recess (w4, h4, r4 and c)in the
glassholder of opening rectangular windowsand in the frame of
non-opening rectangular windowsshall be as given in Fig. 2 and
Table 7.
5.2.5 Frame Thickness
The thickness of main frames for M.S. welded fixed
type rectangular window to be 12 mm and openablewindow to be 8
mm.
The thickness of aluminium frame for windows ‘T’ asshown in Fig.
1 should not be less than 8 mm.
5.3 Glass Retaining Frame
The use of a glass retaining frame for fixing the glasspane in
the glass holder or in the main frame isoptional.
5.3.1 Dimensions
If a glass retaining frame is used, the minimumdimensions shall
be as given in Fig. 3.
Sl No.
(1)
i)
ii)
RectangularWindow
(2)
Series
N(Regular)
1)
Glass Thickness, t1
(3)
Code No. of Window
Table 5 Glass Thickness(Clauses 5.2.1 and 5.4.1)
All dimensions in millimetres.
Type
E
F
1 2 3 4 5 6 7 8 9
10 10 12 12 15 15 19 19 -
8 8 8 8 10 10 12 12 15
1) In special cases, a greater glass thickness shall be used for
obscured glass panes; see 5.5.3 and Table 10.
Table 6 Height of Spigot (Dimension C)(Clause 5.2.3)
ActualHeight
mm
(4)
The actualrequireddeliveryheight ofthe spigot
may beagreed whenordering therectangular
window.
Manufac-turingHeight
mm
(3)
16
30
Model
(2)
S lNo.
(1)
i)
ii)
Bolted
Welded
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IS 8886 (Part 1) : 2012
9
FIG. 2 GLASS RECESS
Table 7 Glass Recess(Clause 5.2.4)
All dimensions in millimetres.
S lNo.
(1)
i)
ii)
CodeNo.
(2)
1
2
3
4
5
6
7
8
9
w1 × h1
(3)
300 × 425
355 × 500
400 × 560
450 × 630
500 × 710
560 × 800
900 × 630
1 000 × 710
1 100 × 800
w4
Min
(4)
321
376
421
471
521
581
921
1 021
1 121
h4
Min
(5)
446
521
581
651
731
821
651
731
821
r4
(6)
60
60
60
110
110
110
110
110
110
c
(7)
This dimension isleft to the
manufacturer’sdiscretion. It
depends on thethickness of the
glass pane and onthe glazing
material used
Nominal Size
5.3.2 Screws for Glass Retaining Frames
To fasten the glass retaining frame, slotted or crossrecessed
screws in accordance with IS 1365, IS 1366,IS 6101, IS 7483, IS
7485 (Part 2), IS 7486 or IS 8911should be used, at the window
manufacturer’sdiscretion. Such screws shall have the
followingcharacteristics:
a) Thread : M6b) Length : 16 mmc) Material : Marine
corrosion-resistant
copper alloy (for windows ofcoper alloy); stainless steel
(forwindows of aluminium alloy orsteel)
5.3.3 Glazing Screw Pitch
The screw pitch shall be as follows:
a) For Type E windows : 75 mm, Maxb) For Type F windows : 100
mm, Max
5.4 Glass Panes
5.4.1 Panes for Regular Rectangular Windows(Series N)
Clear of obscured toughened safety glass panes inaccordance with
IS 6180 shall be used : appropriatecodes are given in Table 8.
Correlation of glass thickness with types and nominalsizes shall
be as given in Table 5, with the peculiarityfor obscured glass
panes given in 5.5.3.
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IS 8886 (Part 1) : 2012
10
FIG. 3 GLASS RETAINING FRAME
Table 8 Finish of Glass Pane(Clause 5.4.1)
S lNo.(1)
i)ii)
Kind of Finish
(2)
ClearObscured
Code
(3)
Y1Y2
5.5 Glazing
5.5.1 Glazing Material
An appropriate glazing material, resistant to seawater and
ultra-violet light, shall be used.
5.5.2 Mounting of Glass Pane
When glazing, it is essential that the glass pane is
centralized in the glassholder or in the main frame sothat there
is the same clearance all round.
5.5.3 Peculiarity for Obscured Glass Panes
5.5.3.1 Mounting position A
In general, obscured glass panes are positioned withthe obscured
surface facing outwards. For thispositioning, the glass thicknesses
given in Table 5shall apply. It shall be noted, however, that the
glasspane becomes transparent when wet.
