The document provides guidelines for butt-fusion welding of polyethylene pipes. It describes the butt-fusion process as a heat and pressure welding method that melts and fuses the ends of two pipes together. It emphasizes that proper welding requires qualified welders, suitable equipment, and adherence to welding standards. The guidelines specify welding machine components, parameters like temperature and pressure over time, and quality checks like maximum misalignment and gap widths.
How to Maintain Your Temperature Calibration Equipment WebinarTranscat
Â
In this informative webinar with Fluke Calibration you will learn tips for keeping your calibration baths and temperature calibrators operating at their peak.
Youâve invested a lot of money in your temperature calibration lab. Preventative maintenance is critical to keeping your calibration baths and temperature calibrators running at their best. A few minutes spent now in maintaining your equipment can also save you costly repairs and downtime later.
Combining Rupture Discs and Safety Relief ValvesCTi Controltech
Â
Isolating a relief or safety valve from the process media through the installation of a rupture disc upstream of the valve inlet will eliminate exposure of the costly valve to effects of the media.
BOOK DIGITAL DO EMPREENDIMENTO DAMAI NO RECREIO/BARRACamilo dos santos
Â
O documento descreve o empreendimento residencial Damai Residence & Lifestyle localizado no Rio de Janeiro. O projeto consiste em 5 torres com 174 unidades de atÃĐ 4 suÃtes cada. O documento detalha as caracterÃsticas do terreno, plantas, serviços de lazer e diferenciais do empreendimento como coberturas com elevador e opçÃĩes de decoraçÃĢo.
Moldex3D, Structural Analysis, and HyperStudy Integrated in HyperWorks Platfo...Altair
Â
In recent years, with the increasing variety, complexity, and precision requirement on plastic products, CAE tools have been widely used for solving product design and manufacturing issues. The structural designs or molding process parameters for products can be optimized efficiently through CAE analyses. Plus the reliable and correct verification with experiments, the directions or guidance in designs or process condition settings can be provided prior to the real moldings. However, sometimes it is not efficient to find an optimized set of parameters through traditional CAE analyses. A novel integration between Moldex3D and HyperStudy allows for more quick and efficient parameter optimization which will save time, increase product quality, and increase productivity.
Also, traditional CAE analyses do not consider the molding properties influence on structural analysis, such as material property variations caused by fiber orientation and residual stresses. Accordingly, an integrated technology is proposed to bridge molding and structural analysis. Through the integration of Moldex3D and structural analysis in HyperWorks platform, the important effects from molding process can be transferred to structural analysis for more accurate and realistic predictions of the product behaviors. This integration provides a virtual product development platform for users to increase profits as well as enhance productivity.
The document discusses the cell cycle and cell division. It begins by asking what the phases of the cell cycle are, which are interphase, prophase, metaphase, anaphase, telophase, and cytokinesis. During interphase, the cell grows and DNA is copied. The mitotic phase then involves the division of the cell nucleus and cytoplasm. Cell division is important for reproduction in unicellular organisms, growth and development, replacing old cells, and repairing injuries.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise boosts blood flow, releases endorphins, and promotes changes in the brain which help regulate emotions and stress levels.
The immune system has three lines of defense to protect the body from pathogens. The first line of defense includes barriers like skin, while the second line contains white blood cells. The third line uses antigens and antibodies. The immune system interacts with the respiratory and digestive systems to help remove pathogens through coughing, sneezing, vomiting or diarrhea. It also works to maintain homeostasis by destroying pathogens and preventing disease.
The document provides guidelines for butt-fusion welding of polyethylene pipes. It describes the butt-fusion process as a heat and pressure welding method that melts and fuses the ends of two pipes together. It emphasizes that proper welding requires qualified welders, suitable equipment, and adherence to welding standards. The guidelines specify welding machine components, parameters like temperature and pressure over time, and quality checks like maximum misalignment and gap widths.
How to Maintain Your Temperature Calibration Equipment WebinarTranscat
Â
In this informative webinar with Fluke Calibration you will learn tips for keeping your calibration baths and temperature calibrators operating at their peak.
Youâve invested a lot of money in your temperature calibration lab. Preventative maintenance is critical to keeping your calibration baths and temperature calibrators running at their best. A few minutes spent now in maintaining your equipment can also save you costly repairs and downtime later.
Combining Rupture Discs and Safety Relief ValvesCTi Controltech
Â
Isolating a relief or safety valve from the process media through the installation of a rupture disc upstream of the valve inlet will eliminate exposure of the costly valve to effects of the media.
BOOK DIGITAL DO EMPREENDIMENTO DAMAI NO RECREIO/BARRACamilo dos santos
Â
O documento descreve o empreendimento residencial Damai Residence & Lifestyle localizado no Rio de Janeiro. O projeto consiste em 5 torres com 174 unidades de atÃĐ 4 suÃtes cada. O documento detalha as caracterÃsticas do terreno, plantas, serviços de lazer e diferenciais do empreendimento como coberturas com elevador e opçÃĩes de decoraçÃĢo.
Moldex3D, Structural Analysis, and HyperStudy Integrated in HyperWorks Platfo...Altair
Â
In recent years, with the increasing variety, complexity, and precision requirement on plastic products, CAE tools have been widely used for solving product design and manufacturing issues. The structural designs or molding process parameters for products can be optimized efficiently through CAE analyses. Plus the reliable and correct verification with experiments, the directions or guidance in designs or process condition settings can be provided prior to the real moldings. However, sometimes it is not efficient to find an optimized set of parameters through traditional CAE analyses. A novel integration between Moldex3D and HyperStudy allows for more quick and efficient parameter optimization which will save time, increase product quality, and increase productivity.
Also, traditional CAE analyses do not consider the molding properties influence on structural analysis, such as material property variations caused by fiber orientation and residual stresses. Accordingly, an integrated technology is proposed to bridge molding and structural analysis. Through the integration of Moldex3D and structural analysis in HyperWorks platform, the important effects from molding process can be transferred to structural analysis for more accurate and realistic predictions of the product behaviors. This integration provides a virtual product development platform for users to increase profits as well as enhance productivity.
The document discusses the cell cycle and cell division. It begins by asking what the phases of the cell cycle are, which are interphase, prophase, metaphase, anaphase, telophase, and cytokinesis. During interphase, the cell grows and DNA is copied. The mitotic phase then involves the division of the cell nucleus and cytoplasm. Cell division is important for reproduction in unicellular organisms, growth and development, replacing old cells, and repairing injuries.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise boosts blood flow, releases endorphins, and promotes changes in the brain which help regulate emotions and stress levels.
The immune system has three lines of defense to protect the body from pathogens. The first line of defense includes barriers like skin, while the second line contains white blood cells. The third line uses antigens and antibodies. The immune system interacts with the respiratory and digestive systems to help remove pathogens through coughing, sneezing, vomiting or diarrhea. It also works to maintain homeostasis by destroying pathogens and preventing disease.
The circulatory system pumps blood through the body to transport oxygen, food, water, and waste; it interacts with other systems like the skeletal and respiratory systems; and diseases can occur if it fails to properly maintain homeostasis, transport oxygen, and keep the blood vessels flexible, such as with a heart attack, stroke, or heart failure.
The document summarizes the key components and functions of the digestive system in humans. It outlines the four main steps of digestion: ingestion, digestion, absorption, and elimination. It then lists and defines the major organs involved, including the mouth, esophagus, stomach, liver, pancreas, and small and large intestines. It also explains how the digestive system works with the immune and circulatory systems to break down food, absorb nutrients, and distribute them throughout the body.
