Dacta Therm PPR Piping System

Original Text shall be placed here

PPR PIPES AND FITTINGS

Technical Guide

Reliable PPR Piping Systems for Hot & Cold Water Applications

www.hepworth.ae

1

Terms of Use

All information is correct at the time of going to press. However, we reserve the right to alter, amend or update any product, system and services described in this brochure. We accept no responsibility for the wrong interpretation of statements made. © Corys Piping Systems LLC

written authorization by Corys Piping Systems LLC. All rights are vested at Corys Piping Systems LLC

2

Table of content

Section

Page

Introduction

4 5 6 7

Field of Application

Dacta Therm Solid PP-R pipes

Dacta Therm fiberglass reinforced PP-R pipes

Chemical Resistance

9 - 15

Pressure loss

16 - 19

Testing of Dacta Therm PP-R pipes and fittings

20 21 22

Service life

Dacta Therm Pipes

23 - 30 31 - 32 33 - 37

Dacta Therm Fittings & Accessories Welding & Installation Guidelines

Linear expansion Installation in shaft

38 39

Assembly

Storage & Transport

40 - 41 42 - 45 46 - 60

Certificates Como Pex

3

Introduction

Corys Piping Systems manufactures and distributes a wide range of innovative and sustainable piping systems for diverse applications, such as buildings, utilities, infrastructure, industrial, irrigation and agriculture. Over the last 40 years it has provided dependable solutions to government agencies, commercial, residential, industrial and educational institutions of all sizes within the Middle East and Africa region. has two major manufacturing sites in the UAE, one in Qatar and another in Oman. It further trades internationally through a wide network of authorized distributors. Today, the company is established as a leading manufacturer and supplier of piping systems and, despite a constantly changing world, it remains focused on its customers, providing innovative and sustainable solutions. Corys is part of Green Coast Enterprise, a private family business with a rich business history spanning 40+ years. As part of its strategy to grow its products portfolio, the company recently launched its own brand under the name of Dacta, a locally-manufactured range of Dacta Drainage, solvent weld uPVC above ground drainage system and Dacta Therm (PPR piping system) to cater to the civil and building construction sectors. The new range of Dacta products is synonymous with quality and availability and allows the company to be present throughout all segments of the building materials industry. DACTA Therm (PP-R) is suitable for use in central cooling systems and is ideal for transporting both hot and cold water in a variety of building systems as well as industrial and marine applications. The system features high temperature and pressure resistance while being hygienically safe and eligible for use in potable water applications. Corys Piping Systems

PPR Pipes and Fitting

4

Fields of Application

Standard PP-R Pipe Systems

Fiberglass Reinforced Pipe Systems

Plumbing Applications

Plumbing installations

Mobile System Plumbing

Heating and Cooling Systems

Boiler Replacement

Mobile System Heating

Underfloor Heating

Mobile System Clean Water

Clima System Drinking Water Network Applications Drinking Water Network *Exterior Application

Solar Collector

Swimming Pool System

Industrial Clean Water System

* Dacta Therm can be used for exterior applications after insulation

Table 1.0

5

Dacta Therm Solid PP-R pipes

Mono Layer

(Figure 1)

Application Areas • Plumbing installations

Raw material: PP-R Diameter: 20 mm - 160 mm Pressure rating (PN): PN 20 Standard Dimension Ratio (SDR): SDR 6 Standards: DVGW W544, ISO 15874-1, ISO 15874-2, ISO 15874-3, DIN 8077, DIN 8078 Service life: 50 years Color: green Temperature of operating media: 5°C - 70°C Operation & installation temperature: 5°C - 45°C Pipe length: 4m Connections: Fusion welding Coefficient of thermal expansion: 0.15mm/mK Coefficient of thermal conductivity: 0.24w/mK

• Mobile System Plumbing • Mobile System Heating • Mobile System Clean Water • Drinking water network • Swimming pool systems • Industrial clean water systems

6

Dacta Therm fiberglass reinforced PP-R pipes

Outer Layer PP-R

Middle Layer Fiberglass reinforced special formulation

Inner Layer PP-R

(Figure 2)

Application Areas • Plumbing installations • Mobile System Plumbing • Boiler replacement • Mobile System Heating • Mobile System Clean Water • Drinking water network • Swimming pool systems • Industrial clean water systems

Raw material: PP-R Diameter: 20 mm - 160 mm Pressure rating (PN): PN 20 Standard Dimension Ratio (SDR): SDR 6 Standards: DIN 8077/78 Service life: 50 years Color: green Temperature of operating media: 5°C - 95°C Operation & installation temperature: 5°C - 45°C Pipe length: 4m Connections: Fusion welding Coefficient of thermal expansion: 0.035mm/mK Coefficient of thermal conductivity: 1.10w/mK

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Dacta Therm has 2 types of PP-R pipes

Standard PP-R Pipe Systems Fiberglass Reinforced Pipe Systems

20 ø - 160 ø

20 ø - 160 ø

Diameter

Pressure Nominal (PN)

PN20

PN20

DVGW W544, ISO 15874-1, ISO 15874-2, ISO 15874-3, DIN 8077, DIN 8078

DIN 8077/78

Standard

Service Life (See Table 5)

50 Years

50 Years

Colour

Green

Green

Working Liquid Temperature

5°C - 70°C

5°C - 95°C

Operation & Installation Temperature

5°C - 45°C

5°C - 45°C

*Pipe Length

4 m

4 m

Impact Strength

EN 15874

DIN 8078

Application Class

A Class 1,2,5

A Class 1,2,5

Density

0,09 gr/cm3

0,98 gr/cm3

Connections

Fusion welding

Fusion welding

3 Layer PP-R / GF** / PP-R **Glassfiber Reinforced Formula

Structure

1 Layer PP-R

Coefficient of Thermal Expansion

0,15mm/mK

0,035mm/mK

Coefficient of Thermal Conductivity

0,24w/mK

1,10w/mK

Product Quality

Raw Material: (PP-R)

*Different lengths are available for special orders.

*Different colours are available for special orders.

Table 2.0

8

Chemical Resistance

Sat.sol Saturated aqueous solution, prepared at 20°C Sol Aqueous solution at a concentration higher than 10 % but not saturated Dil.sol Dilute aqueous solution at a concentration equal to or lower than 10 % Work.sol Aqueous solution having the usual concentration for industrial use Solution concentrations reported in the text are expressed as a percentage by mass. The aqueous solutions of slightly soluble chemicals are considered, as far as chemical action towards polypropylene is concerned, as saturated solutions. In general, common chemical names are used in this document The table serves as a first guideline for users of polypropylene. If a chemical compound is not to be found or if there is an uncertainty regarding the chemical resistance in an application, please contact Technical Department for advice and recommendations on testing.

The table in this document summarizes the data given in a number of polypropylene chemical resistance tables cur- rently in use in various countries, derived from both practical experience and test results.