5.5.3.2 Mounting position B
When, in special cases, an obscured toughenedsafety glass pane
is positioned with the obscuredsurface facing inwards, a greater
glass thickness thanthat specified in Table 5 shall be used. These
greaterthicknesses shall be as given in Table 9.
3A For use with cylindrical head screws
3B For use with countersunk head screws
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IS 8886 (Part 1) : 2012
11
5.6 Fasteners (Closing Devices and Hinges)
5.6.1 Number of Fasteners
a) The minimum number of fasteners comprisingclosing devices and
hinges with round holesfor glassholders of Type E and F
openingrectangular windows shall be as given in Table 4.
b) The total number of the fasteners and theirconstruction shall
be such that the windowmeets the strength and
watertightnessrequirements given in 7.
NOTE — If the hole for the hinge of the glassholder isoval, the
hinge is not regarded as a fastener.
5.6.2 Closing Device
a) At least two closing devices (for examplescrew in bolts or
swingbolts with nuts) shallbe provided.
b) In the case of outwards-opening windows, anappropriate
screw-locking device shall beprovided to ensure that, when open,
theclosing device does not strike the glass pane.
c) If a closing device is composed of a swingbolt,swingbollt nut
and swingbolt hinge pin, thesecomponent parts shall have main
dimensionsas given in Table 10.
5.6.3 Hinges
The number of hinges (at least two) depends on thekind of window
(type, model, size and construction).For all kinds of opening
rectangular windows, it isrecommended to use hinge pins with a
diameter inaccordance with Table 10.
Table 9 Thickness of Obscured Glass Panes WhenObscured Surface
is Facing Inwards
(Clause 5.5.3.2)All dimensions in millimetres.
S lNo.
(1)
i)
ii)
Glass Thickness for Typeof Rectangular Window
E F (4) (5)
Nominal Size
Code No. w1 × h1 (2) (3)
15151919−−
−−−
121212121515
1919−
300 × 425355 × 500400 × 560450 × 630500 × 710560 × 800
900 × 6301 000 × 7101 100 × 800
123456
789
Table 10 Diameter of Bolts and Pins(Clauses 5.6.2 and 5.6.3)
All dimensions in millimetres.
Thread ofSwingbolt and Nut
in AccordanceIS 4218 (Part 2)
Diameter of Hinge Pin for
Swing bolt Glassholder
5.7 Gaskets for Glassholder and Glass RetainingFrame
To ensure water tightness between the glassholderand main frame,
gaskets shall be used.
5.7.1 Type of Gasket
The gaskets shall be in accordance with IS 8809, atthe
manufacturer’s discretion.
5.7.2 Fixing of Gaskets
The gaskets shall be secured in the grooves of theglassholder by
means of a suitable adhesive.
5.8 Fixing Device
All sidewards opening rectangular windows shall beprovided with
a fitted fixing device (for example ahook). This fixing device is
part of the window to bedelivered.
6 MATERIALS
6.1 Main Frame, Glassholder and Glass RetainingFrame
The main components of a rectangular window (mainframe,
glassholder and glass retaining frame) shallbe manufactured from
the materials given in Table 11.These materials shall be marine
corrosion-resistantand shall have the minimum mechanical
propertiesgiven in Table 13.
The values for the minimum tensile strength andminimum
elongation given in Table 13 are valid forthe types of windows
indicated. However, thematerial used should comply with any
relevantInternational standard.
The material class code numbers given in Table 12,which are for
indicating the materials in thedesignation of the rectangular
windows, arecombinations of the material code numbers, given
inTable 11. For the main frame, the glassholder and theglass
retaining frame, in that order.
M 20 12 12
-
IS 8886 (Part 1) : 2012
12
Table 11 Material Code Numbers(Clause 6.1)
S l Material MaterialNo. Code Number
(1) (2) (3)
i) 1 Copper alloy material(for example brass, gunmetal)
ii) 2 Ferrous material (forexample mild steel, caststeel,
ductile iron)
iii) 3 Aluminium material(cast or wrought alloy)
iv) 0 No components (forexample glassholders fornon-opening
windows)
Table 12 Material Classes(Clause 6.1)
S lNo.