The document contains a series of questions and answers about biology topics like the age of fossils, mass extinctions, Darwin's observations of the Galapagos tortoises, genetic variation and natural selection. It reviews concepts like adaptations, mutations, selective breeding and how physical traits in species can change over generations through natural selection. Examples include the development of camouflage in moths and loss of tusks in elephants.
The musculoskeletal system functions to enable movement, provide stability and protection to the body, and help regulate temperature. It consists of bones, cartilage, tendons, ligaments, and muscles. The skeletal system interacts with other body systems like the muscular and nervous systems. For example, muscles work with bones to allow movement and protect organs. Maintaining health of the musculoskeletal system through diet and exercise is important for overall homeostasis of the body. Diseases like arthritis and osteoporosis can result from lack of exercise or poor nutrition.
This document discusses inheritance and genetics concepts. It begins by explaining how traits are determined by alleles from each parent, and defines key terms like genotype and phenotype. It then discusses Mendel's model of inheritance and how traits can be predicted using Punnett squares and pedigrees. The document notes that some patterns of inheritance, like incomplete dominance and codominance, differ from Mendel's model. It concludes by stating that an organism's environment can also impact its expressed traits.
Archaea are single-celled prokaryotes that live in oxygen-free environments like hot springs, salty waters, and black mud. They reproduce through binary fusion and obtain nutrients by transferring molecules through protein pumps. Important examples include methanogens, halophiles, and thermophiles. Archaea were once considered bacteria but have distinct cell structures and were some of the earliest life forms on Earth.
The document discusses the differences between scientific theories and laws. A theory is an explanation for observations and events based on evidence from repeated experiments and investigations. A theory attempts to explain how and why things happen. A scientific law is a statement that reliably predicts patterns or events in nature based on well-supported hypotheses. Both theories and laws can be modified or rejected if new evidence is discovered that does not fit with the current understanding.
This document discusses the differences between prokaryotic and eukaryotic cells. Prokaryotic cells lack internal membranes and organelles, while eukaryotic cells contain membrane-bound organelles. It then describes the major organelles found in plant and animal cells and their functions, such as the nucleus containing DNA, mitochondria producing energy, and chloroplasts facilitating photosynthesis in plant cells. Cell membranes surround and protect cells, while plant cells also contain a cell wall for additional support.
The document discusses the 6 characteristics of living things: 1) growth and development, 2) organization (cells), 3) response to stimuli, 4) homeostasis, 5) use of energy, and 6) reproduction. It does not provide any additional context or information.
TAP has organized itâs manufacturing facilities in away that is friendly to the environment and surround communities. To maintain the position at the forefront of the PE pipe industry, TAP is committed to continuous product development, employing the latest technology in is manufacturing process. TAP has been producing HDPE pipes and fittings since 1984 and has established itself as a pioneer and leading producer through continuous innovation and a commitment to quality.
This document provides instructions for properly supporting pressure pipes. Pipes need supports at fittings, valves, and ends to prevent stress peaks. Supports are made of reinforced concrete and are designed to withstand pressures 1.5 times the design pressure. Fittings like bends and tees must be completely surrounded by concrete. Pipes must be supported before pressure testing on site. Tables provide dimensions for pipe supports based on pipe diameter and type of fitting. The design should consider soil properties and pipe depth to ensure structural limits are not exceeded.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise causes chemical changes in the brain that may help boost feelings of calmness and well-being.
The circulatory system pumps blood through the body to transport oxygen, food, water, and waste; it interacts with other systems like the skeletal and respiratory systems; and diseases can occur if it fails to properly maintain homeostasis, transport oxygen, and keep the blood vessels flexible, such as with a heart attack, stroke, or heart failure.
The document summarizes the key components and functions of the digestive system in humans. It outlines the four main steps of digestion: ingestion, digestion, absorption, and elimination. It then lists and defines the major organs involved, including the mouth, esophagus, stomach, liver, pancreas, and small and large intestines. It also explains how the digestive system works with the immune and circulatory systems to break down food, absorb nutrients, and distribute them throughout the body.
The document contains a series of questions and answers about biology topics like the age of fossils, mass extinctions, Darwin's observations of the Galapagos tortoises, genetic variation and natural selection. It reviews concepts like adaptations, mutations, selective breeding and how physical traits in species can change over generations through natural selection. Examples include the development of camouflage in moths and loss of tusks in elephants.
The musculoskeletal system functions to enable movement, provide stability and protection to the body, and help regulate temperature. It consists of bones, cartilage, tendons, ligaments, and muscles. The skeletal system interacts with other body systems like the muscular and nervous systems. For example, muscles work with bones to allow movement and protect organs. Maintaining health of the musculoskeletal system through diet and exercise is important for overall homeostasis of the body. Diseases like arthritis and osteoporosis can result from lack of exercise or poor nutrition.
This document discusses inheritance and genetics concepts. It begins by explaining how traits are determined by alleles from each parent, and defines key terms like genotype and phenotype. It then discusses Mendel's model of inheritance and how traits can be predicted using Punnett squares and pedigrees. The document notes that some patterns of inheritance, like incomplete dominance and codominance, differ from Mendel's model. It concludes by stating that an organism's environment can also impact its expressed traits.
Archaea are single-celled prokaryotes that live in oxygen-free environments like hot springs, salty waters, and black mud. They reproduce through binary fusion and obtain nutrients by transferring molecules through protein pumps. Important examples include methanogens, halophiles, and thermophiles. Archaea were once considered bacteria but have distinct cell structures and were some of the earliest life forms on Earth.
The document discusses the differences between scientific theories and laws. A theory is an explanation for observations and events based on evidence from repeated experiments and investigations. A theory attempts to explain how and why things happen. A scientific law is a statement that reliably predicts patterns or events in nature based on well-supported hypotheses. Both theories and laws can be modified or rejected if new evidence is discovered that does not fit with the current understanding.
This document discusses the differences between prokaryotic and eukaryotic cells. Prokaryotic cells lack internal membranes and organelles, while eukaryotic cells contain membrane-bound organelles. It then describes the major organelles found in plant and animal cells and their functions, such as the nucleus containing DNA, mitochondria producing energy, and chloroplasts facilitating photosynthesis in plant cells. Cell membranes surround and protect cells, while plant cells also contain a cell wall for additional support.
The document discusses the 6 characteristics of living things: 1) growth and development, 2) organization (cells), 3) response to stimuli, 4) homeostasis, 5) use of energy, and 6) reproduction. It does not provide any additional context or information.
TAP has organized itâs manufacturing facilities in away that is friendly to the environment and surround communities. To maintain the position at the forefront of the PE pipe industry, TAP is committed to continuous product development, employing the latest technology in is manufacturing process. TAP has been producing HDPE pipes and fittings since 1984 and has established itself as a pioneer and leading producer through continuous innovation and a commitment to quality.
This document provides instructions for properly supporting pressure pipes. Pipes need supports at fittings, valves, and ends to prevent stress peaks. Supports are made of reinforced concrete and are designed to withstand pressures 1.5 times the design pressure. Fittings like bends and tees must be completely surrounded by concrete. Pipes must be supported before pressure testing on site. Tables provide dimensions for pipe supports based on pipe diameter and type of fitting. The design should consider soil properties and pipe depth to ensure structural limits are not exceeded.
The document discusses the benefits of exercise for mental health. Regular physical activity can help reduce anxiety and depression and improve mood and cognitive functioning. Exercise causes chemical changes in the brain that may help boost feelings of calmness and well-being.
