This document outlines standard product specifications for pre-engineered buildings, including specifications for structural framing systems, framing features, building components, design considerations, material specifications, shop paint, building accessories, structural sub-systems, foundations, and submittal requirements. It provides definitions and details for standard structural framing systems including clear span, multi-span, space saver, and lean-to configurations. It also specifies materials and dimensions for building elements like columns, rafters, purlins, girts, panels, gutters, bracing, and foundations.
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Contents
1. Introduction to Effluent Treatment Plant (ETP)
1.1 Use of water in industries
1.2 Industrial waste water sources
1.3 Effluent Treatment Plant
1.4 National Standards for waste water
1.5 What do these standards means?
1.6 Waste water treatment
1.7 Planning an Effluent Treatment Plant : Factors to Consider
2. Treatment Methods
2.1 Physical Unit Operations
2.2 Chemical Unit Processes
2.3 Biological Unit Processes
3. Operation and control
3.1 Mixed liquor suspended solids
3.2 Sludge Volume Index and Sludge Density Index
3.3 Sludge Age; Mean Cell Residence Time (MCRT)
3.4 Food/Mass Ratio
3.5 Constant MLSS
3.6 Return Activated Sludge Control (RAS)
4. Choosing an Effluent Treatment Plant
4.1 Biological Treatment
4.2 Physico-Chemical Treatment
4.3 Physico-Chemical and Biological Treatment
4.4 Area Requirement Comparison
4.5 Cost Comparison
5. Chemical Analysis of Waste Water
5.1 Commonly used chemicals
5.2 Chemical Tests and procedures
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2. Standard Product Specifications Pre-Engineered Buildings
Standard Product Specifications
Index
1. General
1.1 Definition
1.2 Standard Structural Framing Systems
1.3 Standard Framing Features
1.4 Building Components
2. Design
2.1 Codes
2.2 Loads
3. Material Specifications
3.1 Structural Members
3.2 Panels
3.3 Trims & Gutters
3.4 Bolts
3.5 Fasteners
3.6 Other Items
4. Shop Paint
4.1 Structural Members
5. Building Accessories
5.1 Heavy Duty Personnel Doors
5.2 Steel Sliding Doors
5.3 Steel Roll Up Doors
5.4 Windows
5.5 Adjustable Steel Louvers
5.6 Gravity Ventilators
6. Structural Sub-Systems
6.1 Roof Extensions
6.2 Canopies
6.3 Fascias and Parapets
7. Foundations and Anchorage
8. Submittals
8.1 Approval Drawings
8.2 Erection Drawings
8.3 Design Calculations
8.4 Design Certification
3. Pre-Engineered Buildings Standard Product Specifications
1. General
1.1 Definition
1.1.1 The building, as specified herein, consists of
columns, rafters, bracing, connection clips, roof
purlins, wall girters, roof and wall sheeting,
anchor bolts, flashing, trims, etc., or as specified.
All materials shall be new and free from defects.
1.1.2 The main building structure comprises single or
multiple gable interior rigid frames with either
rigid or “post-and-beam” frames at the endwalls.
1.1.3 The standard roof slopes are 0.5 or 1.0 unit of
vertical rise to 10 units of horizontal run. Other
slopes are available upon request.
1.1.4 The sidewall steel line is the plane of the inside
vertical surface of the sidewall sheeting. It is also
the plane of the outside vertical surface of the
eave strut.
1.1.5 The endwall steel line is the plane of the inside
vertical surface of the endwall sheeting. It is also
the plane of the outside vertical surface of the
outer flange of the endwall girters.
1.1.6 The building width is the distance between the
steel lines of opposite sidewalls. Building width
does not include the width of Lean-To buildings or
roof extensions.
The width of a Lean-To building is the distance
from the steel line of the exterior sidewalls of the
Lean-To building to the (sidewalls or endwalls)
steel line of the main building to which the Lean-To
building is attached.
1.1.7 The building length is the distance between the
steel lines of opposite endwalls. Building length
is a combination of several bay lengths.
Building length does not include the width of
endwall Lean-To buildings or roof extensions.
1.1.8 End bay length is the distance from the outside of
the outer flange of endwall columns to the center
line of the first interior frame.
1.1.9 Interior bay length is the distance between the
center lines of two adjacent interior rigid frame
columns.
1.1.10 The building eave height is the distance from
finished floor level (FFL) to the top of the eave strut
at the sidewalls steel line.
1.1.11 The building clear height is the distance from
finished floor level (FFL) to the bottom of the end
plate of the rafter at the knee.
1.2 Standard Structural Framing Systems
1.2.1 Clear Span (CS) buildings have a gable roof with
vertical sidewalls and endwalls. Interior bay
frames are clear span rigid frames without
interior columns.
