Post on 19-Oct-2020
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POLYPROPYLENE (ΡP)• TRIPLEX - THREE LAYER• FASO PP - ONE LAYERPIPES AND FITTINGS FOR BUILDING DRAINAGE NETWORKS
TECHNICAL CATALOGUE PP
GR. FASSOIS S.A.
INDUSTRY OF PLASTIC PIPES AND FITTINGSPVC - POLYETHYLENE (ΡΕ) - POLYPROPYLENE (ΡΡ)
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POLYPROPYLENE GENERAL INFORMATION ......................................................................... 2-3
QUALITY ....................................................................................................................................... 4
BEHAVIOUR OF PP PIPES IN LONG-TERM HYDROSTATIC PRESSURE ................................. 5
PP CHEMICAL RESISTANCE ................................................................................................... 6-9
CONVEYING DRAINAGE NETWORK DESIGN ........................................................................ 10
INDICATIVE PIPE CONNECTION ............................................................................................. 11
TECHNICAL CHARACTERISTICS OF THREE LAYER PP PIPES - TRIPLEX ....................... 12-13
CONNECTION, TRANSPORTATION AND STORAGE .............................................................. 14
THREE LAYER PP PIPES - TRIPLEX ......................................................................................... 15
FASO - PP PIPES .................................................................................................................. 16-17
FITTINGS ............................................................................................................................... 18-24
CONTENTS
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Polypropylene (PP) is a thermoplastic polymer used in a wide variety of applications. Its first industrial synthesis was by Karl Rehn and Guilio Natta in 1954, which served as a preliminary work for large-scale synthesis from 1957 onwards. The global market for polypropylene is estimated to reach a production level of 45 million tons on an annual basis.PP is produced by the polymerization process of the monomer propylene. This polymerization reaction process is shown schematically:
The orientation of each methyl group (-CH3) relative to that of the methyl groups on neighboring monomers has a strong effect on the finished polymer’s ability to form crystals, since each methyl group takes up space and constraints backbone bending. By using appropriate catalysts, the final product can perform a high level of crystalline structure, thus resulting in enhanced mechanical strengths.Most commercially available polypropylene is made with Ziegler-Natta catalysts, which produce isotactic PP. With the methyl group consistently on one side, such molecules tend to coil into a helical shape; these helices then line up next to one another to form the crystals that give commercial PP many of its desirable properties.
PP ADVANTAGES
• Fire resistanceWith the addition of proper chemical substances to the PP raw material, the product becomes non-flammable. Thus, in case of fire, its spread and maintenance through the drainage system are prevented. According to the standard DIN 4102, PP has been classified in “not easily flammable materials” (class B1).
• Corrosion resistance Due to their smooth surface, PP pipes not only have great resistance to abrasion, but also prevent the accretion of various substances (dirt, grease, salts, microbes), thus their erosion is avoided. Moreover, they exhibit high resistance to caustic solutions and detergents, which often flow within the drainage systems.
• Vibrations absorptionΡΡ pipes can absorb the expansions, contractions and vibrations in buildings. In case of an earthquake, the elastic lip seals can absorb the seismic energy, so that the appearance of cracks and fractures in the pipes and fittings is avoided.
POLYPROPYLENE GENERAL CHARACTERISTICS
Η Η
Η
ΗΗ
n
n C CC C
Η CΗ3 CΗ3
Propylene Polypropylene
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• Environmentally friendlyΡΡ is 100% recyclable material. It can be recycled, burned or buried in the ground without charging the environment, and, according to Greenpeace, is classified in “healthy” materials.
• Mechanical strengthsΡΡ pipes have higher strength to hydraulic pressure and higher impact resistance, even at low temperatures, compared to pipes made of other materials.
CHARACTERISTICS OF PP PIPES AND FITTINGS
The PP pipes and fittings for building installations meet the requirements of the European standard EN 1451 (class B). Τhe PP products are suitable for usage inside buildings (homes, hospitals, professional and industrial constructions etc) for drainage networks, air ducts, and hot water installations (kitchen, laboratories etc).The colour of PP pipes and fittings is grey (RAL 7037).
POLYPROPYLENE GENERAL CHARACTERISTICS
PROPERTY STANDARD UNIT VALUE
Density (23° C) ISO/R 1183 DIN 53479 g/cm3 0,90-0,95
Melt flow index (230° C, 2,16 kg) ISO 1133 DIN 53735 g/10min 0,40
Tensile strength ISO 527 DIN 53455 MPa 15
Ultimate elongation ISO 527 DIN 53455 % >48
Modulus of elasticity ISO 527 DIN 53457 MPa 1300
Crystal melting point Differential Scanning Calorimetry (DSC) °C 160-165
Vicat softening temperature ISO 306 DIN 53460 °C 90
Coefficient of linear thermal expansion ASTM D 696-44 mm/m °C 0,11
Fire resistance DIN 4102 Class B1 s <12
PP TECHNICAL PROPERTIES
PP
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QUALITY MANAGEMENT SYSTEMFASOPLAST S.A. applies the Quality Management System ΕLOT ΕΝ ISO 9001:2000 in all of its production activities, marketing and development of new products. The company is certified by the certification body ELOT, which is a member of the International Certification Network IQNet.