This document discusses allowable working pressures for pipes made from polyethylene (PE100) used for conveying water. PE100 pipes have a wide range of allowable working pressures depending on factors like pipe dimension, material properties, joint type, and installation conditions. The document provides tables that specify the maximum allowable working pressure in bars for different diameter PE100 pipes under various installation conditions, taking these factors into account.
The document provides a directory of high-density polyethylene (HDPE) pipe products and prefabricated butt-fusion fittings. It lists over 50 products, including HDPE pipes of various diameters and specifications according to Thai industrial standards, as well as elbows, tees, reducers, caps, flanges, and other common piping fittings. Tables are also included that specify the standard wall thicknesses (T) and weights (W) for HDPE pipes of different outside diameters, pressure ratings, and SDR values according to the Thai standard for HDPE drinking water pipes (TIS. 982-2548).
This document provides technical information about pipe friction factors, Manning numbers, and pressure losses for polyethylene and polypropylene pipes of various diameters. It includes a flow monogram that lists the average water quantity, flow velocity, and pressure loss for different pipe diameters from 35 mm to 100 mm. Additional pressure losses that must be added are also specified for elbows, tees, reducers, and bends in the piping depending on the radius of the elbow.
The document provides instructions for laying HDPE pipes. The key steps include:
1. Digging a trench at least 40cm wide and checking the depth and slope. The trench bottom must be even and stone-free.
2. Adding a 15cm thick bed of sand or gravel without compaction to support the pipe.
3. Laying the pipe while checking for proper slope and alignment, and compacting initial backfill around the pipe in 10cm layers to support it without damage.
4. 1
āļïāļāļĄāļđāļĨāļāļēāļāļïāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
āļāļēāļĢāļāļāļāļēāļāļŠāļēāļĢāđāļāļĄāļĩāļāļāļāļïāļ āļāļĩ.āļāļĩ. (General guide to Chemical Resistance of HDPE pipe)
Acetaldehyde āļāļ°āļāļĩāļāļēāļĨāļāļĩāđāļŪāļï
Acetate, Amyl āļāļ°āļāļĩāđāļāļ, āļāļ°āļĄāļīāļĨ
Acetate, butyl āļāļ°āļāļĩāđāļāļ, āļāļđāļāļīāļĨ
Acetate, ethyl āļāļ°āļāļĩāđāļāļ, āđāļāļāļīāļĨ
Acetone āļāļ°āļāļĩāđāļāļ
Acid
Acetic Acid āļāļĢāļāļāđāđāļēāļŠïāļĄ
Glacial acetic Acid āļāļĢāļāđāļāļĨāđāļāļĩāļĒāļĨāļāļ°āļāļīāļāļīāļ
Aromatic Acid āļāļĢāļāļāļ°āđāļĢāđāļĄāļāļīāļ
Benzoic Acid āļāļĢāļāđāļāļāđāļāļāļīāļ
Boric Acid āļāļĢāļāļāļāļĢāļīāļ
Butyric Acid āļāļĢāļāļāļīāļ§āļāļĩāļĢāļīāļ
Carbonic Acid āļāļĢāļāļāļēāļĢïāļāļāļāļīāļ
Chromic Acid āļāļĢāļāđāļāļĢāļĄāļīāļ
Chromic Acid āļāļĢāļāđāļāļĢāļĄāļīāļ
Citric Acid āļāļĢāļāļāļīāļāļĢāļīāļ
Dichloracetic Acid āļāļĢāļāđāļāļāļĨāļāļāļ°āļāļīāļāļīāļ
Dichloracetic Acid āļāļĢāļāđāļāļāļĨāļāļāļ°āļāļīāļāļīāļ
Fatty Acid, higher than C6,
āļāļĢāļāđāļāļĄāļąāļ, āļāļēāļĢïāļāļāļāļĄāļēāļāļāļ§ïāļē 6
Formic Acid āļāļĢāļāļāļāļĢïāļĄāļīāļ
Glycolic Acid āļāļĢāļāđāļāļĨāđāļāļĨāļīāļ
Hydrobromic Acid āļāļĢāļāđāļŪāđāļāļĢāđāļāļĢāļĄāļīāļ
Hydrochloric Acid āļāļĢāļāđāļŪāđāļāļĢāļāļĨāļāļĢāļīāļ
HydrofluoricāļāļĢāļāđāļŪāđāļāļĢāļāļĨāļđāļāļāļĢāļīāļ
Lactic Acid āļāļĢāļāđāļĨāļāļāļīāļ
Maleic Acid āļāļĢāļāļĄāļēāđāļĨāļāļīāļ
Monochloracetic Acid
āļāļĢāļāđāļĄāđāļāļāļĨāļāļĢïāļāļ°āļāļīāļāļīāļ
Nitric Acid āļāļĢāļāļāļīāļāļāļĢāļ°āļŠāļīāļ§
Nitric Acid āļāļĢāļāļāļīāļāļāļĢāļ°āļŠāļīāļ§
Nitric Acid āļāļĢāļāļāļīāļāļāļĢāļ°āļŠāļīāļ§
Oleic Acid āļāļĢāļāđāļāļĨāļĩāļāļīāļ
Oxalic Acid āļāļĢāļāļāļāļāļāļēāļĨāļīāļ
Perchloric Acid āļāļĢāļāđāļāļāļāļĨāļāļĢāļīāļ
Perchloric Acid āļāļĢāļāđāļāļāļāļĨāļāļĢāļīāļ
Perchloric Acid āļāļĢāļāđāļāļāļāļĨāļāļĢāļīāļ
Phosphoric Acid āļāļĢāļāļāļāļŠāļāļāļĢāļīāļ
Phosphoric Acid āļāļĢāļāļāļāļŠāļāļāļĢāļīāļ
Pathalic Acid āļāļĢāļāļāļ°āļāļēāļĨāļīāļ
Propionic Acid āļāļĢāļāđāļāļĢāļāļīāļāļāļāļīāļ
Propionic Acid āļāļĢāļāđāļāļĢāļāļīāļāļāļāļīāļ
Prussic Acid āļāļĢāļāļāļĢāļąāļŠāļŠāļīāļ
Silicic Acid āļāļĢāļāļāļīāļĨāļīāļŠāļīāļ
Stearic Acid āļāļĢāļāļŠāļ°āđāļāļĩāļĒāļĢāļīāļ
Succinic Acid āļāļĢāļāļāļąāļāļāļīāļāļīāļ