1.2.2 Multi-Span (MS) buildings have a gable roof with
vertical sidewalls and endwalls. Interior bay
frames are rigid frames, typically with tapered
exterior columns, tapered rafters and square tube
or built-up interior columns.
1.2.3 Space Saver (SV) buildings have a gable roof
with vertical sidewalls and endwalls. Interior bay
frames are clear span rigid frames having
constant depth columns and tapered rafters
typically with horizontal bottom flanges.
1.2.4 Lean-To (LT) buildings consist of outer sidewall
columns and simple span rafters attached to the
sidewall columns or the endwall posts of the main
building. Lean-To columns are of constant depth.
Lean-To rafters may be tapered or of constant
depth.
1.2.5 Multi-Gable (MG) buildings have a roof with two
or more gables and vertical sidewalls and
endwalls. Interior bay frames are rigid frames
typically having tapered exterior columns,
tapered rafters and built-up interior columns.
1.3 Standard Framing Features
1.3.1 Main frames are typically constructed from
tapered or constant depth columns and rafters.
1.3.2 Rigid frames for Clear Span (CS) and Multi-Span
(MS) buildings are most commonly spaced from
6000 mm to 10000 mm, center line to center line.
1.3.3 Outside flanges of Clear Span (CS) and Multi-Span
(MS) rigid frame columns are inset 200 mm from
the sidewall steel line to allow for by-pass girts.
1.3.4 Outside flanges of Space Saver (SV) rigid frame
columns shall be placed flush with the sidewalls
steel line.
1.3.5 The top flanges of all rigid frame rafters are 200 mm
below the bottom of the roof sheeting.
1.3.6 End frames are “post-and-beam” (P&B) load
1
4. Standard Product Specifications Pre-Engineered Buildings
bearing frames with endwall girts flush framed into
the webs of the endwall posts so that the outer
flanges of the girts are in the same vertical plane as
the outer flanges of the posts. Optional rigid frames
may be used at the building ends. The center line of
the endwalls rigid frame shall be 385 mm from the
endwalls steel line.
1.3.7 Endwall posts are typically spaced at 6000 mm.
Depending on the width of the building and
endwall openings, other spacing may also be used.
When the building width is not evenly divisible by
6000 mm, the interior spacing of the endwall posts is
typically kept at 6000 mm with two equal end
spacings smaller or larger than 6000 mm.
1.3.8 For Clear Span (CS) and Multi-Span (MS)
buildings, the sidewall girts are attached
(by-passed) to the outer flanges of exterior columns.
Sidewall girts are lapped at all interior frames.
For Space Saver (SV) and Lean-To (LT) buildings,
the sidewall girts are flush connected (flush framed)
so that the outer flange of the girters is in the same
vertical plane as the outer flange of the
exterior columns.
1.3.9 The bottom flanges of roof purlins are attached to
the outer (top) flanges of the rafters. Purlins are
lapped at all interior frames in all structural
framing systems.
1.4 Building Components
1.4.1 Columns and rafters of rigid frames are tapered
built-up “I” sections. Interior columns of multi-span
frames may be square tube sections.
1.4.2 All rigid frame connections are bolted. Columns
and rafters are provided with welded end plates for
anchoring to foundations and for member-to-
member attachment. Pre-punched holes or welded
clips are provided for attachment of purlins and
girters, bracing, and other components.
1.4.3 Load bearing “post-and-beam” (P&B) end frames
may be constructed from cold-formed channels, hot
rolled sections or built-up welded plate sections, as
required.
1.4.4 Purlins and girts are pre-punched cold-formed “Z”
shaped sections, 200 mm in depth with stiffened
flanges.
1.4.5 Eave struts are pre-punched cold-formed “C”
shaped sections, 180 mm in depth with 85 mm
stiffened flanges. The eave strut serves as a
longitudinal structural bracing member in
addition to acting as a transition point for walls
and roof sheeting.
1.4.6 Panels (roof and walls) are roll formed to the
maximum practical length (generally 9000 mm) to
minimize end laps in the field.
1.4.7 The standard roof and walls panel is Profile “S”.
It is a roll formed panel having 4 major high ribs
and 4 minor ribs. The panel covers a width of 1000
mm. The lapped major rib has a siphon break to
prevent capillaric intrusion of water at the side
lap. The panel has an extended bearing leg to
provide stiffening during installation.
1.4.8 Roof panels have a minimum end lap of 150 mm
over purlins and are fully protected from siphon
action by an end lap mastic.
1.4.9 Wall panels have the same side lapping as the
roof panels. End lap is 100 mm over the girts.
Generally no side or end lap mastic is required.
1.4.10 Sandwich panels are factory-injected insulated
panels. They are constructed of a hard
polyurethane foam core between two single skin
panels. The rigid foam core has a density of
approximately 40 kg/m3
.