CERTIFICATES BY INTERNATIONAL INSTITUTES OF QUALITYIn addition to the Quality Management System ΕLOT ΕΝ ISO 9001:2000, Fasoplast S.A is certified by the following international prestigious institutes:
• SKZ TeConA GmbH Mechanical properties of products• WRAS Contact with potable water
FASOPLAST TESTING LABORATORYThe company’s testing laboratory is located at a secluded place of the plant. It is equipped with a wide range of laboratory instruments, tools and apparatus that are calibrated on an annual basis. They are used by the expert company’s scientific and technical personnel qualified to carry out, according to European and International Standards, all the required tests for the quality control of the raw materials and products, in order to determine their physicochemical and mechanical properties. In particular, the laboratory is equipped with the following apparatus:
• Pipe hydraulic strength test apparatus
• Impact strength test apparatus (falling weight)
• Pendulum impact strength test apparatus
• Tensile strength equipment
• Melt flow index equipment
• Squeeze-off technique equipment
• Oven for heat reversion tests
• Vicat softening temperature equipment
• Apparatus for determining the PE-Xb degree of cross-linking
• Apparatus for bulk density estimation
• Laboratory granulator
• Specimen preparation system
• Equipment for specimen conditioning at low temperatures (approximately 0ο C)
• Instruments for dimensional characteristics measurements (calipters, circometers, round micrometers etc.)
QUALITY
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BEHAVIOR OF PP PIPES IN LONG-TERM HYDROSTATIC PRESSURE
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PP CHEMICAL RESISTANCE
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Acetic acid17 118 50 60 S
100 L
Acetic acid,glacial
> 96 20 S
60 L
100 NS
Acetic anhydride -73 140 tg-l 20 S
Acrylonitrile -82 77 tg-l 20 S
Air tg-g 100 S
Allyl alcohol -129 97 tg-l 60 S
Almond oil tg-l 20 S
Aluminium nitrate Sat.sol. 60 S
Aluminium potas-sium sulphate
(Alum)Sat.sol 60 S
Ammonia,aqueous Sat.sol 60 S
Ammonium carbonate
(Dec. 58 oC)Sat.sol. 60 S
Ammonium nitrate 170 Sat.sol. 100 S
Ammonium thiocyanate
Sat.sol. 60 S
Amyl alcohol -79 137 tg-l 100 S
Aniline -6 184 tg-l 60 S
Apple juice Work.sol. 20 S
Aqua regiaHCl/HNO3 20 NS
3/1 100 NS
Barium bromide Sat.sol. 100 S
Barium carbonate Susp. 100 S
Barium hydroxide 78 Sat.sol. 100 S
Beer Work.sol. 60 S
Benzene6 80 tg-l 20 L
60 NS
Benzyl alcohol-15 205 tg-l 20 S
60 L
Borax Sat.sol. 60 S
Boron trifluoride -129 -101 Sat.sol. 20 S
Bromine,liquid -7 58 tg-l 20 NS
Butane, gas -135 -0,5 tg-g 20 S
Butyl glycol 171 tg-l 20 S
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Butyl phthalate< 10 210 tg-l 20 S
60 L
Calcium carbonate Susp. 100 S
Calcium hydroxide Sat.sol. 60 S
Calcium nitrate Sat.sol. 60 S
Carbon dioxide, gas tg-g 60 S
Carbon monoxide, gas
tg-g 60 S
Castor oil tg-l 60 S
Chlorine waterSat.sol. 20 S
60 L
Chloroethanol -89 129 tg-l 20 S
Chloroform-64 62 tg-l 20 L
60 NS
Chrome alum (chromic potassium
sulphate)Sol. 60 S
Chromic acid
40 20 S
60 L
100 NS
Citric acid 153 Sat.sol. 100 S
Copper (II) chloride Sat.sol. 60 S
Copper (II) cyanide Sat.sol. 60 S
Corn oilWork.sol. 20 S
60 L
Cottonseed oil Work.sol. 60 S
Cyclohexane 6 81 tg-l 20 S
Dextrin Sol. 60 S
Dextrose(Dec. at 200 C)
146 Sol. 100 S
Diethylene glycol -10 198 tg-l 60 S
Diisooctyl phthalatetg-l 20 S
60 L
Dimethylamine, gas -96 7 tg-g 20 S
Dimethylformamide -61 153 tg-l 60 S
Dioxane 12 100 tg-l 20 L
Ethanol -114 78 95 60 S
Ethanolamine -84 171 tg-l 20 S
CHEMICAL RESISTANCE OF PP PIPES AND FITTINGSACCORDING TO ISO/TR 10358: 1993
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PP CHEMICAL RESISTANCE