(1)
i)
ii)
Model ofRectangular
Window
(2)
Opening
Non-opening
Method ofFasteningWindow
(3)
Bolted
Welded
Bolted
Welded
MaterialClass Code
Number
(4)
111
333
211
221
222
233
333
101
303
201
202
203
303
Material
Main Frame Glassholder Glass Retaining Frame
(5) (6) (7)
Brass1)
Aluminium alloy 1)
Mild steel Brass1)
Mild steel Brass1)
Mild steel
Mild steel Aluminium alloy1)
Aluminium alloy(only wrought or Aluminium alloy1) extruded)
Brass1) — Brass1)
Aluminium alloy1) — Aluminium alloy1)
Mild steel — Brass1)
Mild steel — Mild steel
Mild steel — Aluminium alloy1)
Aluminium alloy(only wrought or — Aluminium alloy1)
extruded)
1) The use of cast or wrought alloy is optional.
Table 13 Tensiles Strength and Elongation for Main
Components(Clauses 6.1 and 7.2.2)
Minimum ElongationPercent
(4)
10
3
Minimum Tensile StrengthN/mm2
(3)
180
140
Type of Window
(2)
E
F
Sl No.
(1)
i)
ii)
-
IS 8886 (Part 1) : 2012
13
6.2 Closing Device and Hinge Pin
Bolts, pins and nuts of the closing device and hingepins for the
glassholder shall be manufactured frommaterials having the
following properties:
a) Resistant to corrosion;b) No effect on the corrosion
resistance of other
parts; andc) Minimum mechanical properties as given in
Table 14.
The values for the minimum tensile strength andminimum
elongation given in Table 14 are valid forthe types of windows
indicated. However, thematerial used should comply with any
relevantnational standard.
For aluminium alloy windows, the bolts (screw-in-bolt or
swingbolt) of the closing device and the hingepin of the
glassholder shall be made of non-corrodible steel, stainless steel
or such alloys as arenot likely to cause corrosion of windows or
pins.
7 TESTING
7.1 Watertightness Test
Maximum allowable pressures for rectangularwindows with
standardized dimensions and withdeviating dimensions are given in
Annex A andAnnex B respectively.
7.1.1 Board Test
To ensure that the rectangular window and packingare watertight
when fitted, a hose test shall be carriedout by the shipbuilder to
the satisfaction of theowner’s or surveyor’s representative.
The test shall consist of hosing the rectangularwindow by means
of at least 12.5 mm nominal sizehose held not more than 1.5 m from
the window andwith a water pressure of at least 250 kPa.
7.1.2 Shop Test
An equivalent hydraulic test shall be carried out bythe
manufacturer before despatch by means of batch
tests (approximately 10 percent of the delivery batch,with a
minimum of one window), at a test pressure of25 kPa.
7.2 Mechanical Strength Test
7.2.1 A prototype window shall be subjected to amechanical
strength test by a suitable test method,applying a load equivalent
to the followingpressures:
a) Type E windows : 75 kPab) Type F windows : 35 kPa
7.2.2 The manufacturers shall, at the request of thepurchaser,
provide guarantees that the metallicmaterials used in the
construction of the windowconform with the strength requirements as
laid downin Tables 13 and 14.
7.2.3 Mechanical testing of the materials shall becarried out in
accordance with the mechanical testrequirements of relevant Indian
Standards.
8 MARKING
Windows conforming to this standard shall be markedas indicated
in 8.1.
8.1 Regular Rectangular Windows (Series N)
8.1.1 Marking of Body
a) The main frame or some other metallic maincomponent part
shall be marked with the letterfor the Type (Type E or Type F).
b) Further marking indications are optional, forexample:
1) Nominal size;2) Material class;3) Manufacturer’s name or
trade-mark; and4) Number of this Indian Standard.
8.1.2 Marking of Glass Pane
The glass pane shall be marked in accordance withIS 6180 .
Type ofWindow
(1)
E
F
Hinge Pin Screw-in Bolt, or Swingboltand Swingbolt Pin
Minimum TensileStrength
N / mm2
(2)
350
250
MinimumElongation
Percent
(3)
15
14
Minimum TensileStrength
N / mm2
(4)
250
180
MinimumElongation
Percent
(5)
14
8
Nut
Table 14 Tensile Strength and Elongation for Closing
Devices(Clauses 6.2 and 7.2.2)
-
8.1.3 BIS Certification Marking
The product may also be marked with the StandardMark.
8.1.3.1 The use of the Standard Mark is governedby the
provisions of the Bureau of Indian StandardsAct, 1986 and the Rules
and Regulations madethereunder. The details of conditions under
whichthe licence for the use of the Standard Mark may begranted to
manufacturers or producers may beobtained from the Bureau of Indian
Standards.
9 DESIGNATION
For ordering and reference purposes, rectangularwindows
conforming to this standard shall bedesignated in accordance with
9.1 and 9.2.