The standard roof sandwich panel is the Tempcon
(TC) panel. The outer panel is the
standard Profile “S” panel, described in section
1.4.7. The inner panel is a flat panel.
The standard wall sandwich panel is the Tem-
parch (TA) panel. Both the outer and inner panels
are flat panels.
All sandwich panels cover a width of 1000 mm.
1.4.11 Profiled ridge panels are provided at the ridge of
all buildings with single skin roof panels.
1.4.12 Eave gutters are supplied in lengths of 6000 mm.
They are cold-formed to a profiled cross-section
that is about 180 mm wide x 168 mm high.
1.4.13 Downspouts for eave gutters are supplied in
lengths of up to 9000 mm to minimize splicing.
They are cold-formed to a ribbed rectangular
cross section 105 mm wide x 73 mm deep.
1.4.14 Valley gutters are supplied in maximum lengths
of 4500 mm. They are cold-formed in two standard
size classifications; 400 mm wide x 190 mm high
and 354 mm wide x 190 mm high.
1.4.15 Downspouts for valley gutters in Multi-Gable
(MG) buildings are PVC pipes supplied in three
sizes; 110 mm, 160 mm and 200 mm (outside
diameter). Fiberglass or PVC outlets connecting
the valley gutter to the downspouts are also supplied.
2
5. Pre-Engineered Buildings Standard Product Specifications
1.4.16 Diagonal bracing, providing longitudinal stability
against wind, seismic or other forces, is attached
to the web of the rigid frame near the outer flange
of columns and rafters. The standard diagonal
bracing is a galvanized steel 7-wire strand cable
with an eye bolt with an adjusting nut and hillside
washer at each end. Solid round bars or hot rolled
angles may be used as required by design.
1.4.17 Flange braces, in the form of angles, are provided
to stabilize the interior flanges of rigid frame rafters
and columns at certain purlin and girter locations.
1.4.18 Base angles are provided in fully sheeted walls
6000 mm in length for attachment of the wall panel
to the concrete slab. The concrete floor slab must
have a 40 mm x 40 mm notch at the perimeter
(below the finished floor level) to accommodate
the bottom of the wall panel to prevent ingress of
dust and water. The base angle is a light gauge
bent plate.
2. Design
2.1 Codes
2.1.1 Frame members (hot rolled or built-up) are
designed in accordance with the American
Institute of Steel Construction (AISC): “Manual of
Steel Construction, Allowable Stress Design.”
2.1.2 Cold-formed members are designed in
accordance with the American Iron and Steel
Institute (AISI): “Cold-formed Steel Design
Manual.”
2.1.3 All welds are designed in accordance with the
American Welding Society (AWS): “Structural
Welding Code - Steel”.
2.1.4 Loads are applied in accordance with the
requirements of the Metal Building Manufacturers
Association (MBMA) of the USA: “Low Rise Building
Systems Manual”.
2.1.5 Other codes can be accommodated if specified.
2.2 Loads
2.2.1 The building is designed to withstand the dead
load (DL) of the structure plus a specified live load
(LL) and wind load (WL).
2.2.2 Auxiliary (Collateral) loads, if any, must be
specified by the customer at the time of request
for quotation.
2.2.3 When snow load is of concern, the customer will
specify the snow load where applicable, in
accordance with local codes.
2.2.4 Load combinations shall be in accordance with
the requirements of the “Low Rise Building
Systems Manual” published by MBMA.
2.2.5 Other loads and load combinations can be
accommodated and must be specified at the time
of request for quotation.
2.2.6 Zamil Steel will not be responsible for any static
or dynamic loads that are transferred to its
building from the plant machinery and equipment,
unless the loads are specifically requested at the
time of request for quotation.
3. Material Specifications
3.1 Structural Members
3.1.1 Built-up sections are fabricated from hot rolled
steel plates conforming to ASTM A 572M Grade
345 Type 1 (or equivalent), with a minimum yield
strength of 34.5 kN/cm2
(50 ksi). Flanges are
welded to the web by a continuous single side
fillet weld deposited by an automatic submerged
arc welding process.
3.1.2 Hot rolled sections are mill produced according
to EN 10025-2 Grade S355JR (or equivalent) with a
minimum yield strength of 34.5 kN/cm2
(50 ksi).
3.1.3 Tube sections, (used as interior columns in some
Multi-Span buildings) are mill formed steel sections
conforming to EN 10210-1 S355J2H or JIS 3466 STKR
490 (or equivalent), with a minimum yield strength of
32.5 kN/cm2
(47 ksi).
3.1.4 Secondary members (comprised mostly of purlins
& girts) are cold-formed from hot rolled steel coils
ranging in thickness from 1.5 mm to 3.0 mm for “Z”
shapes, and in 2.0 mm and 2.5 mm for “C” shapes
(lipped channels).