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Ethyl acetate-83 77 tg-l 20 L
60 NS
Ethylene glycol -11 198 tg-l 100 S
Ethyl ether-113 35 tg-l 20 S
60 L
Ferric chloride Sat.sol. 100 S
Ferric nitrate Sat. sol. 100 S
Ferric chloride Sat.sol. 100 S
Formaldehyde -92 -19 30 to 40 20 S
Formic acid
8 101 10 60 S
100 L
85 to tg-l 20 S
60 NS
Fructose 102 Sol. 100 S
Fruit juice Work. sol. 100 S
Gasoline (fuel) Work.sol. 20 NS
Gelatine Sol. 60 S
Glucose (Dec.at>200 oC)
146 Sol. 100 S
Glycerine 20 290 tg-l 100 S
Heptane-90 98 tg-l 20 L
60 NS
Hexane-94 69 tg-l 20 S
60 L
Honey Work.sol. 60 S
Hydrochloric acid,dry gas
tg-g 60 S
Hydrofluoric acid -85 20 40 20 S
Hydrogen tg-g 20 S
Hydrogen peroxide1 158 30 20 S
60 L
Hydrogen sulphide, dry gas
-61 tg-g 60 S
Hydroquinone 170 286 Sat.sol. 60 S
Iodine, in alcohol 114 183 Work.sol. 20 S
Isooctane99 tg-l 20 L
60 NS
Isopropyl alcohol -90 82 tg-l 100 S
Isopropyl ether -60 68 tg-l 20 L
LanolinWork.sol. 20 S
60 L
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Lead acetate 75 Sat.sol. 60 S
Linseed oil Work.sol. 100 S
Magnesium carbonate
Susp. 100 S
Magnesium hydroxide
Sat.sol. 60 S
Malic acid (Subl.) 136 Sat.sol. 60 S
Mercuric chloride Sat. sol. 60 S
Mercuric cyanide Sat.sol. 60 S
Mercurous nitrate Sat. sol. 60 S
Mercury tg-l 60 S
Methyl acetate -98 57 tg-l 60 S
Methyl alcohol -97 65 tg-l 20 S
60 L
Methylamine -93 6 Up to 32 20 S
Methyl ethyl ketone -86 80 tg-l 20 S
Methylene chlroride-97 40 tg-l 20 L
60 NS
Milk Work.sol. 100 S
Monochloroacetic acid
61 188 >85 20 S
NaphthaWork.sol. 20 S
60 NS
Nickel chloride Sat.sol. 60 S
Nickel nitrate Sat.sol. 60 S
Nickel sulphate Sat.sol. 60 S
Nitric acid
10 20 S
60 NS
30 20 S
60 NS
Nitric acid
50 20 L
60 NS
>50 20 NS
Nitric acid, fuming (with nitrogen
dioxide)20 NS
Nitrobenzene6 210 tg-l 20 S
60 L
Olive oilWork.sol. 60 S
100 L
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PP CHEMICAL RESISTANCE
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Oxygen,gas tg-g 20 S
Peanut oil Work.sol. 60 S
Peppermint oil Work. Sol. 20 S
Petroleum ether (ligroin)
Work.sol. 20 L
Phosphoric acid 42 25 to 85 100 S
Picric acid (Subl.) 122 Sat.sol. 20 S
Potassium Hydro-gen Carbonate
Sat.sol. 100 S
Potassium bicarbonate
Sat. sol. 60 S
Potassium carbonate
Sat.sol. 60 S
Potassium chromate
Sat.sol. 60 S
40 60 S
Potassium cyanide Sat.sol. 20 S
Potassium dichromate
Sat. sol. 100 S
Potassium fluoride Sat.sol. 60 S
Potassium hydroxide
Up to 50 100 S
Potassium iodide Sat.sol 20 S
Potassium permanganate
(2N) 30 20 S
Propane,gas -190 -45 tg-g 20 S
Propionic acid -20 141 >50 20 S
Pyridine -42 115 tg-l 20 L
Silver nitrateSat.sol. 20 S
100 L
Sodium acetate Sat.sol. 100 S
Sodium cardonate Sat.sol. 60 S
Sodium chloride Sat.sol. 100 S
Sodium dichromate Sat.sol. 100 S
Sodium ferricyanide Sat.sol. 60 S
Sodium ferrocyanide
Sat.sol. 60 S
Sodium fluoride Sat.sol. 60 S
Sodium hydrogen sulphite
Sat.sol. 20 S
Sodium hydroxide 10 to 60 60 S
Sodium hypochlorite
5 60 S
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Sodium nitrate Sat.sol. 60 S
Sodium nitrite Sat.sol. 60 S
Sodium phosphate, acid
Sat.sol. 60 S
Sodium phosphate, neutral
Sat.sol. 100 S
Sodium silicate Sol. 60 S
Sodium sulphate Sat. sol. 60 S
Sodium sulphide Sat.sol. 20 S
Sodium sulphiteSat.sol. 60 S
40 100 S
Soybean oilWork. Sol. 20 S
60 L
Sulphur dioxide, wet gas
-73 -10 20 S
Sulphuric acid
10 to 30 60 S
50 20 S
60 L
96 20 S
60 L
100 NS
98 20 L
60 NS
100 NS
Sulphuric acid, fuming (Oleum)
20 L
60 NS
Sulphurous acid Up to 30 20 S
Tannic acid Sol. 60 S
Tartaric acid (Dec) 170 Sat. sol. 60 S
Tetrahydrofuran66 tg-l 20 L
60 NS
Tetralin -35 207 tg-l 20 NS
Thiophene-38 84 tg-l 20 S
60 L
Tin (II) chloride 247 652 Sat. sol. 60 S
Tin (IV) chloride -33 113 Sol. 60 S
Toluene-95 111 tg-l 20 L