Source: ISO/TR 10358

The table contains an evaluation of the chemical resistance to a number of fluids judged to be either aggressive or not towards polypropylene. This evaluation is based on values obtained by immersion of polypropylene test specimens in the fluid concerned at 20, 60 and 100°C and atmospheric pressure, followed in certain cases by the tensile characteristics. Definitions,symbols and abbreviations The criteria of classifications, definitions, symbols and abbreviations adopted in this document are as follows: S = Satisfactory The chemical resistance of polypropylene exposed to the action of a fluid is classified as “satisfactory” when the test results are acknowledged to be “satisfactory” by the ma- jority of the countries participating in the evaluation. L = Limited The chemical resistance of polypropylene exposed to the action of a fluid is classified as “ limited ” when the test results are acknowledged to be “ limited ” by the majority of the countries participating in the evaluation. Also classified as “limited” is the resistance to the action of chemical fluids for which judgements “ S ” and “ NS ” or “ L ” are pronounced to an equal extent. NS = Not satisfactory The chemical resistance of polypropylene exposed to the action of a fluid is classified as “not satisfactory” when the test results are acknowledged to be “not satisfactory” by the majority of the countries participating in the evaluation. Also classified as “not satisfactory” are materials for which judgement “ L ” and “ NS ” are pronounced to an equal extent.

9

Chemical resistance table for polypropylene

Chemical resistance of polypropylene, not subjected to mechanical stress, for various media at 20, 60 & 100 ° C Chemical or Product Concentration Temperature ° C 20 60 100 Acetic acid Up to 40 % S S - Acetic acid 50 % S S L Acetic acid, glacial > 96 % S L NS Acetic anhydride 100 % S - - Acetone 100 % S S - Aceptophenone 100 % S L - Acrylonitrile 100 % S - - Air S S S Allyl alcohol 100 % S S - Almond oil S - - Alum Sol S S - Ammonia, aqueous Sat. sol S S - Ammonia, dry gas 100 % S - - Ammonia, liquid 100 % S - - Ammonium acetate Sat. sol S S - Ammonium chloride Sat. sol S S - Ammonium fluorid Up to 20 % S S - Ammonium hydrogen carbonate Sat. sol S S - Ammonium metaphosphatea Sat. sol S S S Ammonium nitrate Sat. sol S S S Ammonium persulphate Sat. sol S S - Ammonium phosphate Sat. sol S - - Ammonium sulphate Sat. sol S S S Ammonium sulphide Sat. sol S S - Amyl acetate 100 % L - - Amyl alcohol 100 % S S S Aniline 100 % S S - Apple juice S - - Aqua regia HCI /HN03 = 3/1 NS NS NS Barium bromide Sat. sol S S S Barium carbonate Sat. sol S S S Barium chloride Sat. sol S S S Barium hydroxide Sat. sol S S S Barium sulphide Sat. sol S S S Beer S S - Benzene 100 % L NS NS Benzoic acid Sat. sol S S - Benzyl alcohol 100 % S L - Borax Sol S S - Boric acid Sat. sol S - - Boron trifluoride Sat. sol S - - Bormine, gas NS NS NS Bromine, liquid 100 % NS NS NS Table 3.0

10

Chemical resistance table for polypropylene

Chemical or Product

Concentration

Temperature ° C

20

60

100

Butane, gas

100 % 100 % 100 % 100 % 100 % 100 % Sat. sol

S

-

-

Bromine, liquid

NS

NS NS

Butane, gas

S S L S S S S S S S S

-

-

Butanol

L

L

Butyl acetate Butyl glycol Butyl phenols Butyl phthalate

NS NS

- -

- -

100 %

L

L

Calcium carbonate Calcium chlorate Calcium chloride Calcium hydroxide Calcium hypochlorite

Sat. sol Sat. sol Sat. sol Sat. sol

S S S S

S

-

S S

Sol

-

-

Camphor oil

NS

NS NS

Carbon dioxide, dry gas Carbon dioxide, wet gas

S S S S

S S

- -

Carbon disulphide

100 %

NS NS

Carbon monoxide, gas Carbon tetrachloride

S

-

100 % 100 %

NS

NS NS

Castor oil

S S S

S L L

-

Caustic soda

Up to 50 %

L

Chlorine, aqueous Chlorine, dry gas Chlorine, liquid Chloroacetic acid

Sat. sol

-

100 % 100 %

NS NS

NS NS NS NS

Sol

S S L

- -

- -

Chloroethanol

100 % 100 % 100 %

Chloroform

NS NS NS NS

Chlorosulphonic acid

NS

Chrome alum Chromic acid

Sol

S S S S S S S S S S S S

S L S

-

Up to 40 %

NS

Citric acid Coconut oil

Sat. sol

S

-

- -

Copper (II) chloride Copper (II) nitrate

Sat. sol Sat. sol Sat. sol

S S S L S

S

Copper (II)

- - - - - -

Corn oil

Cottonseed oil

Cresol

Greater than 90%

- -

Cyclohexane Cyclohexanol Cyclohexanone

L

L

NS NS

Decalin (decahydronaphthalene)

100 %

NS

NS NS

Dextrin

Sol Sol

S S S L L

S S L

-

Dextrose

S

Dibutyl phthalate Dichloroacetic acid

100 % 100 % 100 %

NS

- -

-

Dichioroethylene (A and B)

- Table 3.1

11

Chemical resistance table for polypropylene

Chemical or Product

Concentration

Temperature ° C

20

60

100

Diethanolamine

100 % 100 % 100 % Sat. sol

S S S S S S S L L S S L S

-

- - - - - - - - -

Diethyl ether

L S

Diethylene glycol

Diglycolic acid

-

Diisooctyl

100 %

L

Dimethyl amine, gas Dimethyl formamide Dioctyl phthalate

-

100 % 100 % 100 % 100 % 100 % 100 %

S L L S

Dioxane

Distilled water

S

Ethanolamine Ethyl acetate Ethyl alcohol

-

-

NS

NS

Up to 95 %

S

S

Ethyl chloride, gas

NS

NS

NS

Ethylene chloride (mono and di)

L S S S S S S S S S

L L S

- -

Ethyl ether

100 % 100 %

Ethylene glycol

S

Ferric chloride Formaldehyde

Sat. sol

S

S

40 % 10 % 85 %

-

-

Formic add Formic acid

S

L

NS

NS

Formic acid, anhydrous

100 %

L S S

L S S

Fructose Fruit juice

Sol

Gasoline, petrol (aliphatic hydrocarbons)

NS

NS

NS

Gelatine Glucose Glycerine

S S S S L S S S S S S S S S S S S S L

S S S

-

20 %

S S

100 %

Glycolic acid

30 %

-

-

Heptane Hexane

100 % 100 %

NS

NS

L L S L

-

Hydrobromic acid Hydrochloric acid Hydrochloric acid Hydrochloric acid Hydrofluoric acid Hydrofluoric acid