3.1.4.1 Painted secondary members are cold-formed from
hot rolled steel coils conforming to ASTM A 607
Grade 50 or ASTM A 1011M HSLAS Grade 340
Class 1 Type 1 (or equivalent) having a minimum
yield strength of 34.0 kN/cm2
; and then factory
painted with Zamil Steel standard primer.
3.1.4.2 Galvanized secondary members are cold-formed
from steel coils conforming to ASTM A 653M Grade
3
6. Standard Product Specifications Pre-Engineered Buildings
SS 340 Class 1 (or equivalent), with zinc coating to
Z275 (G 90) designation (275 g/m2
), having a
minimum yield strength of 34.0 kN/cm2
(50 ksi).
3.1.5 Bracing cables are 12 mm diameter, zinc coated
7-wire strand steel cables of extra high strength. The
strand wires conform to ASTM A 475 (or equivalent)
with a minimum breaking load of 119.7 kN.
3.1.6 Bracing rods, used in sidewalls of buildings
supporting cranes, are solid plain round steel bars
conforming to ASTM A 36M (or equivalent) with a
minimum tensile strength of 40 kN/cm2
(58 ksi).
3.1.7 Sagrods,usedtobracepurlinsandgirtsinbayslon-
ger than 8500 mm or in buildings with slopes larger
than 2.5 to 10, are 12 mm or 16 mm solid threaded,
round steel bars conforming to ASTM A 36M (or
equivalent) with a minimum tensile strength of 40 kN/
cm2
(58 ksi).
3.1.8 Flange braces used to stabilize the inner flanges of
main frame columns and rafters are 50 mm x 50
mm x 4 mm steel angles conforming to ASTM A 36M
(or equivalent) with a minimum yield strength of 25
kN/cm2
(36 ksi).
3.1.9 Base / gable angles are 45 mm x 73 mm x 1.5 mm
thick angles supplied in 6000 mm long pieces,
cold-formed from galvanized steel and conforming
to ASTM A 653M SS Grade 340 Class 1 (or equivalent),
with zinc coating to Z275 (G90) designation (275 g/
m2
) having a minimum yield strength of 34.0 kN/
cm2
(50 ksi).
3.2 Panels
3.2.1 Roof Panels are roll formed from 0.5 mm (nominal)
thick cold-rolled steel coated with an aluminum /
zinc alloy (Zincalume). The material conforms to
ASTM A 792M Grade 340 Class 2, with alloy (Alumi-
num / Zinc) coating AZM150 (or equivalent), having
a minimum yield strength of 34 kN/cm2
(50 ksi). The
coating is achieved through a hot dip process, which
is 55% aluminum and the balance zinc, by weight.
Pre-painted roof panels are optional.
3.2.2 Wall Panels have the same specifications as the roof
panels (as described in section 3.2.1 above), but they
aremillpainted. Paintfinishfilmthickness shall be 25
microns of high durability polyester (ZSP) on the
exterior (weather) face and 12 microns of plain
polyester on the interior face.
3.2.3 Interior liner panels have the same specifications as
the wall panels (as described in section 3.2.2 above).
3.2.4 Standard colors for pre-painted wall panels are
those standard colors mentioned in Zamil Steel’s
product brochure and panel chart.
3.2.5 Mezzanine deck panels are roll-formed from 0.7 mm
thick cold-rolled galvanized steel. The material
conforms to ASTM A 653M SS Grade 550, zinc
coatingZ180(G60),andhasaminimumyieldstrength
of 55.0 kN/cm2
(80 ksi).
3.2.6 Roof and walls panel upgrades.
Other premium durability paint finishes are avail-
able upon request, such as Polyvinylidene Fluoride
finish (ZPF)
Roof and wall panels may be upgraded to 0.7 mm
(nominal) thickness as follows:
3.2.7 Sandwich panels are available in two types:
(a) Tempcon Panels:
Tempcon sandwich panels are produced
using rigid polyurethane foam core with
external and internal sheets in steel or
aluminum of varying thickness, coatings
and colors. Tempcon is a durable sand
wich panel, particularly in industrial build
ings and are suitable for roof and wall for
all building applications.
(b) Temparch Panel:
Temparch sandwich panels are produced
using rigid polyurethane foam core with
external and internal sheets in steel or
aluminum of varying thickness, and are
suitable for walls for all building
applications, interior partition and
cold stores.
All the outer skins of Tempcon and Temparch pan-
els are Zincalume coated steel conforming to ASTM
A 792M Grade 340 Class 2, with zinc alloy coating
AZM150 and are available in all Zamil Steel stan-
dard colors.
All the inner skins of Tempcon and Temparch pan-
els are Zincalume coated steel conforming to ASTM
A 792M Grade 340 Class 2, with zinc alloy coating
4
Thickness
(mm)
0.7
Base Metal Paint Finish
Steel
Aluminum
Bare Zincalume
ZSP
ZPF
Plain
ZSP
7. Pre-Engineered Buildings Standard Product Specifications
AZM150, and are available in Frost White color.