60 NS
Trichloroacetic acid 58 197 Up to 50 60 S
Trichloroethylene -85 87 tg-l 20 NS
Triethanolamine 18 190 Sol. 20 S
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PP CHEMICAL RESISTANCE
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Urea 133 Sat. sol. 20 S
Urine 60 S
Vinegar Work.sol. 60 S
Water 100 S
Water, brackish 100 S
Water, distilled 100 S
Water, mineral Work.sol. 100 S
Water, potable Work.sol. 100 S
Water, sea 100 S
Whiskey Work.sol. 60 S
Wines and spirits
Work.sol. 60 S
CHEMICALm.p.
oC b.p.
oC Concentr.
%T
oC PP
Xylenes
-53 138 tg-l 20 NS
to to 60 NS
13 144 100 NS
Zinc carbonate Susp. 60 S
Zinc chlorideSat. sol. 60 S
58 60 S
Zinc nitrate Sat. sol. 60 S
Zinc oxide Susp. 60 S
Zinc sulphate Sat. sol. 60 S
NOTES
The Technical Report ISO /TR 10358 : 1993 establishes a classification of the chemical resistance of pipe materials to specified fluids over a range of temperatures. This report provides only preliminary classification of the chemical resistance of pipes and fittings which are not subjected to pressure. The pipe material mentioned is: PP Polypropylene
EXPLANATION OF SYMBOLS
a. symbols used for the chemical resistance of the pipe materialS satisfactory resistance L limited resistanceNS resistance not satisfactory
b. symbols used to describe the fluids
Subl. : sublimesDec. : decomposesm.p. : melting pointb.p. : boiling pointDil. sol. : dilute aqueous solution ( ≤ 10 % )sol. : aqueous solution ( > 10 % )Sat.sol : saturated aqueous solution at 20 oCtg : at least technical-grade purity
tg-s : technical-grade, solidtg-l : technical-grade, liquidtg-g : technical-grade, gasWork.sol. : working solution (used in the industry )Susp. : suspension of solids in a saturated
solution at 20 oC% : concentration by mass at 20 oC
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CONVEYING DRAINAGE NETWORK DESIGN
• The drainage networks need to have ventilation in order to avoid the pressures inside the pipe • There are two types of pipes networks: the thermal ventilation and the parallel ventilation.• Special attention is needed when connecting pipes and fittings.
The European Standard EN12056 gives guidlines of the Criteria in the design of a waste system.
THERMAL EXPANSION/CONTRACTION
When PP contacts hot waste water, an increase in pipe length occurs. Taking into consideration the coefficient of linear thermal expansion for PP 0.11 and the mathematic formula ΔΙ= L• λ• ΔT, where: Δl : is the expansion (contraction) of PP piping system (in mm)L : is the initial length of PP piping system (in m)λ : is the coefficient of linear thermal expansion for PP = 0.11
ΔT: is the difference between the lower and the higher expected temperature (in oC)it is easy to calculate the expansion (or the contraction) of a PP system.For example: ΔT = 30 oC L = 3m λ= 0.11
Δl = 3 • 0,11 • 30mm =+9,9mm That is: a 3 m pipe expands to 3,0099m
mmm• oC
mmm• oC
mmm• oC
Figure 1Figure 1: ThermalVentilation
Figure 2 - Figure 3: Parallel Ventilation
Figure 2 Figure 3
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INDICATIVE PIPE CONNECTION
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THREE LAYER PP PIPES TRIPLEX
The TRIPLEX pipes for building installations meet the requirements of the European Standard EN 1451-1 (class B) and they are available in grey colour (RAL 7037), in 500mm, 750mm, 1000mm, 1500mm, 2000mm and 3000mm pipe length. They are suitable for use in waste water drainage systems, air ducts and rain water systems in residencies, hospitals, public, professional and industrial buildings etc.The inner and outer layers of the TRIPLEX pipes consist of compact PP, while the intermediate layer is of specially treated PP that provides excellent sound insulation.