Up to 48 % Up to 20 %

NS

S L

30 %

From 35 to 36 %

- - - -

- - - - - - - -

Dil. sol

40 %

Hydrogen

100 % 100 %

Hydrogen chloride, dry gas

S

Hydrogen peroxide Hydrogen peroxide

Up to10 % Up to 30 %

-

L S

Hydrogen sulphide, dry gas

100 %

Iodine, in alcohol

-

-

Is octane

100 %

NS

NS

Table 3.2

12

Chemical resistance table for polypropylene

Concentration

Chemical or Product

Temperature ° C

20

60

100

Isopropyl alcohol Isopropyl ether

100 % 100 %

S L S S S S S S S S S S S S S S S

S

S

-

-

Lactic acid Lanoline Linseed oil

Up to 90 %

S L S S S S S S S S S S S L

- -

S

Magnesium carbonate Magnesium chloride Magnesium hydroxide Magnesium sulphate

Sat. sol Sat. sol Sat. sol Sat. sol Sat. sol Sat. sol Sat. sol

S

- - - - - - - - -

Maleic acid

Mercury (II) chloride Mercury (II) cyanide Mercury (I) nitrate

Sol

Mercury

100 % 100 %

Methyl acetate Methyl alcohol Methyl amine Methyl bromide

5 %

L

Up to 32 %

-

-

100 % 100 % 100 %

NS

NS

NS

Methyl ethyl ketone Methylene chloride

S L S S S S S S S L

-

-

NS

NS

Milk

S S

S

Monochloroacetic acid

> 85 %

-

Naphtha

NS

NS

Nickel chloride Nickel nitrate Nickel sulphate

Sat. sol Sat. sol Sat. sol

S S S

- - -

Nitric acid Nitric acid

Up to 30 %

NS NS NS

NS NS NS

From 40 to 50 %

Nitric acid, fujming (with nitrogen dioxide)

NS

Nitrobenzene

100 %

S

L

Oleic acid

100 %

S S S S S S S S S L S S S S L S

L L S L

- -

Oleum (sulphuric acid with 60 % of S03)

Olive oil

L

Oxalic acid Oxygen, gas

Sat. sol

NS

-

-

Paraffin oil (FL65)

L S

NS

Peanut oil

- - - - - - -

Peppermint oil Perchloric acid

- -

(2N) 20 %

Petroleum ether (ligroine)

L S

Phenol Phenol

5 %

90 %

-

Phosphine, gas Phosphoric acid

S S

Up to 85 %

S

Phosphorus oxychloride

100 %

- -

-

Picric acid

Sat. sol

- Table 3.3

13

Chemical resistance table for polypropylene

Chemical or Product

Concentration

Temperature ° C

20

60

100

Potassium bicarbonate Potassium borate Potassium bromate Potassium bromide Potassium carbonate Potassium chlorate Potassium chlorite Potassium chromate Potassium cyanide Potassium dichromate Potassium ferricyanide Potassium fluoride Potassium hydroxide Potassium iodide Potassium nitrate Potassium perchlorate Potassium permanganate Potassium persulphate

Sat. sol Sat. sol

S S S S S S S S S S S S S S S S S S S S S L S S S S S S S S S S S S S S S S S S S S S S S S

S S S S S S S S

S

- -

Up to 10 %

Sat. sol Sat. sol Sat. sol Sat. sol Sat. sol

Sol

-

Sat. sol Sat. sol Sat. sol

S S S S

S

- -

Up to 50 %

S

Sat. sol Sat. sol

-

- - - - - - - - -

S S

10 %

(2N) 30 %

-

Sat. sol Sat. sol 100 % > 50 %

S S

Potassium sulphate

Propane, gas Propionic acid

- - -

Pyridine

100 %

Seawater Silicon oil

S S S S L S S S S L L S S S

S S L S

Silver nitrate Sodium acetate

Sat. sol Sat. sol

Sodium benzoate Sodium bicarbonate Sodium carbonate Sodium chlorate Sodium chloride Sodium chlorite Sodium chlorite Sodium dichromate

35 %

-

Sat. sol

S L

Up to 50 %

Sat. sol Sat. sol

- -

2 %

NS NS

20 %

Sat. sol Sat. sol Sat. sol Sat. sol

S S

Sodium hydrogen carbonate Sodium hydrogen sulphate Sodium hydrogen sulphite

- -

-

Sodium hydroxide Sodium hydroxide

1%

S S

S S

From 10 to 60 %

Sodium hydrogen sulphite Sodium hydroxide Sodium hydroxide Sodium hypochlorite Sodium hypochlorite Sodium hypochlorite Sodium metaphosphate

Sat. sol

-

-

1%

S S S

S S

From 10 to 60 %

5%

- - -

10% - 15%

-

20%

L

Sol

-

- Table 3.4

14

Chemical resistance table for polypropylene

Chemical or Product

Concentration

Temperature ° C

20

60

100

Sodium nitrate

Sat. sol Sat. sol

S S S S S S S S S S S S S S S L S

S S S S S

- -

Sodium perborate

Sodium phosphate (neutral)

S

Sodium silicate Sodium sulphate Sodium sulphide Sodium sulphite

Sol

- - -

Sat. sol Sat. sol

-

40 %

S

S

Sodium thiosulphate (hypo)

Sat. sol

-

- - -

Soybean oil Succinic acid Sulphuric acid

L S S S S L L

Sat. sol

Up to 10 %

S

Sulphuric dioxide, dry or wet

100 %

- -

Sulphur acid Sulphuric acid Sulphuric acid Sulphuric acid Sulphurous acid

From 10 to 30 %

50 %

L

96%

NS NS

98 %

NS

Up to 30 %

-

-

Tartaric acid

Sat. sol

S L

S

-

Tietrahydrofuran

100 % 100 % 100 %

NS NS

NS NS

Tetralin

NS

Thiophene

S S S L S

L S S

- - -

Tin (IV) chloride Tin (II) chloride

Sol

Sat. sol

Toluene

100 %

NS

NS

Trichloroacetic acid Trichloroethylene Triethanolamine

Up to 50 %

S

-

100 %

NS

NS

NS

Sol

S

-

-

Turpentine

NS

NS

NS

Urea

Sat. sol

S

S

-

Vinegar

S

S

Water brackish, mineral, potable

S S S

S S S

S

Whiskey

- -

Wines

Xylene

100 %

NS

NS

NS

Yeast

Sol

S

S

S

Zinc chloride Zinc sulphate

Sat. sol Sat. sol

S S

S S

- -

This data is based on multiple sources. You are required to carry out the appropriate tests to ensure the suitability and safety of the products for the envisaged use in accordance with all applicable regulations. Table 3.5

15

Pressure loss

D s Di V

20 mm 3,4 mm 13,2 mm

D s Di V

25 mm 4,2 mm 16,6 mm

D s

32 mm 5,4 mm 21,2 mm

Di V

Q

J

Q

J

Q

J

m/s

m 3 /h 0.18 0.25 0.29 0.36 0.40 0.43 0.50 0.54 0.58 0.65 0.68 0.76 0.79 0.83 0.90 0.94 0.97 1.04 1.08 1.12 1.19 1.22 1.30 1.33 1.37 1.44 1.48 1.51 1.58 1.62 1 69 1.73 1.76 1.84 1.87 1.91 1.98 2.02 2.05 2.12 2.16 2.23 2.27 2.30 2.38

m 3 /s

m/m

m/s

m 3 /h 0.32 0.40 0.47 0.54 0.61 0.68 0.79 0.86 0.94 1.01 1.08 1.15 1.26 1.33 1.40 1.48 1.55 1.62 1.73 1.80 1.87 1.94 2.02 2.09 220 2.27 2.34 2.41 2.48 2.56 2.66 2.74 2.81 2.88 2.95 3.02 3.13 3.20 3.28 3.35 3.42 3.49 3.60 3.67 3.74