Sulpho-chromic Acid āļāļĢāļāļāļąāļĨāđāļāļĄāļīāļāđāļāļĢāļĄāļīāļ
Sulphuric Acid āļāļĢāļāļāđāļēāļĄāļ°āļāļąāļ
Sulphuric Acid āļāļĢāļāļāđāļēāļĄāļ°āļāļąāļ
100
100
100
100
100
G
G
G
M
G
M
M
M
P
G
10
96
Sat
Sat
100
100
20
80
Sat
50
100
G
G
G
G
G
G
G
G
G
G
G
G
G
M(D)
G
G
G
M
G
M
P(D)
G
G
M(D)
100
G
G
100
50
50
Tc
60
100
Sat
G
G
G
G
G
G
G
G
G
G
G
M
G
G
100
G
G
25
50
75
100
Sat
20
50
70
50
95
50
50
100
10
100
100
50
-
G
M
P
G
G
G
G
G
G
G
G
G
G
G
G
G
G
P
G
G
G
P(D)
P(D)
M
G
G
M
P(D)
G
M(D)
G
G
M
G
G
M
G
P
G
P(D)
āđ
50
98
āđ
āđāļāļĄāļĩāļ āļąāļāļï
Chemicals
Sulphurous Acid āļāļĢāļāļāđāļēāļĄāļ°āļāļąāļ
Tartaric Acid āļāļĢāļāļāļēāļāļēāļĢāļīāļ
Trichloracetic Acid āļāļĢāļāđāļāļĢāļāļĨāļāļĢïāļāļ°āļāļĩāļāļīāļ
Trichloracetic Acid āļāļĢāļāđāļāļĢāļāļĨāļāļĢïāļāļ°āļāļĩāļāļīāļ
Acrylonitrile āļāļ°āļāļĢāļīāđāļĨāđāļāđāļāļĢï
Alcohol
Allyl Alcohol āļāļąāļĨāļĨāļīāļĨ āđāļāļĨāļāļāļŪāļāļĨï
Benzyl Alcohol āđāļāļāļāļīāļĨ āđāļāļĨāļāļāļŪāļāļĨï
Ethyl Alcohol āđāļāļāļīāļĨ āđāļāļĨāļāļāļŪāļāļĨï
Furturyl Alcohol āđāļāļāđāļāļāļĢāļīāļĨ āđāļāļĨāļāļāļŪāļāļĨï
Isopropyl Alcohol āđāļāđāļāđāļāļĢāļāļīāļĨāđāļāļĨāļāļāļŪāļāļĨï
Methoxybutyl Alcohol āđāļĄāļāđāļāļāļāļīāļāļīāļ§āļāļīāļĨ āđāļāļĨāļāļāļŪāļāļĨï
Methyl Alcohol āđāļĄāļāļīāļĨ āđāļāļĨāļāļāļŪāļāļĨï
Aliphatic esters āļāļ°āļĨāļīāļāļēāļāļīāļ āđāļāļŠāđāļāļāļĢï
Alum āļāļ°āļĨāļąāļĄ (āļŠāļēāļĢāļŠïāļĄ)
Ammonia āđāļāļĄāđāļĄāđāļāļĩāļĒ
Acetic Anhydride āļāļ°āļāļīāļāļīāļ āđāļāļāđāļŪāđāļāļĢāļï
Aniline āļāļ°āļāļĩāļĨāļĩāļ
Antimony trichloride āđāļāļāļāļīāđāļĄāļĢāļĩ āđāļāļĢāļāļĨāļāđāļĢāļï
Aqua regia āđāļāļāļāļĨï āļĢāļĩāđāļāļĩāļĒāļĢï
Benzaldehyde āđāļāļāļāļāļĨāļāļĩāđāļŪāļï
Benzene āđāļāļāļāļĩāļ
Borax āļāļāđāļĢāļāļï
Brine āļāđāđāļēāđāļāļĨāļ·āļāļāļĢāļĢāļĄāļāļēāļāļī
Bromine āđāļāļĢāļĄāļĩāļ
Butane (gas) āļāļīāļ§āđāļāļ (āđāļïāļŠ)
Calcium hypoehlorite āđāļāļĨāđāļāļĩāļĒāļĄ āđāļŪāđāļāļāļĨāļāđāļĢāļï
Camphor āļāļēāļĢāļāļđāļĢ
Carbon disulphide āļāļēāļĢïāļāļāļ āđāļāļāļąāļĨāđāļāļï
Carbon tetrachloride āļāļēāļĢïāļāļāļ āđāļāļāļĢāļ°āļāļĨāļāđāļĢāļï
Caustic potash(cleaner) āđāļāļāļąāļŠāđāļāļāđāļāļē
Caustic soda (cleaner) āđāļāļāļēāđāļ
Chloride, aluminium āļāļ°āļĨāļđāļĄāļīāđāļāļĩāļĒāļĄ āļāļĨāļāđāļĢāļï
Chloride, ammonium āđāļāļĄāđāļĄāđāļāļĩāļĄ āļāļĨāļāđāļĢāļï
Chloride, antimony āđāļāļāļāļīāđāļĄāļāļĩ āļāļĨāļāđāļĢāļï
Chloride, calcium āđāļāļĨāđāļāļĩāļĒāļĄ āļāļĨāļāđāļĢāļï
Chloride, ferric āđāļāļāļĢāļīāļ āļāļĨāļāđāļĢāļï
Chloride, ferrous āđāļāļāļĢāļąāļŠ āļāļĨāļāđāļĢāļï
Chloride, magnesium āđāļĄāļāļāļĩāđāļāļĩāļĒāļĄ āļāļĨāļāđāļĢāļï
Chloride, mercury āđāļĄāļāļāļīāļ§āļĢāļĩ āļāļĨāļāđāļĢāļï
Chloride, methylene āđāļĄāļāļīāļĨāļĩāļ āļāļĨāļāđāļĢāļï
Chloride, potassium āđāļāļāļąāļŠāđāļāļĩāļĒāļĄ āļāļĨāļāđāļĢāļï
Chloride, sodium āđāļāļĨāļ·āļāđāļāļ
Chloride, sulphuryl āļāļąāļĨāļāļđāļĢāļīāļĨ āļāļĨāļāđāļĢāļï
Chloride, thionyl āđāļāđāļāļāļīāļĨ āļāļĨāļāđāļĢāļï
Chlorid, zinc āļŠāļąāļāļāļ°āļŠāļĩ āļāļĨāļāđāļĢāļï
Chlorine (gas) āđāļïāļŠāļāļĨāļāļĢāļĩāļ
Chloride (liquid) āļāļĨāļāļĢāļĩāļāđāļŦāļĨāļ§
Chlorobenzene āļāļĨāļāđāļĢāđāļāļāļāļĩāļ
(1)
āļāļēāļĢāļāļāļāļēāļ
āļāļ§āļēāļĄāđāļïāļĄāļïāļ
Resistance
Conc.
20āđC 60āđC
(%)
68āđF 140āđF
30
Sat
50
100
100
96
100
96
100
100
100
100
Tc
Tc
100
100
90
100
100
Sat
Tc
100
100
Tc
100
100
100
40
50
Sat
Sat
Sat
Sat
Sat
Sat
Sat
Sat
100
Sat
Sat
100
100
Sat
100
100
100
G
G
G
G
G
G
G
G
M to P
G
G
G
G
G
G
G
G
G
G
G
G
G
G
P
G
M
G
G
P
G
G
G
M
P
G
G
G
G
G
G
G
G
G
G
P
G
G
P
P
G
M
P
M
G
G to M
G
M(D)
G
M
G
G to M
G
G
M(D)
M
G
P
M
M
G
G
P
G
G
M
M
P
G
G
G
G
G
G
G
G
G
G
P
G
G
G
M
P
P
āļŦāļĄāļēāļĒāđāļŦāļāļļ : Sat = āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒāļāļīāđāļĄāļāļąāļ§āļāļĩāđ 20 C (āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒāļāļīāđāļĄāļāļąāļ§āļāļĩāđ 20 C) : Tc = āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒāļāļļāļāļāļ§āļēāļĄāđāļïāļĄāļïāļ (Aqueous solution in all concentrations)
(Remarks) A = āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒ (Aqueous solutions) : D = āļŠāļĩāđāļāļĨāļĩāđāļĒāļ (Discolouration)
G = āļāļāļāļāļāļĩ (Good resistance) : M = āļāļāļāļāļāļēāļāļāļĨāļēāļ (Moderate resistance) : P = āļāļāļāļāđāļĄïāļāļĩ (Poor resistance)
TAP-TEC-CHE-49R0
āđāļāļĄāļĩāļ āļąāļāļï
Chemicals
āļāļēāļĢāļāļāļāļēāļ
āļāļ§āļēāļĄāđāļïāļĄāļïāļ
Resistance
Conc.