ADVANTAGES
• High sound proof propertiesDrainage systems in the buildings produce noise due to the water flow through the pipelines. The vibrations coming from the water flow are transmitted through the walls to the adjacent places, thus increasing the noise limits at an annoying level. For example, the noise produced by the telephone, the bath tap and the dishwashing machine have been measured to be 60dB, 45dB, 36dB respectively, while the noise from the three layer TRIPLEX pipes is much lower. This attribute is of exceptional importance, since the sensibility of human hearing to the level of noise is not linear. An increase or decrease of 3dB equals to doubling or halving of the sound power.The TRIPLEX system has been certified by Fraunhofer Institut fur Bauphysik in Stuttgart, which is the best laboratory for acoustic tests. The test method that was used to measure the noise level of the drainage system is in consistency with EN 14366 standard. The test results obtained by the above mentioned Institute confirm the acoustic protection of TRIPLEX systems, estimating the noise produced by the TRIPLEX system to be 22dB.
TRIPLEXNominal Diameter
DN (mm)Wall Thickness
e (mm)40 2.0
50 2.0
75 2.1
100 3.3
110 2.9
125 3.3
160 4.0
EXTERNAL LAYER PP
• High impact resistance
• Smooth surface
• Fire resistance
MIDDLE LAYER PP
• High soound proof effect
INNER LAYER PP
• Smooth surface
• Corrosion resistance
• Chemical resistance
THREE LAYER PP PIPES TRIPLEX WITH EXCELLENT SOUND PROOF PROPERTIES
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THREE LAYER PP PIPES TRIPLEX
Figure 4 Fraunhofer Institut fur Bauphysik - Installation plan of the pipe system TRIPLEX (dimensions in mm)
Moreover, TRIPLEX pipes offer:• high corrosion resistance• chemical resistance• fire resistance• higher impact resistance than that of other pipes, even at low temperatures
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CONNECTION, TRANSPORTATION AND STORAGE
CONNECTION OF PIPES AND FITTINGS
The connection of PP pipes and fittings is simple, quick and easy due to the double lip seal in the socket. The lip seals make the installation easy and quick, and they ensure excellent leak-tightness, so that the assembly becomes simple without using any glue or special equipment. The connection is made by putting the straight end in the socket up to the point it stops.In case one might need to cut the pipe at a length different than the one the pipe already has, a special cutting tool should be used in order to prevent the pipe’s damage. The pipe should be cut vertically to its axis and, then, the ends have to be knurled (e.g. with rasp) at approximately 15o. For achieving a better application, the free ends of the pipes would better be covered with a proper lubricant.It has to be emphasized that the fittings should remain as they are.
TRANSPORTATION AND STORAGE
The PP pipes of 150mm, 250mm and 500mm in length are packed in carton boxes, while the pipes of 750mm, 1000mm, 1500mm, 2000mm and 3000mm in length are placed in special clamps according to the size of packaging.It is suggested that the pipes and fittings should not be exposed at high temperatures or under the sun for a long period of time.During their loading and unloading, the PP pipes should be placed with particular care with the sockets standing out alternatively, so that any deformations are avoided.Particular care is required during transportation, when the ambient temperature is below 0oC, so that the pipes are not touching down.