m 3 /s

m/m

m/s

m 3 /h 0.50 0.65 0.76 0.90 1.01 1.15 1.26 1.40 1.51 1.66 1.76 1.91 2.02 2.16 2.30 2.41 2.56 2.66 2.81 2.92 3.06 3.17 3.31 3 42 3.56 3.67 3.82 3.92 4.07 4.18 4.32 4.46 4.57 4.72 482 4.97 5.08 5.22 5.33 5.47 558 5.72 583 5.98 6.08

m 3 /s

m/m

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00005 0.00007 0.00008 0.00010 0.00011 0.00012 0.00014 0.00015 0.00016 0.00018 0.00019 0.00021 0.00022 0.00023 0.00025 0.00026 0.00027 0.00029 0.00030 0.00031 0.00033 0.00034 0.00036 0.00037 0.00038 0.00040 0.00041 0.00042 0.00044 0.00045 0.00047 0.00048 0.00049 0.00051 0.00052 0.00053 0.00055 0.00056 0.00057 0.00059 0.00060 0.00062 0.00063 0.00064 0.00066

0.01555 0.02899 0.03713 0.05613 0.06696 0.07867 0.10467 0.11893 0.13403 0.16670 0.18426 0.22179 0.24174 0.26248 0.30632 0.32939 0.35324 0.40322 0.42935 0.45623 0.51224 0.54136 0.60181 0.63313 0.66519 0.73147 0.76570 0.80065 0.87269 0.90977 0.96607 1.02528 1.06519 1.14711 1.18911 1.23181 1.31928 1.36404 1.40950 1.50246 1.54996 1.64700 1.69653 1.74674 1.84918

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00009 0.00011 0.00013 0.00015 0.00017 0.00019 0.00022 0.00024 0.00026 0.00028 0.00030 0.00032 0.00035 0.00037 0.00039 0.00041 0.00043 0.00045 0.00048 0.00050 0.00052 0.00054 0.00056 0.00058 0.00061 0.00063 0.00065 0.00067 0.00069 0.00071 0.00074 0.00076 0.00078 0.00080 0.00082 0.00084 0.00087 0.00089 0.00091 0.00093 0.00095 0.00097 0.00100 0.00102 0.00104

0.01512 0.02193 0.02988 0.03895 0.04911 0.06035 0.07917 0.09302 0.10788 0.12375 0.14062 0.15847 0.18708 0.20736 0.22859 0.25078 0.27390 0.29796 0.33579 0.36216 0.38945 0.41764 0.44674 0.47674 0.52341 0.55564 0.58875 0.62273 0.65760 0.69333 0.74857 0.78646 0.82522 0.86484 0.90531 0.94662 1.01019 1.05362 1.09789 1.14299 1.18893 1.23570 1 30741 1.35625 1.40591

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00014 0.00018 0.00021 0.00025 0.00028 0.00032 0.00035 0.00039 0.00042 0.00046 0.00049 0.00053 0.00056 0.00060 0.00064 0.00067 0.00071 0.00074 0.00078 0.00081 0.00085 0.00088 0.00092 0.00095 0.00099 0.00102 0.00106 0.00109 0.00113 0.00116 0.00120 0.00124 0.00127 0.00131 0.00134 0.00138 0.00141 0.00145 0.00148 0.00152 0.00155 0.00159 0.00162 0.00166 0.00169

0.01042 0.01659 0.02207 0.03048 0.03760 0.04815 0.05684 0.06945 0.07967 0.09429 0.10599 0.12257 0.13573 0.15423 0.17381 0.18920 0.21065 0.22744 0.25073 0.26888 0.29398 0.31349 0.34039 0.36123 0.38990 0.41207 0.44249 0.46597 0.49813 0.52290 0.55678 0.59164 0.61842 0.65498 0.68303 0.72127 0.75058 0.79049 0.82104 0.86261 0.89441 0.93762 0.97065 1.01550 1.04975

Table 4.0

16

Pressure loss

D s Di V

40 mm 6,7 mm 26,6 mm

D s

50 mm 8,4 mm 33,2 mm

D s Di V

63 mm 10,5 mm 42,0 mm

Di V

Q

J

Q

J

Q

J

m/s

m 3 /h 0.79 1.01 1.19 1.40 1.58 1.80 2.02 2.20 2.41 2.59 2.81 2.99 3.20 3.38 3.60 3.82 4.00 4.21 4.39 4.61 4.79 5.00 5.18 5.40 5.62 5.80 6.01 6.19 6.41 6.59 6.80 7.02 7.20 7.42 7.60 7.81 7.99 8.21 8.39 8.60 8.82 9.00 9.22 9.40 9.61

m 3 /s

m/m

m/s

m 3 /h 1.26 1.55 1.87 2.20 2.48 2.81 3.13 3.42 3.74 4.07 4.36 4.68 5.00 5.29 5.62 5.90 6.23 6.55 6.84 7.16 7.49 7.78 8.10 8.42 8.71 9.04 9.36 9.65 9.97 10.30 10.58 10.91 11.23 11.52 11.84 12.17 12.46 12.78 13.10 13.39 13.72 14.04 14.33 14.65 14.98

m 3 /s

m/m

m/s

m 3 /h 1.98 2.48 2.99 3.49 4.00 4.50 5.00 5.47 5.98 6.48 6.98 7.49 7.99 8.50 8.96 9.47 9.97 10.48 10.98 11.48 11.99 12.46 12.96 13.46 13.97 14.47 14.98 15.44 15 95 16.45 16.96 17.46 17 96 18.47 18 94 19.44 19 94 20.45 20.95 21.46 21 96 22.43 22 93 23.44 23 94

m 3 /s

m/m

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00022 0.00028 0.00033 0.00039 0.00044 0.00050 0.00056 0.00061 0.00067 0.00072 0.00078 0.00083 0.00089 0.00094 0.00100 0.00106 0.00111 0.00117 0.00122 0.00128 0.00133 0.00139 0.00144 0.00150 0.00156 0.00161 0.00167 0.00172 0.00178 0.00183 0.00189 0.00195 0.00200 0.00206 0.00211 0.00217 0.00222 0.00228 0.00233 0.00239 0.00245 0.00250 0.00256 0.00261 0.00267

0.00797 0.01245 0.01688 0.02300 0.02876 0.03644 0.04495 0.05266 0.06266 0.07159 0.08303 0.09316 0.10601 0.11730 0.13155 0.14654 0.15960 0.17594 0.19012 0.20780 0.22308 0.24207 0.25845 0.27874 0.29974 0.31778 0.34006 0.35916 0.38270 0.40285 0.42765 0.45313 0.47489 0.50161 0.52439 0.55234 0.57614 0.60531 0.63012 0.66051 0.69154 0.71791 0.75014 0.77750 0.81093

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00035 0.00043 0.00052 0.00061 0.00069 0.00078 0.00087 0.00095 0.00104 0.00113 0.00121 0.00130 0.00139 0.00147 0.00156 0.00164 0.00173 0.00182 0.00190 0.00199 0.00208 0.00216 0.00225 0.00234 0.00242 0.00251 0.00260 0.00268 0.00277 0.00286 0.00294 0.00303 0.00312 0.00320 0.00329 0.00338 0.00346 0.00355 0.00364 0.00372 0.00381 0.00390 0.00398 0.00407 0.00416