20āđC 60āđC
(%)
68āđF 140āđF
005
Cert. No. TH04/0500
5. 2
āļïāļāļĄāļđāļĨāļāļēāļāļïāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
āļāļēāļĢāļāļāļāļēāļāļŠāļēāļĢāđāļāļĄāļĩāļāļāļāļïāļ āļāļĩ.āļāļĩ. (General guide to Chemical Resistance of HDPE pipe)
Chloroform āļāļĨāļāđāļĢāļāļāļĢïāļĄ
Copper salts āđāļāļĨāļ·āļāļāļāļāđāļāļ
Cresol āļāļĢāļĩāļāļāļĨ
CyclohexaneāđāļāđāļāļĨāđāļŪāļāđāļāļ
Cyclohexanol āđāļāđāļāļĨāđāļŪāļ āļāļēāļāļāļĨ
Cyclohexanone āđāļāđāļāļĨāđāļŪāļāļāļēāđāļāļ
Decalin āđāļāļāļēāļĨāļīāļ
Detergents āļāļāļāļąāļāļāļāļ āļāļēāļāļāļĨ
Dibutyl phtalat āđāļāļāļđāļāļīāļĨ āļāļ°āļāļēāđāļĨāļ
Dichlorethane āđāļāļāļĨāļāļĢïāļāļĩāđāļāļ
Dichlorethylene āđāļāļāļĨāļāļĢïāđāļāļāļīāļĨāļĩāļ
p-dichlorobenzene āļāļēāļĢāļē-āđāļāļāļĨāļāđāļĢāđāļāļāļāļĩāļ
Diethyl ether āđāļāđāļāļāļīāļĨ āļāļĩāđāļāļāļĢï
Dioctyl phthalate āđāļāļāļāļāļāļīāļĨ āļāļ°āļāļēāđāļĨāļ
Dioxane āđāļāļāļāļāđāļāļ
Ether āļāļĩāđāļāļāļĢï
Ethyl acetate āđāļāļāļīāļĨ āļāļ°āļāļĩāđāļāļ
Ethylene glycol āđāļāļāļīāļĨāļĩāļ āđāļāļĨāļāļāļĨ
Fluorine āļāļĨāļđāļāļāļĢāļĩāļ
Formaldehyde āļāļāļĢïāļĄāļąāļĨāļāļĩāđāļŪāļï
Fruit juice āļāđāđāļēāļāļĨāđāļĄï
Gelatin āđāļāļĨāļ°āļāļīāļ
Glycerin āļāļĨāļĩāļāđāļāļāļĢāļĩāļ
Glycerin chlorohydrin āļāļĨāļĩāđāļāļāļĢāļĩāļ āļāļĨāļāđāļĢāđāļŪāļāļĢāļīāļ
Glycol āđāļāļĨāļāļāļĨ
Hydrogen chloride gas (dry and wet)
āđāļŪāđāļāļĢāđāļāļāļāļĨāļāđāļĢāļï (āđāļŦïāļāđāļĨāļ°āđāļïāļĒāļ)
Hydrogen peroxide āđāļŪāđāļāļĢāđāļāļ āđāļāļāļĢïāļāļāļāđāļāļï
Hydrogen Peroxide āđāļŪāđāļāļĢāđāļāļ āđāļāļāļĢïāļāļāļāđāļāļï
Hydrogen sulphide āđāļŪāđāļāļĢāđāļāļ āļāļąāļĨāđāļāļï
Iodine tincture āļāļīāļāđāļāļāļĢïāđāļāđāļāļāļĩāļ
Isooctane āđāļāđāļāļāļāļāđāļāļ
Ketones āļāļĩāđāļāļ
Marmelade āđāļĒāļĄāļāļīāļ§āļŠïāļĄ
Mercury āļāļĢāļāļ
Metallic sulphates āđāļĨāļŦāļ° āļāļąāļĨāđāļāļ
Methylethylketon āđāļĄāļāļīāļĨāđāļāļāļīāļĨāļāļĩāđāļāļ
Methylglycol āđāļĄāļāļīāļĨ āđāļāļĨāļāļāļĨ
Milk āļāļĄ
Molasses āļāđāđāļēāļïāļāļĒ
Morpholine āļĄāļāđāļāļĨāļĩāļ
Naphta (heavy fraction) āđāļāļāļāļē(āļŠïāļ§āļāļāļĩāđāļŦāļāļąāļ)
Naphtalene āđāļāļāļāļēāļĨāļĩāļ
Natural gas āđāļïāļŠāļāļĢāļĢāļĄāļāļēāļāļī
Nickel salts āđāļāļĨāļ·āļāļāļīāđāļāļīāļĨ
Nitrous (gas) āđāļïāļŠāđāļāļāļĢāļąāļŠ
Oil
Essential Oils āļāđāđāļēāļĄāļąāļāļŦāļāļĄāļĢāļ°āđāļŦāļĒ
Mineral Oils āļāđāđāļēāļĄāļąāļāđāļĢï
100
Sat
90
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
40
100
100
100
100
P
P
G
G
G
G(D)
G
G
G
G
G
M
G
M
G
G
G
M
M
M
P
P
M
P
G to M
M
G
M
G
G
M
M
M
P
G
G
P
P
G
G
G
G
G
G
G
G
G
G
G
G
Tc
G
G
30
70
100
100
100
100
100
Sat
-
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
G
P
G
M(D)
M
G
G
G
G
M to P
G
G
G
G
M
M
G
G
G
100
100
M
G
M
G to M
āđ
100
100
Sat
100
100
āđāļāļĄāļĩāļ āļąāļāļï
Chemicals
Paraffin Oils āļāđāđāļēāļĄāļąāļāļāļēāļĢāļēāļïāļ
Silicone Oils āļāđāđāļēāļĄāļąāļāļāļīāļĨāļīāđāļāļ
Vegetable and animal Oils
āļāđāđāļēāļĄāļąāļāļāļ·āļāđāļĨāļ°āļŠāļąāļāļ§ï
Oleum āđāļāđāļĨāļĩāļĒāļĄ
Oxygen āļāļāļāļāļīāđāļāļ
Ozoneāđāļāđāļāļ
Petrol (auto) āļāđāđāļēāļĄāļąāļ(āļĢāļāļĒāļāļï)
Petrol (raw) āļāđāđāļēāļĄāļąāļ (āļāļīāļ)