Double Lip Seal
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THREE LAYER PP PIPES TRIPLEX
SINGLE SOCKET 3 LAYER PIPE - TRIPLEX
DN (mm) S1 (mm) CODE L (mm)
40 2.0 1130400500 500
40 2.0 1130400750 750
40 2.0 1130401000 1000
40 2.0 1130401500 1500
40 2.0 1130402000 2000
40 2.0 1130403000 3000
50 2.0 1130500500 500
50 2.0 1130500750 750
50 2.0 1130501000 1000
50 2.0 1130501500 1500
50 2.0 1130502000 2000
50 2.0 1130503000 3000
75 2.1 1130750500 500
75 2.1 1130750750 750
75 2.1 1130751000 1000
75 2.1 1130751500 1500
75 2.1 1130752000 2000
75 2.1 1130753000 3000
100 3.3 1131000500 500
100 3.3 1131000750 750
100 3.3 1131001000 1000
100 3.3 1131001500 1500
100 3.3 1131002000 2000
100 3.3 1131003000 3000
110 2.9 1131100500 500
110 2.9 1131100750 750
110 2.9 1131101000 1000
110 2.9 1131101500 1500
110 2.9 1131102000 2000
110 2.9 1131103000 3000
125 3.3 1131251000 1000
125 3.3 1131251500 1500
125 3.3 1131252000 2000
125 3.3 1131253000 3000
160 4.0 1131603000 3000
DN (mm) S1 (mm) CODE L (mm)
40 2.0 1230400500 500
40 2.0 1230400750 750
40 2.0 1230401000 1000
40 2.0 1230401500 1500
40 2.0 1230402000 2000
40 2.0 1230403000 3000
50 2.0 1230500500 500
50 2.0 1230500750 750
50 2.0 1230501000 1000
50 2.0 1230501500 1500
50 2.0 1230502000 2000
50 2.0 1230503000 3000
75 2.1 1230750500 500
75 2.1 1230750750 750
75 2.1 1230751000 1000
75 2.1 1230751500 1500
75 2.1 1230752000 2000
75 2.1 1230753000 3000
100 3.3 1231000500 500
100 3.3 1231000750 750
100 3.3 1231001000 1000
100 3.3 1231001500 1500
100 3.3 1231002000 2000
100 3.3 1231003000 3000
110 2.9 1231100500 500
110 2.9 1231100750 750
110 2.9 1231101000 1000
110 2.9 1231101500 1500
110 2.9 1231102000 2000
110 2.9 1231103000 3000
125 3.3 1231251000 1000
125 3.3 1231251500 1500
125 3.3 1231252000 2000
125 3.3 1231253000 3000
160 4.0 1231603000 3000
DOUBLE SOCKET 3 LAYER PIPE - TRIPLEX
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FASO-PP PIPES & FITTINGS
DN CODE Smin L(mm)
40 1100400150 1.8 150
40 1100400250 1.8 250
40 1100400500 1.8 500
40 1100400750 1.8 750
40 1100401000 1.8 1000
40 1100401500 1.8 1500
40 1100402000 1.8 2000
40 1100403000 1.8 3000
50 1100500150 1.8 150
50 1100500250 1.8 250
50 1100500500 1.8 500
50 1100500750 1.8 750
50 1100501000 1.8 1000
50 1100501500 1.8 1500
50 1100502000 1.8 2000
50 1100503000 1.8 3000
75 1100750150 1.9 150
75 1100750250 1.9 250
75 1100750500 1.9 500
75 1100750750 1.9 750
75 1100751000 1.9 1000
75 1100751500 1.9 1500
75 1100752000 1.9 2000
75 1100753000 1.9 3000
100 1101000150 3.2 150
100 1101000250 3.2 250
100 1101000500 3.2 500
100 1101000750 3.2 750
DN CODE Smin L(mm)
100 1101001000 3.2 1000
100 1101001500 3.2 1500
100 1101002000 3.2 2000
100 1101003000 3.2 3000
110 1101100150 2.7 150
110 1101100250 2.7 250
110 1101100500 2.7 500
110 1101100750 2.7 750
110 1101101000 2.7 1000
110 1101101500 2.7 1500
110 1101102000 2.7 2000
110 1101103000 2.7 3000
125 1101250150 3.1 150
125 1101250250 3.1 250
125 1101250500 3.1 500
125 1101250750 3.1 750
125 1101251000 3.1 1000
125 1101251500 3.1 1500
125 1101252000 3.1 2000
125 1101253000 3.1 3000
160 1101600150 3.9 150
160 1101600250 3.9 250
160 1101600500 3.9 500
160 1101601000 3.9 1000
160 1101601500 3.9 1500
160 1101602000 3.9 2000
160 1101603000 3.9 3000
SINGLE SOCKET PP PIPE - FASO PP
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FASO-PP PIPES & FITTINGS
DN CODE Smin L(mm)