Tempcon and Temparch skins may be upgraded as
per section 3.2.6.
3.3 Trims & Gutters
3.3.1 Walls flashing and trims (gable, corner, framed
opening, accessories, etc.) are cold-formed from
the same material (color & finish) as wall panels.
3.3.2 Roof flashing and trims (parapet flashing,
transition trims, expansion joint trims and ridge
caps) are cold-formed from the same material
(color & finish) as roof panels.
3.3.3 Eave gutters and downspouts are cold-formed
from the same material as wall panels.
3.3.4 Valley gutters (used in parapet fascias and valley
conditions) are cold-formed from a 1.0 mm (minimum)
thick (nominal) bare Zincalume coated cold-rolled
steel coil, conforming to ASTM A 792M Grade 340
Class 2, with zinc alloy coating AZM150 or bare
Galvanized/Zinc coated cold rolled steel coil con-
forming to ASTM A 653M SS Grade 340 Class 1,
with Z275 coating (or equivalent) having a
minimum yield strength of 34.0 kN/cm2
(50 ksi).
A protective zinc phosphate pigmented epoxy
coating system is applied to the exposed surface,
having a total average dry film thickness of 150
microns on the exterior side and 50 microns on the
interior side.
3.4 Bolts
3.4.1 High strength bolts are hot-dip galvanized and
conform to ASTM A 325M (full thread), Type 1 (or
equivalent). They are used to connect primary
members.
3.4.2 Machine bolts are electro-galvanized with a
yellow chromate color conversion coating and
conform to DIN 933 Class 4.6 (or equivalent). They
are used to connect secondary members (mainly
purlins and girts).
3.4.3 Anchor bolts are manufactured from rods
conforming to ASTM F1554 grade 55 or ISO 898-1
Class 5.8 (or equivalent) with a minimum yield
strength of 38.0 kN/cm2
and an ultimate strength of
51.7 - 65.5 kN/cm2
.
3.5 Fasteners
3.5.1 Roof fasteners are metallic-polyester coated, heat
treated carbon steel, conforming to AS 3566 Class 3
(or equivalent). They are 5.5 mm diameter, hex-head,
self-drilling screws, assembled with galvanized steel
washers bonded with EPDM seals.
3.5.2 Wall fasteners are metallic-polyester coated,
heat-treated carbon steel, conforming to AS 3566
Class 3 (or equivalent). They are 5.5 mm diameter,
hex-head, self-drilling screws with integral
washers bonded with EPDM seals. The heads of
wall fasteners are painted to match the color of the
wall panels (as per section 3.2.4).
3.5.3 Sandwich panel fasteners
same as 3.5.2.
3.5.4 Stitch fasteners for the roof are metallic-polyester
coated, heat-treated carbon steel, conforming to
AS 3566 Class 3 (or equivalent). They are 4.8 mm
diameter, hex-head, self-drilling screws,
assembled with galvanized steel washers bonded
with EPDM seals. They are used on the side laps
of roof panels, and in trim-to-trim and trim-to-
panel fixing applications.
3.5.5 Stitch fasteners for the walls are metallic-polyester
coated, heat-treated carbon steel, conforming
to AS 3566 Class 3 (or equivalent). They are 4.8
mm diameter, hex-head, self-drilling screws with
hex-head integral washers bonded with EPDM
seals. The heads of stitch fasteners for the walls
are painted to match the color of the wall panels
(per section 3.2.4). They are used on the side laps
of panels, and in trim-to-trim and trim-to-panel
fixing applications.
3.5.6 Mezzanine deck fasteners are 5.5 mm diameter,
metallic-polyester coated, heat-treated carbon
steel, self-drilling screws, with hex head, capable
of drilling through steel up to 12 mm thick. They
conform to AS 3566 Class 3 (or equivalent).
3.5.7 Rivets are 4.0 mm diameter and made from
Aluminum. They are used in gutter splicing,
fixing trim-to-trim, or trim-to-panel, and fastening
accessories to roof or wall claddings. They are
available in all standard colors.
3.5.8 Stainless steel fasteners, for Aluminum panels,
are 5.5 mm diameter, hex-head, self-drilling,
stainless steel screws, assembled with stainless
steel washers bonded with EPDM seals. Material
grade is AISI 304 (or equivalent).
3.6 Other Items
3.6.1 Skylights and wall lights are made of translucent
white acrylic modified, ultra violet stabilized,
fiberglass with a tensile strength of 8.7 kN/cm2
(using ASTM D 638 test method) with a flexural
5
8. Standard Product Specifications Pre-Engineered Buildings6
strength of 13.83 kN/cm2
(using ASTM D 790 test
method). Translucent panels weigh 2.4 kg/m2
(nominal) and provide the same coverage as the
panel width with a maximum length of 3600 mm.