9.1 Elements for Designation
The following basic elements shall be used, in theorder
given:
a) Denomination (abbreviated): window (Series N);b) Number of
this Indian Standard [IS 8886
(Part 1)];c) Series (code letter), as specified in 4.1;d) Type
(code letter), as specified in 4.2;e) Nominal size, as specified in
Table 2;f) Height of spigot, as specified in 5.2.3;g) Model (code),
as specified in Table 1;
h) Material class of window (code number), asspecified in Table
12; and
j) Finish of glass pane (code), as specified in5.4.1.
9.2 Example for Regular Rectangular Windows (N)
A rectangular window in accordance with this IndianStandard of
regular series (N), heavy Type E, ofnominal size 450 mm × 630 mm
(Window No. 4), withheight of spigot c = 16 mm, side-hinged inwards
left-hand opening bolted model (ILB), material class 111,with glass
pane of plate glass and glass finish clear(Y1) is designated as
follows:
Window IS : 8886-N-E4 × 16-ILB-111-Y1
10 POSITIONING
Rectangular windows shall be positioned inaccordance with IS
8886 (Part 3).
11 INSTALLATION
For installation, the relevant national rules andregulations
apply, if any.
The dimensions of the precut hole in the shell plateshould be as
given in Table 15.
For windows which are designed for welding-in, theprecut hole
should be smaller than that indicated inTable 15, in order to keep
the gap between the cutand the main frame as small as possible.
Table 15 Precut Hole(Clause 11)
All dimensions in millimetres.
S lNo.
(1)
i)
ii)
No.
(2)
1
2
3
4
5
6
7
8
9
w1 × h1
(3)
300 × 425
355 × 500
400 × 560
450 × 630
500 × 710
560 × 800
900 × 630
1 000 × 710
1 100 × 800
Nominal Size
(4)
352
407
452
502
552
612
952
1 052
1 152
(5)
477
552
612
682
762
852
682
762
852
(6)
76
76
76
126
126
126
126
126
126
0
+25h0
+25w 0
+15r Illustration
(7)
IS 8886 (Part 1) : 2012
14
-
IS 8886 (Part 1) : 2012
15
ANNEX A(Clause 7.1)
MAXIMUM ALLOWABLE PRESSURE FOR RECTANGULAR WINDOWS
WITHSTANDARDIZED DIMENSIONS
A-1 The maximum allowable pressure p to whichrectangular windows
in accordance with this IndianStandard of regular series N (galzed
with toughened
safety glass panes according to IS 6180), may besubjected to as
is given Table 16.
Sl No.
(1)
i)
ii)
Type
(2)
EHeavy
FLight
No.
(3)
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
9
Nominal Sizemm × mm
(4)
300 × 425
355 × 500
400 × 560
450 × 630
500 × 710
560 × 800
900 × 630
1 000 × 710
300 × 425
355 × 500
400 × 560
450 × 630
500 × 710
560 × 800
900 × 630
1 000 × 710
1 100 × 800
Glass Thicknessmm
(5)
10
10
12
12
15
15
19
19
8
8
8
8
10
10
12
12
15
MaximumAllowablePressure
kPa
(6)
99
71
80
63
80
64
81
64
63
45
36
28
36
28
32
25
31
Rectangular Window
NOTE — The glass thickness applies to glass panes of regular
windows (series N). In special cases, a greater glass thickness
shallbe used for obscured glass panes (see 5.5.3).
Table 16 Maximum Allowable Pressure
B-1 Where one or both dimensions (width w1 orheight hI) of a
window are different from those givenin Table 2, the maximum
allowable pressure, p, in kPa,shall be determined using the
following equation:
ANNEX B(Clause 7.1)
MAXIMUM ALLOWABLE PRESSURE FOR RECTANGULAR WINDOWS WITH
DEVIATING DIMENSIONS
2
2
40 000 tpbβ
=
wheret = nominal thickness of the glass pane, in mm;β = factor
obtained from the graph in Fig. 4;
andb = minor dimension of the window, in mm.
-
IS 8886 (Part 1) : 2012
16
FIG
. 4 C
URV
E FO
R DET
ERM
INAT
ION
OF F
AC
TOR
BA
SED
ON
WIN
DO
W S
IZE R
ATIO
Win
dow
siz
e ra
tio =
Larg
e di
men
sion
Smal
l dim
ensi
on
-
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Publication______________________________________________________________________________________
Amendment No. Date of Issue Text
Affected______________________________________________________________________________________
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