40 1200400500 1.8 500
40 1200400750 1.8 750
40 1200401000 1.8 1000
40 1200401500 1.8 1500
40 1200402000 1.8 2000
40 1200403000 1.8 3000
50 1200500500 1.8 500
50 1200500750 1.8 750
50 1200501000 1.8 1000
50 1200501500 1.8 1500
50 1200502000 1.8 2000
50 1200503000 1.8 3000
75 1200750500 1.9 500
75 1200750750 1.9 750
75 1200751000 1.9 1000
75 1200751500 1.9 1500
75 1200752000 1.9 2000
75 1200753000 1.9 3000
DOUBLE SOCKET PP PIPE - FASO PP
DN CODE Smin L(mm)
100 1201000500 3.2 500
100 1201000750 3.2 750
100 1201001000 3.2 1000
100 1201001500 3.2 1500
100 1201002000 3.2 2000
100 1201003000 3.2 3000
110 1201100500 2.7 500
110 1201100750 2.7 750
110 1201101000 2.7 1000
110 1201101500 2.7 1500
110 1201102000 2.7 2000
110 1201103000 2.7 3000
125 1201250500 3,1 500
125 1201251000 3,1 1000
125 1201251500 3,1 1500
125 1201252000 3,1 2000
125 1201253000 3,1 3000
HOLDER WITH RUBBER (IDEAL FOR PP SOUNDPROOF SYSTEMS)
DN (mm) THREAD RUBBER SCREW CODE
40 M8 1.5 x 20 M6 1130000040
50 M8 1.5 x 20 M6 1130000050
75 M10 2.0 x 25 M6 1130000075
100 M10 2.0 x 25 M6 1130000100
110 M10 2.5 x 25 M6 1130000110
125 M10 2.5 x 25 M6 1130000125
160 M10 2.5 x 25 M6 1130000160
18
FASO-PP PIPES & FITTINGS
DN CODE Z1(mm) Z2(mm)40 1300401500 4 1050 1300501500 5 1175 1300751500 7 12100 1301001500 9 14110 1301101500 9 15125 1301251500 10 16160 1301601500 12 18
DN CODE Z1(mm) Z2(mm)40 1300404500 11 1750 1300504500 13 1975 1300754500 18 24
100 1301004500 24 29110 1301104500 25 31125 1301254500 29 35160 1301604500 36 42
DN CODE Z1(mm) Z2(mm)40 1300408730 26 2650 1300508730 31 3175 1300758730 43 43
100 1301008730 57 60110 1301108730 60 61125 1301258730 67 70160 1301608730 84 89
BEND 150
DN CODE Z1(mm) Z2(mm)40 1300403000 7 1350 1300503000 8 1475 1300753000 12 18
100 1301003000 15 21110 1301103000 16 22125 1301253000 18 24160 1301603000 23 29
BEND 300
DN CODE Z1(mm) Z2(mm)40 1300406730 18 2450 1300506730 21 2775 1300756730 29 35
100 1301006730 40 44110 1301106730 41 47125 1301256730 46 52160 1301606730 23 29
BEND 67,50
BEND 450
BEND 87,50
19
FASO-PP PIPES & FITTINGS
DN CODE Z1(mm) Z2(mm) Z3(mm)
100/50/50 1610050506 8 72 50
110/50/50 1611050506 8 73 54
DN CODE Z1(mm) Z2(mm) Z3(mm)
40/40 1404004045 11 49 49
50/50 1405005045 13 61 61
75/75 1407507545 18 91 91
110/110 1411011045 25 134 134
125/125 1412512545 29 151 151
160/160 1416016045 36 193 193
DN CODE Z1(mm) Z2(mm) Z3(mm)
40/40 1404004067 18 33 33
50/50 1405005067 21 41 41
75/75 1407507567 29 59 59
100/100 1410010067 40 84 84
110/110 1411011067 41 85 85
125/125 1412512567 46 97 97
160/160 1416016067 58 123 123
DN CODE Z1(mm) Z2(mm) Z3(mm)
40/40 1404004087 26 25 25
50/50 1405005087 31 30 30
75/75 1407507587 43 43 43
100/100 1410010087 57 58 58
110/110 1411011087 60 61 61
125/125 1412512587 67 70 69
160/160 1416016087 84 89 87
DOUBLE BRANCH
BRANCH 450
BRANCH 67,50
BRANCH 87,50
20
FASO-PP PIPES & FITTINGS
DN CODE Z1(mm) Z2(mm) Z3(mm)
50/40 1505004045 6 56 54
75/40 1507504045 -7 73 66
75/50 1507505045 1 78 73
110/50 1511005045 -17 103 91
110/75 1511007545 1 116 108
125/50 1512505045 -24 114 98
125/110 1512511045 18 144 141
160/110 1516011045 0 168 158
160/125 1516012545 11 176 169
DN CODE Z1(mm) Z2(mm) Z3(mm)
50/40 1505004067 16 39 35
75/40 1507504067 10 52 40
75/50 1507505067 16 54 46
100/50 1510005067 8 73 52
100/75 1510007567 22 78 65
110/50 1511005067 9 73 53
110/75 1511007567 22 78 67
125/50 1512505067 5 81 56