The profile of the translucent panels matches that
of the adjoining roof/wall panels so that weather
tightness is achieved through the same lapping
technique used for the panels themselves. The
translucent panels meet the light transmission
value of 75% (+5%) according to ASTM D 1494.
3.6.2 Fall Shield (Skylight Fall Protection) is a fall pro-
tection system to safeguard people from tripping,
stepping and falling accidentally through skylights
on the roof. It is fabricated from hot-dip galvanized
wiremesh and rigidly supported by hat sections
and clips which are fixed directly on top of the pan-
el-purlin area on the roof with covering size/dimen-
sion conforming to the surface area of the skylight
panel.
3.6.3 Foam closures match the panel profile. They are
made of expanded polyethylene or similar
material.
3.6.4 Bead mastic is an extruded elastomeric butyl
rubber based sealant supplied in rolls on silicon
release paper conforming to Federal Specification
TT-C-1796 A Type II Class B (or equivalent).
3.6.5 Flowable mastic (caulking sealant) is a neutral
cure silicone rubber sealant that is chemically
inert and non-corrosive. It is UV resistant and suitable
for exterior applications against weathering and
rainwater. When cured, it is non-toxic and will
accommodate high thermal and shrinkage
changes in structural movement joints.
3.6.6 Fiberglass insulation meets UL 25/50 fire rating
and is supplied in 50 mm, 75 mm, 100 mm and 150
mm thicknesses with a factory laminated Rein-
forced White Metalized film Scrim Kraft (WMSK)
or Foil Reinforced Kraft (FRK) faced vapor barrier.
The fiberglass density is 10 kgm3
. Other facings,
densities and thicknesses are
available upon request.
Fiberglass insulation is supplied with double face
tape, patching tape, stapler and staples.
4. Shop Paint
4.1 Structural Members
4.1.1 Primary and secondary steel is cleaned and prime
painted according to the Steel Structures Painting
Council SSPC-PS Guide 7.00 specification to a dry
film thickness of not less than 40 microns.
4.1.2 Primer paint conforms to the performance
requirements of Steel Structures Painting Council
SSPC Paint 15 Type 1.
4.1.3 Shop primer is intended to provide temporary
protection against weathering during transport
and erection. It is not intended to provide
permanent corrosion protection, especially in the
case of exposed steel.
4.1.4 When special paint supplier is specified by the
consultant / client, and paint is found to have
application problems and (or) extended drying
times, Zamil Steel will recommend to substitute it
with an equivalent and suitable supplier, subject
to final approval by the consultant / client.
5. Building Accessories
5.1 Personnel Doors
5.1.1 Personnel doors are flush-finished and 44 mm
thick. Single leaf doors are 915 mm wide x 2135
mm high. Double leaf doors are 1830 mm wide x
2135 mm high.
5.1.2 Door leaves are reinforced, stiffened and
soundproofed with an expanded polystyrene core,
laminated to the inside faces of door panels,
completely filling the inside cavity of the door leaf.
5.1.3 Steel door panels are 0.9 mm (nominal) thick, hot
dip galvanized, 180 g/m2
, as per ASTM A 653M
(Z180) cold-rolled steel, thoroughly cleaned,
phosphated and painted with a white finish to
ensure optimal corrosion protection.
5.1.4 A white or galvanized finished “Z” shaped
astragal is field attached to the inactive leaf of all
double doors.
5.1.5 Doors are factory prepared for a cylindrical lockset.
5.1.6 Door frames are 1.5 mm (nominal) thick hot-dip
galvanized steel, prepared to ASTM A 653M (Z180)
classification (or equivalent), thoroughly cleaned,
phosphated and painted with a modified alkyd
primer, plus a white finish coat.
5.1.7 Door frames are delivered knocked-down. Mitered
corners have brackets with pre-drilled holes for
field assembly and are supplied with all fasteners
necessary for assembly.
5.1.8 The lockset is a keyed cylindrical type with satin
chrome finish. Optional panic devices and auto
9. Pre-Engineered Buildings Standard Product Specifications 7
closer are available.
5.1.9 Each door leaf has three mortise 115 mm x 115 mm
ball bearing hinges with a security set screw in
the barrel to prevent removal of the hinge pin with
the door in a closed position.
5.2 Steel Sliding Doors
5.2.1 The frames of horizontal steel sliding doors are
manufactured from 2 mm (nominal) thick, cold
formed channels and girts and are delivered
knocked-down for field assembly. All clips,
fasteners, etc., necessary for assembly are
provided.
5.2.2 The exterior face of the door leaf is sheeted with
0.5 mm (nominal) thick, pre-painted profiled
panels. The panel ribs run vertically. The door
panel profile matches the profile and material of
the wall panels.