0.00640 0.00936 0.01331 0.01789 0.02248 0.02821 0.03454 0.04065 0.04806 0.05605 0.06362 0.07266 0.08225 0.09123 0.10185 0.11173 0.12335 0.13550 0.14673 0.15986 0.17351 0.18607 0.20069 0.21581 0.22967 0.24574 0.26231 0.27745 0.29495 0.31294 0.32935 0.34826 0.36766 0.38531 0.40562 0.42641 0.44529 0.46698 0.48914 0.50924 0.53229 0.55581 0.57711 0.60151 0.62638

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00055 0.00069 0.00083 0.00097 0.00111 0.00125 0.00139 0.00152 0.00166 0.00180 0.00194 0.00208 0.00222 0.00236 0.00249 0.00263 0.00277 0.00291 0 00305 0.00319 0.00333 0.00346 0.00360 0.00374 0.00388 0.00402 0.00416 0.00429 0.00443 0.00457 0.00471 0.00485 0.00499 0.00513 0.00526 0.00540 0.00554 0.00568 0.00582 0.00596 0.00610 0.00623 0.00637 0.00651 0.00665

0.00470 0.00715 0.01007 0.01344 0.01725 0.02150 0.02617 0.03088 0.03636 0.04224 0.04852 0.05521 0.06229 0.06976 0.07704 0.08525 0.09385 0.10282 0.11217 0.12189 0.13198 0.14168 0.15248 0.16365 0.17517 0.18706 0.19930 0.21099 0.22392 0.23720 0.25084 0.26482 0.27915 0.29383 0.30776 0.32311 0.33879 0.35482 0.37119 0.38789 0.40493 0.42106 0.43875 0.45678 0.47514

Table 4.1

17

Pressure loss

D s Di V

75 mm 12,5 mm 50,0 mm

D s Di V

90 mm 15,0 mm 60,0 mm

D s Di V

110 mm 18,4 mm 73,2 mm

Q

J

Q

J

Q

J

m/s

m 3 /h 2.84 3.53 4.25 4.93 5.65 6.37 7.06 7.78 8.50 9.18 9.90 10.62 11.30 12.02 12.71 13.43 14.15 14.83 15.55 16.27 16 96 17.68 18.40 19.08 19.80 20.48 21.20 21.92 22.61 23.33 24.05 24.73 25.45 26.14 26.86 27.58 28.26 28.98 29.70 30.38 31.10 31.82 32.51 33.23 33.91

m 3 /s

m/m

m/s

m 3 /h 4.07 5.08 6.12 7.13 8.14 9.14 10.19 11.20 12.20 13.25 14.26 15.26 16.27 17.32 18.32 19.33 20 34 21.38 22.39 23.40 24.44 25.45 26.46 27.47 28.51 29.52 30.53 31.57 32.58 33.59 34.60 35.64 36.65 37.66 38.66 39.71 40.72 41.72 42.77 43.78 44 78 45.79 46.84 47.84 48.85

m 3 /s

m/m

m/s

m 3 /h 6.05 7.56 9.11 10.62 12.13 13.64 15.16 16.67 18.18 19.69 21.20 22.72 24.23 25.74 27.29 28.80 30.31 31.82 33.34 34.85 36.36 37.87 39.38 40.90 42.41 43.92 45.47 46.98 48.49 50.00 51.52 53.03 54.54 56.05 57.56 59.08 60.59 62.10 63.65 65.16 66.67 68.18 69.70 71.21 72.72

m 3 /s

m/m

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00079 0.00098 0.00118 0.00137 0.00157 0.00177 0.00196 0.00216 0.00236 0.00255 0.00275 0.00295 0.00314 0.00334 0.00353 0.00373 0.00393 0.00412 0.00432 0.00452 0.00471 0.00491 0.00511 0.00530 0.00550 0.00569 0.00589 0.00609 0.00628 0.00648 0.00668 0.00687 0.00707 0.00726 0.00746 0.00766 0.00785 0.00805 0.00825 0.00844 0.00864 0.00884 0.00903 0.00923 0.00942

0.00393 0.00586 0.00827 0.01090 0.01403 0.01751 0.02116 0.02533 0.02984 0.03444 0.03961 0.04511 0.05064 0.05677 0.06290 0.06966 0.07673 0.08374 0.09143 0.09942 0.10730 0.11589 0.12478 0.13351 0.14299 0.15228 0.16234 0.17269 0.18280 0.19373 0.20495 0.21588 0.22766 0.23912 0.25146 0.26409 0.27635 0.28953 0.30300 0.31605 0.33006 0.34434 0.35818 0.37301 0.38735

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00113 0.00141 0.00170 0.00198 0.00226 0.00254 0.00283 0.00311 0.00339 0.00368 0.00396 0.00424 0.00452 0.00481 0.00509 0.00537 0.00565 0.00594 0.00622 0.00650 0.00679 0.00707 0.00735 0.00763 0.00792 0.00820 0.00848 0.00877 0.00905 0.00933 0.00961 0.00990 0.01018 0.01046 0.01074 0.01103 0.01131 0.01159 0.01188 0.01216 0.01244 0.01272 0.01301 0.01329 0.01357

0.00314 0.00473 0.00669 0.00887 0.01133 0.01407 0.01719 0.02047 0.02401 0.02796 0.03202 0.03634 0.04091 0.04590 0.05098 0.05629 0.06185 0.06785 0.07390 0.08017 0.08692 0.09368 0.10067 0.10788 0.11560 0.12328 0.13119 0.13962 0.14799 0.15658 0.16540 0.17476 0.18402 0.19350 0.20321 0.21349 0.22363 0.23399 0.24495 0.25575 0 26676 0.27799 0.28984 0.30150 0.31337

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00168 0.00210 0.00253 0.00295 0.00337 0.00379 0.00421 0.00463 0.00505 0.00547 0.00589 0.00631 0.00673 0.00715 0.00758 0.00800 0.00842 0.00884 0.00926 0.00968 0.01010 0.01052 0.01094 0.01136 0.01178 0.01220 0.01263 0.01305 0.01347 0.01389 0.01431 0.01473 0.01515 0.01557 0.01599 0.01641 0.01683 0.01725 0.01768 0.01810 0.01852 0.01894 0.01936 0.01978 0.02020

0.00248 0.00376 0.00530 0.00705 0.00902 0.01121 0.01362 0.01624 0.01907 0.02211 0.02536 0.02881 0.03246 0.03632 0.04046 0.04471 0.04916 0.05379 0.05862 0.06364 0.06885 0.07425 0.07983 0.08560 0.09155 0.09769 0.10416 0.11067 0.11735 0.12422 0.13127 0.13849 0.14589 0.15347 0.16123 0.16916 0.17726 0.18554 0.19420 0.20283 0.21163 0.22061 0.22975 0.23907 0.24856