125/110 1512511067 38 94 89
160/110 1516011067 31 113 96
160/125 1516012567 39 116 104
DN CODE Z1(mm) Z2(mm) Z3(mm)
50/40 1505004087 26 30 25
75/40 1507504087 25 43 26
75/50 1507505087 30 43 31
100/50 1510005087 28 58 30
100/75 1510007587 40 60 43
110/50 1511005087 30 60 31
110/75 1511007587 42 61 44
125/50 1512505087 30 68 31
125/110 1512511087 60 69 61
160/110 1516011087 59 86 62
160/125 1516012587 67 56 69
SYSTOLIC BRANCH 450
SYSTOLIC BRANCH 67,50
SYSTOLIC BRANCH 87,50
21
FASO-PP PIPES & FITTINGS
DN CODE Z1(mm)
50/40 1702050040 43
DN CODE Z1(mm)
50/40 1703050040 14
75/40 1703075040 28
75/50 1703075050 22
110/50 1703110050 43
110/75 1703110075 28
125/110 1703125110 37
160/110 1703160110 34
160/125 1703160125 28
DN CODE L(mm)
40 1801000040 137
50 1801000050 137
75 1801000075 144
100 1801000100 168
110 1801000110 170
125 1801000125 177
160 1801000160 196
DN CODE Z1(mm)
50/40 1704050040 -12
75/40 1704075040 -12
75/50 1704075050 -12
100/50 1704100050 -36
100/75 1704100075 -40
110/50 1704110050 -36
110/75 1704110075 -40
110/125 1704110125 -52
DN CODE L(mm)
40 1802000040 137
50 1802000050 137
75 1802000075 144
100 1802000100 168
110 1802000110 170
125 1802000125 177
160 1802000160 196
ECCENTRIC REDUCER
ECCENTRIC REDUCER - LONG
SLIP COUPLING
ECCENTRIC REDUCER - SHORT DOUBLE SOCKET COUPLING
DN CODE L(mm)
50 1805000050 146
75 1805000075 192
100 1805000100 226
110 1805000110 228
125 1805000125 236
160 1805000160 303
ACCESS PIPE WITH CAP
22
FASO-PP PIPES & FITTINGS
DN CODE
40 1807200040
DN CODE
40 1807100040
DN CODE L(mm)
40/40 1803040040 105
50/50 1803050050 105
75/75 1803075075 144
DN CODE
40x1"1/4 1808114040
40x1"1/2 1808112040
DN CODE
40x1"1/4 1810114040
40x1" 1/2 1810112040
50x1" 1/4 1810114050
50x1" 1/2 1810112050
DN CODE
40x1"1/4 1809114040
40x1" 1/2 1809112040
50x1" 1/4 1809114050
50x1" 1/2 1809112050
SINK BEND PIPE - SHORTWITH RUBBER INLET
SINK BEND PIPE - LONGWITH RUBBER INLET
CONNECTOR TO PVC / PP CONNECTOR BEND
WITH NUT
CONNECTORWITH NUT - LONG
CONNECTORWITH NUT - SHORT
23
FASO-PP PIPES & FITTINGS
DN CODE L(mm)
40 1804000040 39
50 1804000050 39
75 1804000075 39
100 1804000100 44
110 1804000110 46
125 1804000125 50
160 1804000160 58
DN CODE L(mm)
50 1904000050 72
75 1904000075 72
110 1904000110 72
DN CODE
40x1"1/4 1808114040
40x1"1/2 1808112040
ML CODE
150 1900000150
250 1900000250
DN CODE
110 1901230100
DN CODE
110 1902230100
DN CODE
110 1901000110
DN CODE
100/110 1903100110
PLUG
CONNECTOR VENT STACK
LUBRICANT
WC BEND WITH RUBBER WATERTIGHT RING (LONG)
WC BEND WITH RUBBER WATERTIGHT RING (SHORT)
WC BEND REDUCER
CONNECTOR TO PP / PVC
FASO-PP PIPES & FITTINGS
DESCRIPTION CODE D1 D2, D3, D4, D5
GULLY TRAP WITH METALLIC GRATE INOX
7110050040 50 40
GULLY TRAP WITH PLASTIC GRATE
7111050040 50 40
GULLY TRAP WITH METALLIC GRATE INOX
7110075040 75 40
GULLY TRAP WITH PLASTIC GRATE
7111075040 75 40
THE GULLY TRAP INCLUDES
• ADJUSTABLE HEIGHT FLOOR SIPHON• GRATE INOX OR ABS• FOAM HOLD VALVE• 4 ENTRANCE NIPPLES• 4 ENTRANCE RUBBERS• 3 ENTRANCE TAPS• 1 PROTECTING TAP
PP GULLY TRAP
24
28
GR. FASSOIS S.A.THESSI DIO PEFKA • GR-193 00 ASPROPIRGOS ATTICA GREECEΤEL.: +30 210 55 96 333 (20 lines) • FAX: +30 210 55 95 130
e-mail: info@fasoplast.gr • www.fasoplast.gr
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INDUSTRY OF PLASTIC PIPES AND FITTINGSPVC - POLYETHYLENE (ΡΕ) - POLYPROPYLENE (ΡΡ)
GR. FASSOIS S.A.