5.2.3 Door leaves are either suspended from an exterior
mounted trolley rail attached to a structural header
beam or bottom, supported by rollers on a fixed track
anchored on the ground. The door hood trim, de-
signed to conceal and protect the header and rail,
is supplied with same material as the wall pan-
els.
5.2.4 Doors are bottom or top guided by a specially
designed steel rail track.
5.2.5 Door widths range from 1500 mm to 3000 mm, for
single sliding doors, and from 3000 mm to 6000
mm, for double sliding doors. The height of the
sliding doors range from 3000 mm to 6000 mm.
5.2.6 Sliding doors may also be provided with
flush-hinged pilot doors. A pilot door is a
personnel door within a leaf of the sliding door.
5.3 Steel Roll Up Doors
5.3.1 Roll-up door sizes conform to the following table:
Width (mm) Length (mm)
3000 3000
3000 4000
4000 4000
4000 5000
5000 5000
5.3.2 The door curtain is cold-formed from hot-dip
galvanized steel and painted with a polyester
paint in Frost White color. The bottom rail of the
door curtain is an extruded Aluminum angle.
5.3.3 Guides are 95 mm deep channels roll formed from
2.5 mm (nominal) thick hot-dip galvanized steel.
5.3.4 The door drum (supporting the door curtain) is a
165 mm (nominal) diameter and 3.2 mm (nominal)
thick pipe. The drum houses safety springs, end
shafts, collars and bearings and conforms to
Australian Standard AS 1905 for safety.
5.3.5 Doors are supplied complete with guides, axle,
curtain and a manual chain and reduction gear
operating mechanism. Electric operators are
available as an option.
5.4 Sectional Doors
5.4.1 Sectional doors are available in normal/regular
sizes of 5000 mm Width x 5000 mm Height and be-
low. (Other and bigger door sizes can also be made
upon request.)
Width (mm) Height (mm)
3000 3000
3000 4000
4000 4000
4000 5000
5000 5000
5.4.2 The sectional door’s panel or leaf is composed of
42 mm thick, double-skin and hot-dip galvanized
steel section, insulated with polyurethane core and
painted with primer-polyester coating.
5.4.3 Track (or Door Guide) use 52 mm rail width/depth
for door sizes of 5000 mm Width x 5000 mm Height
and below. (For bigger door sizes, 91 mm rail width/
depth is used.)
5.4.4 Sectional doors can be manually operated or elec-
trically operated using industrial duty motor with
manual override/operation in case power is off.
5.4.5 Sectional doors can be supplied with optional ac-
cessories such as Ventilation Grills, Glazing and
Wicket Doors.
5.5 Windows
Window frames are made of anodized Aluminum
extrusions with natural color finish conforming to
ASTM B 221M Alloy 6063-T5 tempered aluminum
alloy (or equivalent). Windows are horizontal
10. Standard Product Specifications Pre-Engineered Buildings8
double slide type, 1000 mm high and 1000 mm wide,
specifically designed for installation in profiled
exteriorwallpanels. Windowsarefactory glazed with
minimum 6 mm thick clear glass and are equipped
with latches and a removable insect screen.
5.6 Adjustable / Fixed Steel Louvers
Adjustable steel louvers are 1000 mm wide x 1000
mm high. They are supplied complete with a
galvanized steel mesh, blades and framing. They
are made from the same material, finish and color
as wall panels. Fixed steel louvers are available
in 1000 mm wide x 1000 mm high, 1000 mm wide x
1500 mm high and 1500 mm wide x 1000 mm high.
5.7 Gravity Ventilators
Gravity flow ridge ventilators are 3000 mm long
with a throat opening of 300 mm or 600 mm. They
are installed as either individual units or as
continuous (i.e. joined) units. The outer skin of
the ventilators is pre-painted Zincalume steel that
matches the color of roof panels. The ventilators
are supplied complete with bird screens. A damp-
er system to close the throat opening is optional on
300 mm throat ventilators.
For export shipments, ventilators are shipped
knocked-down to be field assembled by the
erector before installation.
6. Structural Sub-systems
6.1 Roof Extensions
6.1.1 Sidewall roof extensions extend beyond the
defined building width and are generally a
continuation of the main building roof slope.
6.1.2 End wall roof extensions extend beyond the defined
building length and are constructed by extending
the end bay purlins and eave struts of the main
building past the endwall rafters.
6.1.3 Standard widths for roof extensions range from 900
mm to 1500 mm. Wider roof extensions can be used
but may require heavier or additional framing.
6.1.4 Soffit panels for roof extensions are optional.
6.1.5 Main building eave gutters are normally relocated
to the edge of the roof extensions. Gutter drainage
is achieved by downspouts located at the building
sidewalls.