Petroleum ether āļïāđāļāļĢāđāļĨāļĩāļĒāļĄ āļāļĩāđāļāļāļĢï
Phenols āļïāļāļāļĨ
Phosphates āđāļāļĨāļ·āļāļāļāļŠāđāļāļ
Phosphoric oxychloride āļāļāļŠāļāļāļĢāļīāļ āļāļāļāļāļĩāļāļĨāļāđāļĢāļï
Phosphorous pentoxide āļāļāļŠāļāļāļĢāļąāļŠ āđāļāļāļïāļāļāđāļāļï
Phosphorous trichloride āļāļāļŠāļāļāļĢāļąāļŠ āđāļāļĢāļāļĨāļāđāļĢāļï
Photographic developers āļāđāđāļēāļĒāļēāļĨïāļēāļāļïāļĄāļŠïāļ āļēāļ
Polyglycols āđāļāļĨāļĩāđāļāļĨāļāļāļĨ
Potassium dichromate āđāļāļāļąāļŠāđāļāļĩāļĒāļĄ āđāļāđāļāļĢāđāļĄāļ
Potassium permanganate
āđāļāļāļąāļŠāđāļāļĩāļĒāļĄāđāļāļāļĢïāđāļĄāļāļāļēāđāļāļ
Pyridine āđāļāļĢāļīāļĨāļĩāļ
Sea water āļāđāđāļēāļāļ°āđāļĨ
Silver nitrate āļāļīāļĨāđāļ§āļāļĢï āđāļāđāļāļĢāļ
Sodium benzoate āđāļāđāļāļĩāļĄ āđāļāļāđāļāđāļĨāļ
Sodium bicarbonate āđāļāđāļāļĩāļĒāļĄ āđāļāļāļēāļĢïāļāļāđāļāļ
Sodium borate āđāļāđāļāļĩāļĒāļĄ āļāļāđāļĢāļ
Sodium earbonate (lyes) āļāđāđāļēāđāļāļāļēāļāļąāļāļïāļē
Sodium chlorite āđāļāđāļāļĩāļĒāļĄ āļāļĨāļāđāļĢïāļï
Sodium chlorite (washing bleach)
āđāļāđāļāļĩāļĒāļĄ āļāļĨāļāđāļĢïāļï (āļāđāđāļēāļĒāļēāļāļāļāļāļēāļ§)
Sodium Hypochorite
āđāļāđāļāļĩāļĒāļĄāđāļŪāđāļāļāļĨāļāđāļĢāļï
Sodium nitrate āđāļāđāļāļĩāļĒāļĄ āđāļāđāļāļĢāļ
Sodium silicate āđāļāđāļāļĩāļĒāļĄ āļāļīāļĨāļīāđāļāļ
Sodium sulphide āđāļāđāļāļĩāļĒāļĄ āļāļąāļĨāđāļāļï
Sodium thiosulphate āđāļāđāļāļĩāļĒāļĄ āđāļāđāļāļāļąāļĨāđāļāļ
Sugar syrup āļāđāđāļēāđāļāļ·āđāļāļĄ
Sulphur āļāđāļēāļĄāļ°āļāļąāļ
Sulphur dioxide āļāļąāļĨāđāļāļāļĢïāđāļāļāļāļāđāļāļï
Sulphur trioxide āļāļąāļĨāđāļāļāļĢïāđāļāļĢāļāļāļāđāļāļï
Tetrahydrofurane āđāļāļāļĢāļ°āđāļŪāđāļāļĢāļāļđāļĢāļēāļ
Tetralin āđāļāļāļĢāļ°āļĨāļīāļ
Thiophene āđāļāđāļāļïāļ
Toluene āđāļāļĨāļđāļāļĩāļ
Thichloroethyene āđāļāļĢāļāļĨāļāđāļĢāđāļāļāļīāļĨāļĩāļ
Turpentine āļāđāđāļēāļĄāļąāļāļŠāļ
Urea āļĒāļđāđāļĢāļĩāļĒ
Vaseline āļ§āļēāļŠāļĨāļīāļ
Yeast āļĒāļĩāļŠāļï
Xylene āđāļāļĨāļĩāļ
(2)
āļāļēāļĢāļāļāļāļēāļ
āļāļ§āļēāļĄāđāļïāļĄāļïāļ
(Resistance)
Conc.
20āđC 60āđC
(%)
68āđF 140āđF
100
100
G
G
G
G
100
G
G to M
tc
100
100
100
100
100
tc
Sat
100
100
100
100
Sat
P
P
G
M
G to M
P
G
G to M
G
M
G
M
G
G(D)
G
G
G
M(D)
G
G
G
M
G
G
G
G
G
G
Sat
G
G(D)
100
G
G
G
G
G
G
G
G
M
G
G
G
G
G
G
M
G
M to P
G
G
G
G
G
G
G
G
G
P
M
G
M
M
P
G
G
M
G
M
G
G
G
G
G
G
G
P
P
M
M
P
P
M
G
M
G
P
Sat
Sat
Sat
1
Sat
50
125g/l.
Active 1°C
Sat
Tc
Tc
Sat
Tc
100
Tc
100
100
100
100
100
100
100
Sat
A
100
āļŦāļĄāļēāļĒāđāļŦāļāļļ : Sat = āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒāļāļīāđāļĄāļāļąāļ§āļāļĩāđ 20āđC (āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒāļāļīāđāļĄāļāļąāļ§āļāļĩāđ 20 C) : Tc = āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒāļāļļāļāļāļ§āļēāļĄāđāļïāļĄāļïāļ (Aqueous solution in all concentrations)
(Remarks) A = āļŠāļēāļĢāļĨāļ°āļĨāļēāļĒ (Aqueous solutions) : D = āļŠāļĩāđāļāļĨāļĩāđāļĒāļ (Discolouration)
G = āļāļāļāļāļāļĩ (Good resistance) : M = āļāļāļāļāļāļēāļāļāļĨāļēāļ (Moderate resistance) : P = āļāļāļāļāđāļĄïāļāļĩ (Poor resistance)
TAP-TEC-CHE-49R0
āđāļāļĄāļĩāļ āļąāļāļï
Chemicals
āļāļēāļĢāļāļāļāļēāļ
āļāļ§āļēāļĄāđāļïāļĄāļïāļ
(Resistance)
Conc.