Table 4.2

18

Pressure loss

D s Di V

125 mm 20,9 mm 83,2 mm

D s Di V

140 mm 23,4 mm 93,2 mm

D s

160 mm 26,7 mm 106,6 mm

Di V

Q

J

Q

J

J

Q

m/s

m 3 /h 7.81 9.79 11.74 13.72 15.66 17.60 19.58 21.53 23.47 25.45 27.40 29.38 31.32 33.26 35.24 37.19 39.13 41.11 43.06 45.00 46.98 48.92 50.90 52.85 54.79 56.77 58.72 60.66 62.64 64.58 66.53 68.51 70.45 72.43 74.38 76.32 78.30 80.24 82.19 84.17 86.11 88.09 90.04 91.98 93.96

m 3 /s

m/m

m/s

m 3 /h 9.83 12.28 14.72 17.21 19.66 22.10 24.55 27.00 29.48 31.93 34.38 36.83 39.31 41.76 44.21 46.66 49.10 51.59 54.04 56.48 58.93 61.42 63.86 66.31 68.76 71.21 73.69 76.14 78.59 81.04 83.52 85.97 88.42 90.86 93.31 95.80 98.24

m 3 /s

m/m

m/s

m 3 /h 12.85 16.06 19.26 22.50 25.70 28.91 32.11 35.35 38.56 41.76 44.96 48.20 51.41 54.61 57.82 61.06 64.26 67.46 70.67 73.91 77.11 80.32 83.52 86.76 89.96 93.17 96.37 99.61

m 3 /s

m/m

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00217 0.00272 0.00326 0.00381 0.00435 0.00489 0.00544 0.00598 0.00652 0.00707 0.00761 0.00816 0.00870 0.00924 0.00979 0.01033 0.01087 0.01142 0.01196 0.01250 0.01305 0.01359 0.01414 0.01468 0.01522 0.01577 0.01631 0.01685 0.01740 0.01794 0.01848 0.01903 0.01957 0.02012 0.02066 0.02120 0.02175 0.02229 0.02283 0.02338 0.02392 0.02447 0.02501 0.02555 0.02610

0.00214 0.00325 0.00455 0.00607 0.00775 0.00963 0.01173 0.01398 0.01641 0.01906 0.02185 0.02486 0.02799 0.03130 0.03483 0.03847 0.04228 0.04633 0.05047 0.05477 0.05932 0.06394 0.06882 0.07376 0.07887 0.08423 0.06964 0.09522 0.10105 0.10694 0.11298 0.11928 0.12563 0.13224 0.13889 0.14569 0.15277 0.15987 0.16711 0.17465 0.18219 0.19002 0.19786 0.20585 0.21413

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00273 0.00341 0.00409 0.00478 0.00546 0.00614 0.00682 0.00750 0.00619 0.00687 0.00955 0.01023 0.01092 0.01160 0.01228 0.01296 0.01364 0.01433 0.01501 0.01569 0.01637 0.01706 0.01774 0.01842 0.01910 0.01978 0.02047 0.02115 0.02183 0.02251 0.02320 0.02388 0.02456 0.02524 0.02592 0.02661 0.02729 0.02797 0.02865 0.02934 0.03002 0.03070 0.03138 0.03206 0.03275

0.00188 0.00284 0.00398 0.00531 0.00680 0.00845 0.01026 0.01223 0.01440 0.01669 0.01914 0.02174 0.02453 0.02744 0.03049 0.03369 0.03704 0.04058 0.04422 0.04800 0.05193 0.05605 0.06026 0.06461 0.06910 0.07372 0.07856 0.06346 0.08649 0.09367 0.09905 0.10450 0.11007 0.11579 0.12163 0.12769 0.13380 0.14004 0.14641 0.15301 0.15964 0.16640 0.17329 0.18031 0.18757

0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8

0.00357 0.00446 0.00535 0.00625 0.00714 0.00803 0.00692 0.00962 0.01071 0.01160 0.01249 0.01339 0.01428 0.01517 0.01606 0.01696 0.01785 0.01874 0.01963 0.02053 0.02142 0.02231 0.02320 0.02410 0.02499 0.02568 0.02677 0.02767 0.02856 0.02945 0.03034 0.03124 0.03213 0.03302 0.03391 0.03481 0.03570 0.03659 0.03748 0.03838 0.03927 0.04016 0.04105 0.04195 0.04284

0.00161 0.00243 0.00340 0.00454 0.00581 0.00722 0.00677 0.01048 0.01230 0.01426 0.01636 0.01861 0.02096 0.02344 0.02605 0.02882 0.03169 0.03467 0.03779 0.04106 0.04441 0.04789 0.05149 0.05525 0.05909 0.06304 0.06712 0.07136 0.07567 0.06009 0.08463 0.06934 0.09411 0.09900 0.10399 0.10916 0.11439 0.11973 0.12517 0.13080 0.13647 0.14225 0.14815 0.15422 0.16033

102.82 106.02 109.22 112.46 115.67 118.87 122.08 125.32 128.52 131.72 134.93 138.17 141.37 144.58 147.78 151.02 154.22

100.69 103.14 105.62 108.07 110.52 112.97 115.42 117.90

Table 4.3

19

Testing of Dacta Therm PP-R pipes and fittings Testing of Dacta Therm PP-R pipes and fittings a. Density Test: According to ISO 1183 standard, the density is determined by weighing the material. This value is 0.9 g/cm3 for PP-R material. b. Melt Flow Index (MFI): a measure of the ease of flow of the melt of a thermoplastic polymer. It is defined as the mass of polymer, in grams, flowing in ten minutes through a capillary of a specific diameter and length by a pressure applied via prescribed alternative gravimetric weights for alternative prescribed temperatures. The method is described in ISO 1133. The average value for PP-R is upto 0.50 gr/10 min. c. Charpy Impact Test: also known as the Charpy V-notch test, is a standardized high strainrate test which deter- mines the amount of energy absorbed by a material during fracture. This absorbed energy is a measure of a given material’s notch toughness and acts as a tool to study temperature- dependent ductile-brittle transition. ISO 9854 specifies a method for determining the Charpy impact strength of the product. d. Longitudinal Reversion: This test is standardized in EN ISO 2505, which specifies a method for determin- ing the longitudinal reversion of thermoplastics pipes, to be carried out in either a liquid or in air. The pipe is left in the oven for a certain period of time and then removed. The height and diameter variation is calculated after cooling. According to the standards EN 15874 and DIN 8078, this value must not be greater than 3% in length and 2% in diameter.

e. Pressure Test: The internal pressure test is standardized in ISO 1167. “Thermoplastic pipes for the conveyance of fluids - Resistance to internal pres- sure - Test method”. The test specifies a method for determination of the resistance to constant internal pressure at constant temperature. Hydrostatic internal pressure tests are carried out in different pressure values at 20 °C 95 °C for 22 hours, 165 hours and 1000 hours intervals. During this time, the pipes should not burst. In addition to raw materials used in the pressure specified in the standard temperature of 110 °C 8760 hours (one year) are tested. This test can guarantee the material life of 50 years. f. Homogeneity Test: This test is standardized in EN ISO 13949 which is the method for the assessment of the degree of pigment dispersion in polyolefin pipes, fittings and compounds. The pipe cross-section taken from the surface microns is examined under the microscope to determine whether or not structural deterioration or gaps of non-homogeneous structure exist.