6.2 Canopies
6.2.1 Sidewall canopies are cantilevered rafters
attached to the sidewall columns at any point
below the eave and support 200 mm deep by-pass
“Z” purlins supporting the canopy roof panels.
6.2.2 End wall canopies are cantilevered rafters along
a uniform elevation attached to the end wall posts
below the roof line and support by-passed 200 mm
deep “Z” purlins supporting the canopy roof panels.
6.2.3 Optional canopy soffits conceal only the canopy
purlins, leaving rafters exposed, unless otherwise
specified.
6.2.4 Unless otherwise specified, the roof panels of the
canopies shall match the color and profile of the
main building roof panels.
6.2.5 The width of a canopy depends on the size of the
sidewall columns or end wall posts supporting it.
Practical widths range from 1500 mm to 3000 mm.
Wider canopies are possible but require heavier
sidewall columns or end wall posts.
6.2.6 The length of a canopy is ideally a multiple of bay
lengths of the sidewalls or a multiple of column
spacings of the end walls.
6.3 Fascias and Parapets
6.3.1 Vertical fascias consist of 200 mm deep vertical posts
supported by brackets from sidewall columns or
endwall posts. Cold-formed 200 mm deep “C”
section top and bottom girts are flush-framed to the
vertical fascia posts. An intermediate “C” girt
positioned vertically is supplied to support a valley
gutter, when required.
Standard vertical fascias project 600 mm from the
building sidewall or end wall steel lines. Projections
exceeding 600 mm are possible but may require
heavier sidewall columns and end wall posts. The
height of the fascia varies depending on actual
requirements. Typical heights range between 1000
mm to 1600 mm.
Fasciasheetingissuppliedin0.5mm(nominal)thick,
pre-painted panels matching the sidewalls profile.
Soffit panels and back-up panels are
provided only when specified.
6.3.2 Curveline fascias are of the same type of
construction as vertical fascias but are sheeted with
11. Pre-Engineered Buildings Standard Product Specifications 9
curved profiled panels and are available in three
types:
Bottom curved fascias that have a curved panel at
the bottom of the fascia only.
Top and bottom curved fascias that have a curved
panel at the top and bottom of the fascia.
Center curved fascias that haave a single panel
curved at the mid height of the fascia.
6.3.3 A parapet fascia is an extension of the sidewalls and
endwalls above the roof line. The wall sheeting of the
building will continue to the top of the parapet.
6.3.4 Standard eave gutters and downspouts are used
in buildings with sidewall vertical fascias.
Valley gutters are used in buildings having
sidewall parapet fascias.
7. Foundation and Anchorage
7.1.1 Foundations, tie beams and concrete floor slabs
should be designed by a licensed engineer.
Zamil Steel does not provide this service.
7.1.2 The design should be based on the building
column specifications stated on “Issued For
Construction” anchor bolt setting Plans.
7.1.3 Anchor bolts must be set in strict accordance with
Zamil Steel anchor bolt setting plans. Zamil Steel is
not be responsible for incorrectly set anchor bolts.
8. Submittals
8.1 Approval Drawings
8.1.1 Approval drawings are submitted upon request.
If approval drawings are requested, fabrication
will not start until one set of the approval drawings
has been signed by the buyer or his representative
as “Approved As Is” or “Approved As Noted” and
returned to Zamil Steel.
8.1.2 Approval drawings are issued as “Not For
Construction” drawings; the contractor is
specifically instructed not to use dimensions
shown on approval drawings for his civil work,
foundation work, etc. Zamil Steel shall not be
responsible for any consequences arising from the
premature use of information provided in
drawings that are not issued for construction.
8.2 Erection Drawings
8.2.1 Erection Drawings, “Issued For Construction”,
are provided for the assembly of the building(s)
and consist of an anchor bolt setting plan, a frame
cross-section, a roof framing plan, walls framing
details and roof and wall sheeting details. Part
designations for all Bill of Materials (BOM)
components are shown on erection drawings.
8.2.2 Bolt schedules identifying the required bolt
diameter and length for specific connections are
shown on erection drawings.
8.3 Design Calculations
Structural calculations may be provided upon
request, duly certified by the Engineering
Manager.
8.4 Design Certification
A letter of certification, in lieu of design
calculations, may be provided upon request, duly
certified by the Engineering Manager.
Statements, descriptions, specifications and dimensions
contained herein are in effect as of the date of this issue.
Zamil Steel reserves the right to make material substitutions,
enhencement and changes in specifications and construction
methodology as and when deemed necessary.
12. Standard Product Specifications Pre-Engineered Buildings
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HEAD OFFICE
PO Box 877
Dammam 31421
Saudi Arabia
Phone (966 3) 847 1840
Fax (966 3) 847 1291
E-Mail pebmarketing@zamilsteel.com
www.zamilsteel.com January 2012