20āđC 60āđC
(%)
68āđF 140āđF
005
Cert. No. TH04/0500
24. 21
āļïāļāļĄāļđāļĨāļāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
005
Cert. No. TH04/0500
āļŠāļāļĢāļđāļāļĩāđāđāļïāļāļąāļāđāļŦāļ§āļāđāļŦāļĨāđāļāđāļŦāļāļĩāļĒāļ§ 10K
āļāļāļēāļāđāļŦāļ§āļ
1â
1 ž - 1 Â―â
2â
2 Â―â
3â
4â
125 mm
5â
6â
180 mm
8â
10â
12â
355 mm
400 mm
450 mm
500 mm
560 mm
630 mm
710 mm
800 mm
900 mm
1,000 mm
1,200 mm
āļāđāļēāļāļ§āļāļĢāļđāđāļŦāļ§āļ
4
4
4
4
8
8
8
8
8
8
12
12
16
16
16
20
20
24
24
24
24
28
28
28
āļŠāļāļĢāļđ
āđāļāļāļïāļēāļ
5/8â x 2 Â―â
5/8â x 3â
5/8â x 3â
5/8â x 3â
5/8â x 3 Â―â
5/8â x 3 Â―â
5/8â x 3 Â―â
3/4â x 4â
3/4â x 4â
3/4â x 4â
3/4â x 5â
3/4â x 5 Â―â
3/4â x 5 Â―â
3/4â x 6â
1â x 5 Â―â
1â x 6â
1â x 6 Â―â
1â x 7â
1â x 7â
1â x 7â
1â x 7â
1â x 7 Â―â
1 žâ x 7 Â―â
1 žâ x 8â
āđāļāļāļāļļāļ
5/8â x 3â
5/8â x 3â
5/8â x 3 Â―â
5/8â x 3 Â―â
5/8â x 3 Â―â
5/8â x 4â
5/8â x 4â
3/4â x 4 Â―â
3/4â x 4 Â―â
3/4â x 5â
3/4â x 5 Â―â
3/4â x 5 Â―â
3/4â x 6â
3/4â x 7â
1â x 7â
1â x 7 Â―â
1â x 9â
1â x 9â
1â x 9â
1â x 9â
1â x 9â
1â x 9â
1 žâ x 10â
1 žâ x 10â
TAP-TIS-PE100-49R0
āļāļāļēāļāļŠāļāļąāļāđāļāđāļ
(āļĄāļīāļĨāļĨāļīāđāļĄāļāļĢ)
32
40 â 50
63
75
90
110
125
140
160
180
200 â 225
250 â 280
315
355
400
450
500
560
630
710
800
900
1,000
1,200
25. 22
āļïāļāļĄāļđāļĨāļāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
005
Cert. No. TH04/0500
āļŠāļāļĢāļđāļāļĩāđāđāļïāļāļąāļāđāļŦāļ§āļāđāļŦāļĨāđāļāđāļŦāļāļĩāļĒāļ§ PN10
āļāļāļēāļāđāļŦāļ§āļ
(āļĄāļīāļĨāļĨāļīāđāļĄāļāļĢ)
32
50
63
75
90
110
125
140
160
180
225
280
315
355
400
450
500
560
630
710
800
900
1,000
1,200
āļāđāļēāļāļ§āļāļĢāļđāđāļŦāļ§āļ
4
4
4
4
8
8
8
8
8
8
8
12
12
16
16
20
20
20
20
24
24
28
28
āļŠāļāļĢāļđ
āđāļāļāļïāļēāļ
1/2â x 2 Â―â
5/8â x 3â
5/8â x 3â
5/8â x 3â
5/8â x 3â
5/8â x 3â
5/8â x 3 Â―â
5/8â x 3 Â―â
3/4â x 4â
3/4â x 4â
3/4â x 4 Â―â
3/4â x 4 Â―â
3/4â x 5 Â―â
3/4â x 5 Â―â
1â x 6 Â―â
1â x 6 Â―â
1â x 7 Â―â
1â x 8â
1â x 8â
1â x 8â
1 žâ x 9â
1 žâ x 9â
1 žâ x 9â
1 žâ x 9â
āđāļāļāļāļļāļ
1/2â x 3â
5/8â x 3â
5/8â x 3 Â―â
5/8â x 3 Â―â
5/8â x 4â
5/8â x 4â
5/8â x 4 Â―â
3/4â x 4 Â―â
3/4â x 4 Â―â
3/4â x 5 Â―â
3/4â x 5 Â―â
3/4â x 6â
3/4â x 6â
3/4â x 7â
1â x 8â
1â x 9â
1â x 10â
1â x 10â
1â x 10â
1â x 10â
1 ž â x 11â
1 ž â x 11â
1 ž â x 11â
1 ž â x 11â
TAP-TIS-PE100-49R0
āļāļāļēāļāļŠāļāļąāļāđāļāđāļ
(āļĄāļīāļĨāļĨāļīāđāļĄāļāļĢ)
32
40 â 50
63
75
90
110
125
140
160
180
200 â 225
250 â 280
315
355
400
450
500
560
630
710
800
900
1,000
1,200
26. 23
āļïāļāļĄāļđāļĨāļāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
005
Cert. No. TH04/0500
Transport,Storage,Laying and Permissible bending radius for HDPE pipes
āļāļēāļĢāļāļāļŠïāļ
āđāļāļāļēāļĢāļāļāļŠïāļāļïāļ HDPE āļïāļāļāļïāļēāļāļŠāļ°āļāļ§āļ āđāļāļ·āđāļāļāļāļēāļāļïāļ HDPE āļāļāļēāļāđāļĨāđāļāļāļąāđāļāđāļï 16 â 90 āļĄāļīāļĨāļĨāļīāđāļĄāļāļĢ āļŠāļēāļĄāļēāļĢāļāļāđāļēāļĄāļēāļāļāđāļïāļ
āļĄïāļ§āļāđāļï āļïāļ HDPE āļāļĩāđāļĄāļĩāļāļāļēāļāđāļŦāļï āļāļ°āļĄāļĩāļāļ§āļēāļĄāļĒāļēāļ§āļĄāļēāļāļĢāļāļēāļāļāļĩāđāļïāļāļāļĨāļ° 6 āđāļĄāļāļĢ āđāļāļĒāļāļĩāđāļāļēāļĢāļāļāļŠïāļāļïāļāļāļāļđāđāļĨāļāļ·āđāļāļāļĩāđāļĢāļāļāļĢāļąāļāļïāļāđāļïāļāļāļīāđāļĻāļĐ āļāļ·āđāļ
āļāļ°āļïāļāļāļĢāļēāļāđāļĢāļĩāļĒāļāđāļŠāļĄāļāļāļąāļ āđāļĄïāļĄāļĩāļāļāļāļĄāļĩāļāļĄāļāļĩāđāļāđāļēāđāļŦïāđāļāļīāļāļāđāļēāļŦāļāļīāļāļāļāļīāļ§āļïāļāđāļï āđāļïāļ āļïāļāļāļŦāļīāļ , āđāļĻāļĐāđāļĨāļŦāļ° , āđāļĻāļĐāđāļĄï āđāļïāļāļïāļ
āļāļēāļĢāļāļąāļāđāļāđāļ
āļāļēāļĢāļāļąāļāđāļāđāļāļïāļ HDPE āļāļ°āļïāļāļāļāļąāļāļ§āļēāļāļāļāļāļ·āđāļāļāļĩāđāļāļĩāđāļĄāļĩāļāļ§āļēāļĄāļĢāļēāļāđāļĢāļĩāļĒāļāđāļŠāļĄāļāļāļąāļ āđāļāļĒāļāļāļāļïāļāļāļ§āļĢāļĄāļĩāļāļ§āļēāļĄāļŠāļđāļāđāļĄïāđāļāļīāļ 1 āđāļĄāļāļĢ āđāļĨāļ°āļïāļ
āļāļĩāđāļĢāļāļāļāļĒāļđïāļïāļēāļāļĨïāļēāļāļāļīāđāļāļāļĒāļđïāļāļąāļāļāļĩāđ