20

Service life

Safety Factor: 1,5 Nominal Pressure PN20 Work pressure (bar)

The expected service life of Dacta Therm is more than 50 years

Service life (year)

Head °C

Using Dacta Therm for heating applications within the pressure and temperature conditions given in the “Working pressure” tables will yield at least the projected service life.

1 5

35,2 33,1 32,3 31,2 30,4 29,6 29,9 28,3 27,5 28,7 25,9 25,1 25,6 24,0 23,2 22,4 21,9 21,6 20,3 19,7 18,9 18,4 18,3 17,1 18,5 18,0 15,5 15,5 14,4 13,9 13,3 12,9 14,9 13,5 13,6 10,7 10,2 13,1 12,0 11,6

10 25 50

10°C

100

1 5

10 25 50

20°C

100

1 5

10 25 50

30°C

1 5

40°C

10 25 50

1 5

50°C

10 25 50

1 5

60°C

10 25 50

1 5

Graph 1

65°C

10 25 50

1 5

70°C

10 25 50

9,9

8,5

1 5

10,9

9,6

80°C

10 25

8,0

6,4

1 5

7,7

95°C

5,2 4,3

10

Table 5

21

Dacta Therm Pipes

Solid Pipes PP-R-80 SDR 6 PN 20 Pipes Manufactured in accordance to DIN 8077/78 & ISO 15874-2 Nominal outside diameter (dn) Ovality Maximum Allowed Minimum WT (mm)

Avg Internal Diameter (mm)

Maximum WT (mm)

Water / Mtr (Kg/Mtr)

Packing Unit

Size Min (dn) Max (dn) 20 20 20.3

1.2 1.2 1.3 1.4 1.4 1.6 1.6 1.8 2.2 2.5 2.8 3.2

3.4 4.2 5.4 6.7 8.3

4.0 4.9 6.2 7.6 9.4

0.172 0.266 0.434 0.671 1.040 1.650 2.340 3.360 5.010 6.470 8.120

12.75 16.05 20.55 25.90 32.55 41.00 48.85 58.75 71.75 81.70 91.45

100 100

25 32 40 50 63 75 90

25 32 40 50 63 75 90

25.3 32.3 40.4 50.5 63.6 75.7 90.9

40 40 20 20 20 12

10.5 12.5 15.0 18.3 20.8 23.3 26.6

11.8 14.0 16.7 20.4 23.1 25.9 29.5

110 125 140 160

110 125 140 160

110.9 126.2 141.3 161.5

8 8 4 4

10.600

104.65

Glass Fiber Pipes PP-R Fiber Pipe - Glass Fiber Reinforced Pipes SDR6 manufactured dimentionally to DIN 8077 Nominal outside diameter (dn) Ovality Maximum Allowed Size Min (dn) Max (dn)

Avg Internal Diameter (mm)

Minimum WT (mm)

Maximum WT (mm)

Water / Mtr (Kg/Mtr)

Packing Unit

20 25 32 40 50 63 75 90

20 25 32 40 50 63 75 90

20.3 25.3 32.3 40.4 50.5 63.6 75.7 90.9

1.2 1.2 1.3 1.4 1.4 1.6 1.6 1.8 2.2 2.5 2.8 3.2

3.4 4.2 5.4 6.7 8.3

4.0 4.9 6.2 7.6 9.4

0.172 0.266 0.434 0.671 1.040 1.650 2.340 3.360 5.010 6.470 8.120

12.75 16.05 20.55 25.90 32.55 41.00 48.85 58.75 71.75 81.70 91.45

100 100

40 40 20 20 20 12

10.5 12.5 15.0 18.3 20.8 23.3 26.6

11.8 14.0 16.7 20.4 23.1 25.9 29.5

110 125 140 160

110 125 140 160

110.9 126.2 141.3 161.5

8 8 4 4

10.600

104.65

22

Dacta Therm Fittings & Accessories

Welded Fittings Socket

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20S20 DIPPRGR20S25 DIPPRGR20S32 DIPPRGR20S40 DIPPRGR20S50 DIPPRGR20S63 DIPPRGR20S75 DIPPRGR20S90 DIPPRGR20S110

20 25 32 40 50 63 75 90

600 400 500 360 210 108

0.013 0.017 0.027 0.045 0.086 0.146 0.213 0.343 0.598

84 54 30

110

Reducer Socket

Dimension (mm)

Art-.No.

Packing Unit KG / piece

DIPPRGR20R2520 DIPPRGR20R3220 DIPPRGR20R3225 DIPPRGR20R4520 DIPPRGR20R4025 DIPPRGR20R4032 DIPPRGR20R5020 DIPPRGR20R5025 DIPPRGR20R5032 DIPPRGR20R5040 DIPPRGR20R6325 DIPPRGR20R6332 DIPPRGR20R6340 DIPPRGR20R6350 DIPPRGR20R7550 DIPPRGR20R7563 DIPPRGR20R9050 DIPPRGR20R9063 DIPPRGR20R9075 DIPPRGR20R11063 DIPPRGR20R11075 DIPPRGR20R11090

25/20 32/20 32/25 40/20 40/25 40/32 50/20 50/25 50/32 50/40 63/25 63/32 63/40 63/50 75/50 75/63 90/50 90/63 90/75 110/63 110/75 110/90

500 400 400 750 500 400 480 450 350 400 280 220 210 180 135 120

0.013 0.016 0.017 0.025 0.029 0.033 0.045 0.045 0.048 0.055 0.076 0.078 0.086 0.106 0.137 0.175

96 96 68 60 54 35

0.19

0.222 0.274

0.34

0.375

0.5190

23

Dacta Therm Fittings & Accessories

Elbow 90°

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20E9020 DIPPRGR20E9025 DIPPRGR20E9032 DIPPRGR20E9040 DIPPRGR20E9050 DIPPRGR20E9063 DIPPRGR20E9075 DIPPRGR20E9090 DIPPRGR20E90110

20 25 32 40 50 63 75 90

500 500 300 210 100

0.020 0.028 0.050 0.083 0.163 0.309 0.480 0.771 1.425

50 40 24 12

110

Elbow 45°

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20E4520 DIPPRGR20E4525 DIPPRGR20E4532 DIPPRGR20E4540 DIPPRGR20E4550 DIPPRGR20E4563 DIPPRGR20E4575 DIPPRGR20E4590 DIPPRGR20E45110

20 25 32 40 50 63 75 90

500 750 480 240 120

0.017 0.023 0.040 0.062 0.118 0.237

72 50 30 15

0.33

0.527 0.956

110

Equal Tee

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20T20 DIPPRGR20T25 DIPPRGR20T32 DIPPRGR20T40 DIPPRGR20T50 DIPPRGR20T63 DIPPRGR20T75 DIPPRGR20T90 DIPPRGR20T110

20 25 32 40 50 63 75 90

500 480 240 150

0.026 0.034 0.059 0.103 0.190 0.368 0.573 0.911 1.628

90 50 30 20 12

110

24

Dacta Therm Fittings & Accessories

Reducing Tee

Dimension (mm) 25 x 20 x 20 25 x 20 x 25 32 x 20 x 25 32 x 20 x 32 32 x 25 x 20 32 x 20 x 20 32 x 25 x 32 40 x 20 x 40 40 x 25 x 40 40 x 32 x 40 50 x 20 x 50 50 x 25 x 50 50 x 32 x 50 50 x 40 x 50 63 x 20 x 63 63 x 25 x 63 63 x 32 x 63 63 x 40 x 63 63 x 50 x 63

Packing Unit

Art-.No.

KG / piece

DIPPRGR20RT252020 DIPPRGR20RT252025 DIPPRGR20RT322025 DIPPRGR20RT322032 DIPPRGR20RT322520 DIPPRGR20RT322020 DIPPRGR20RT322532 DIPPRGR20RT402040 DIPPRGR20RT402540 DIPPRGR20RT403240 DIPPRGR20RT502050 DIPPRGR20RT502550 DIPPRGR20RT503250 DIPPRGR20RT504050 DIPPRGR20RT632063 DIPPRGR20RT632563 DIPPRGR20RT633263 DIPPRGR20RT634063 DIPPRGR20RT635063

500 500 350 350 350 350 300 288 252 160 144 100

0.031 0.030 0.046 0.045 0.047 0.047 0.049 0.071 0.077 0.088 0.132 0.155 0.166 0.128 0.215 0.228 0.252 0.274 0.318

90

120

84 72 60 54 56

End Cap

Dimension (mm)

Art-.No.

Packing Unit KG / piece

DIPPRGR20EC20 DIPPRGR20EC25 DIPPRGR20EC32 DIPPRGR20EC40 DIPPRGR20EC50 DIPPRGR20EC63 DIPPRGR20EC75 DIPPRGR20EC90 DIPPRGR20EC110

20 25 32 40 50 63 75 90

1600 1000

0.010 0.012 0.022 0.040 0.082 0.151 0.231

980 480 260 144 100

60 30

0.37

110

0.629

25

Dacta Therm Fittings & Accessories

Union PPR (welding both sides)

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR16UW20 DIPPRGR16UW25 DIPPRGR16UW32 DIPPRGR16UW40

20 25 32 40

125 125 100 100

0.033 0.055 0.076 0.117

Flanges Adaptor

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20FA75 DIPPRGR20FA90

75 90

110

0.210 0.306

75

Blind Cap

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20BC20 DIPPRGR20BC25

20 25

1800 1500

0.006 0.010

Over Bridge Bow

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20OBB20 DIPPRGR20OBB25 DIPPRGR20OBB32

20 25 32

600 300 200

0.034 0.050 0.077

Clamp Single

Dimension (mm)

Art-.No.

Packing Unit

KG / piece

DIPPRGR20CS20 DIPPRGR20CS25 DIPPRGR20CS32 DIPPRGR20CS40

20 25 32 40

2700 2100 1000

0.007 0.008 0.010 0.014

900

26

Dacta Therm Fittings & Accessories Transition Fittings Transition Piece Female - Round

Dimension (mm) 20 mm x 1/2” 20 mm x 3/4”

Packing Unit

Art-.No.

KG / piece

DIPPRGR20TPFR2012 DIPPRGR20TPFR2034

300 200 200 150 200

0.059 0.077 0.062 0.079 0.083

DIPPRGR20TPFR2512 25 mm x 1/2”

DIPPRGR20TPFR2534

25 mm x 3/4”

DIPPRGR20TPFR3234 32 mm x 3/4”

Transition Piece Female - Hexagonal

Dimension (mm) 32 mm x 1”

Packing Unit

Art-.No.

KG / piece

DIPPRGR20TPFH321

100

0.241

DIPPRGR20TPFH40114 40 mm x 1.1/4” DIPPRGR20TPFH50112 50 mm x 1.1/2”

75 50 40 25 14

0.38

0.429 0.612 1.053 1.602 3.302

DIPPRGR20TPFH632

63 mm x 2”

DIPPRGR20TPFH75212 75 mm x 2.1/2”

DIPPRGR20TPFH903

90 mm x 3”

DIPPRGR20TPFH1104 110 mm x 4”

6

Transition Piece Male - Round

Dimension (mm)

Packing Unit

Art-.No.

KG / piece

DIPPRGR20TPMR2012 20 mm x 1/2” DIPPRGR20TPMR2034 20 mm x 3/4”

250 300 200 100 200

0.072 0.085 0.074 0.086 0.092

DIPPRGR20TPMR2512 DIPPRGR20TPMR2534

25 mm x 1/2” 25 mm x 3/4”

DIPPRGR20TPMR3234 32 mm x 3/4”

Transition Piece Male - Hexagonal

Dimension (mm) 32 mm x 1”

Packing Unit

Art-.No.

KG / piece

DIPPRGR20TPMH321 DIPPRGR20TPMH40114

120

0.237 0.387 0.455 0.661 1.045 1.525 4.921

40 mm x 1.1/4”

75 80 60 20 14

DIPPRGR20TPMH50112 50 mm x 1.1/2”

DIPPRGR20TPMH632 DIPPRGR20TPMH75212 DIPPRGR20TPMH903 DIPPRGR20TPMH1104

63 mm x 2”

75 mm x 2.1/2”

90 mm x 3” 110 mm x 4”

6

27

Dacta Therm Fittings & Accessories Transition Female Union

Dimension (mm) 20 mm x 1/2” 25 mm x 3/4” 32 mm x 1” 40 mm x 1.1/4” 50 mm x 1.1/2”

Packing Unit

Art-.No.

KG / piece

DIPPRGR20TFU2012 DIPPRGR20TFU2534 DIPPRGR20TFU321 DIPPRGR20TFU40114 DIPPRGR20TFU50112 DIPPRGR20TFU632

250 180

0.113 0.199 0.296 0.439 0.648 0.932

75 75 30 25

63 mm x 2”

Transition Male Union

Dimension (mm) 20 mm x 1/2”

Packing Unit

Art-.No.

KG / piece

DIPPRGR20TMU2012

250 180

0.152 0.271 0.371 0.563 0.649 1.071

DIPPRGR20TMU2534 25 mm x 3/4”

DIPPRGR20TMU321 DIPPRGR20TMU40114 DIPPRGR20TMU50112 DIPPRGR20TMU632

32 mm x 1”

60 60 50 30

40 mm x 1.1/4” 50 mm x 1.1/2”

63 mm x 2”

Transition Tee Female

Dimension (mm)

Art-.No.

Packing Unit KG / piece

DIPPRGR20TTF2012 20 mm x 1/2” DIPPRGR20TTF2034 20 mm x 3/4”

200 200 150 150 120 120

0.076 0.095 0.083 0.108 0.116 0.285

DIPPRGR20TTF2512

25 mm x 1/2”

DIPPRGR20TTF2534 25 mm x 3/4” DIPPRGR20TTF3234 32 mm x 3/4”

DIPPRGR20TTF321

32 mm x 1”

Transition Elbow Female

Dimension (mm)

Art-.No.

Packing Unit KG / piece

DIPPRGR20TE90F2012 20 mm x 1/2” DIPPRGR20TE90F2034 20 mm x 3/4” DIPPRGR20TE90F2512 25 mm x 1/2” DIPPRGR20TE90F2534 25 mm x 3/4” DIPPRGR20TE90F3234 32 mm x 3/4” DIPPRGR20TE90F321 32 mm x 1”

300 200 250 200

0.067 0.093

0.07

0.096

90

0.11

150

0.273

28

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