āļïāļāļāļĩāđāļāļąāļāđāļāđāļāļāļĨāļēāļāđāļïāļ āļāļ°āđāļïāļĢāļąāļāļĢāļąāļāļŠāļĩāļĒāļđāļ§āļĩāļāļēāļāđāļŠāļāđāļāļ āļāļķāļāļĄāļĩāļāļēāļĢāđāļāļīāļĄāļŠāļēāļĢāļāļēāļāļāļāļīāļ āđāļāļ·āđāļāļĨāļāļāļąāļāļĢāļēāļāļēāļĢāđāļŠāļ·āđāļāļĄāļŠāļ āļēāļāļāļēāļāļĢāļąāļāļŠāļĩāđāļĨāļ°
āļāļ§āļēāļĄāļĢïāļāļ āļāļķāđāļāļïāļāļāļĩāđāļĄāļĩāļāļāļēāļāđāļŦāļïāļāļ°āļŦāļĨāļĩāļāđāļĨāļĩāđāļĒāļāđāļïāļĒāļēāļ āļāļķāļāļïāļāļāļŦāļēāļāļēāļāļïāļāļāļāļąāļ āđāļāļĒāđāļāļāļēāļ°āđāļāļïāļ§āļāļāļēāļāļēāļĻāļĢïāļāļ
āļāļēāļĢāļ§āļēāļāļïāļ
āđāļāļāļēāļĢāļ§āļēāļāļïāļāđāļĨāļ°āļāļļāļāļāļĢāļïāļïāļāļāļĄāļĩāļāļēāļĢāļāļīāļāļēāļĢāļāļēāļāļķāļ
1. āļĢāļ°āļĒāļ°āļāļēāļĢāļ§āļēāļ support
2. āļāļēāļĢāđāļāļĨāļĩāđāļĒāļāđāļāļĨāļāļāļ§āļēāļĄāļĒāļēāļ§āļïāļ
3. āļāļēāļĢāļāļāļāđāļāļāļŦāļĄāļļāļāļĒāļķāļ (pipe clips)
4. āļāļąāļāļĢāļēāļāļēāļĢāļŦāļāļāļąāļ§āļāļāļāļïāļ
5. āļĢāļąāļĻāļĄāļĩāļāļēāļĢāđāļïāļāļāļāļāļïāļ
6. āļāļēāļĢāļāļļāļāđāļāļēāļ°
āļŊāļĨāļŊ
āļĢāļąāļĻāļĄāļĩāļāļēāļĢāđāļïāļ
āļāļĩāđāļāļļāļāļŦāļ āļđāļĄāļī 20oC āļĢāļąāļĻāļĄāļĩāļāļēāļĢāđāļïāļāđāļĄïāļāļ§āļĢāļāđāđāļēāļāļ§ïāļēāļïāļēāļāļąāļāļāļēāļĢāļēāļāļïāļāđāļāļāļĩāđ
āļĢāļąāļĻāļĄāļĩāļāļēāļĢāđāļïāļ (R)
R
āļāļąāđāļāđāļĢāļāļāļąāļ
PN2.5
PN3.2
PN4
PN6
PN10
SDR
41
33
26
17.6
11
HDPE
50 x d
40 x d
30 x d
20 x d
20 x d
āļŦāļĄāļēāļĒāđāļŦāļāļļ āļāļĩāđāļāļļāļāļŦāļ āļđāļĄāļī 0oC āļïāļēāļāļĩāđāđāļïāļāļ°āđāļāļīāđāļĄāļāļķāđāļ āđāļāļĒāļāļđāļāļĩāđ safety factor 2.5
TAP-TIS-PE100-49R0
āđāļāļĒāļāļĩāđ d = āļāļāļēāļāđāļŠïāļāļïāļēāļāļĻāļđāļāļĒïāļāļĨāļēāļāļ āļēāļĒāļāļāļāļāļāļāļïāļ
28. 25
āļïāļāļĄāļđāļĨāļāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
005
Cert. No. TH04/0500
āļāđāļēāļāļ§āļāļāļĢāļĢāļāļļāļāļïāļāđāļāļĩāđāļĒāļ§
āļāļāļēāļ x āļāļ§āļēāļĄāļĒāļēāļ§
75 mm x 6m
90 mm x 6m
110 mm x 6m
125 mm x 6m
140 mm x 6m
160 mm x 6m
180 mm x 6m
200 mm x 6m
āļāđāļēāļāļ§āļāļāļĢāļĢāļāļļāļ
(āļïāļāļ)
700
500 â 600
400 â 450
300
200 â 250
200 â 250
180
130
āļāļāļēāļ x āļāļ§āļēāļĄāļĒāļēāļ§
75 mm x 12m
90 mm x 12m
110 mm x 12m
125 mm x 12m
140 mm x 12m
160 mm x 12m
180 mm x 12m
200 mm x 12m
āļāđāļēāļāļ§āļāļāļĢāļĢāļāļļāļ
(āļïāļāļ)
700
500 â 550
400 â 450
350
300
200 â 220
180
130
āļŦāļĄāļēāļĒāđāļŦāļāļļ
āđāļāļ§āļĨāļ° 16 āļïāļāļ
āđāļāļ§āļĨāļ° 11 āļïāļāļ
āļĢāļāđāļāļĢāļĨāđāļĨāļāļĢï 10 āļïāļāļ
āļŦāļĄāļēāļĒāđāļŦāļāļļ :
100 â 120
90 -100
65 â 70
50 â 55
40
30 â 35
25
20
13
11
9
6
4
225 mm x 12m
250 mm x 12m
280 mm x 12m
315 mm x 12m
355 mm x 12m
400 mm x 12m
450 mm x 12m
500 mm x 12m
630 mm x 12m
710 mm x 12m
800 mm x 12m
900 mm x 12m
1,000 mm x 12m
100 â 115
90 â 100
65 â 70
50 â 55
40
30 â 35
25
20 â 22
13
11
9
6
4
āđāļāļ§āļĨāļ° 10 āļïāļāļ
āđāļāļ§āļĨāļ° 9 āļïāļāļ
āđāļāļ§āļĨāļ° 8 āļïāļāļ
āđāļāļ§āļĨāļ° 7 āļïāļāļ
āđāļāļ§āļĨāļ° 6 āļïāļāļ
āđāļāļ§āļĨāļ° 5 āļïāļāļ
āđāļāļ§āļĨāļ° 5 āļïāļāļ
āđāļāļ§āļĨāļ° 3 āļïāļāļ
āđāļāļ§āļĨāļ° 3 āļïāļāļ
āđāļāļ§āļĨāļ° 3 āļïāļāļ
1. āļĢāļāļāļĢāļĢāļāļļāļ 6 āļĨïāļ , 10 āļĨïāļ āđāļĨāļ°āļĢāļāđāļāļĢāļĨāđāļĨāļāļĢï
2. āļāļ§āļēāļĄāļŠāļđāļāļāļāļāļāļĢāļ°āļāļ° 2.50 āđāļĄāļāļĢ āđāļĨāļ°āļāļ§āļēāļĄāļĒāļēāļ§āļāļāļāļĢāļ 6.50 â 7.20 āđāļĄāļāļĢ
( āļŠāđāļēāļŦāļĢāļąāļāļĢāļ 6 āļĨïāļāđāļĨāļ°āļĢāļ 10 āļĨïāļ )
3. āļïāļāļāļāļđāļïāļ§āļĒāļ§ïāļēāļïāļāđāļïāļāļĄāļēāļāļĢāļāļēāļāļāļ°āđāļĢ āđāļāļĢāļēāļ°āļïāļēāļïāļāļŦāļāļē āļāđāđāļēāļŦāļāļąāļāļāļĢāļĢāļāļļāļāļāļāļāļĢāļāļāļ°āđāļāļīāļāļĄāļēāļāļĢāļāļēāļ
āļāļąāļāļāļąāđāļ āļïāļēāļāđāđāļēāļŦāļāļąāļāļāļĢāļĢāļāļļāļāđāļāļīāļ āļāļ°āļïāļāļāļĨāļāļāđāļēāļāļ§āļāļïāļāļĨāļ
TAP-TIS-PE100-49R0
225 mm x 6m
250 mm x 6m
280 mm x 6m
315 mm x 6m
355 mm x 6m
400 mm x 6m
450 mm x 6m
500 mm x 6m
630 mm x 6m
710 mm x 6m
800 mm x 6m
900 mm x 6m
1,000 mm x 6m
29. 26
āļïāļāļĄāļđāļĨāļāļēāļāđāļāļāļāļīāļ
TECHNICAL INFORMATION
Quality Management Systems
Q001
Cert. No. NQ767/04
005
Cert. No. TH04/0500
āļāđāļēāļāļ§āļāļāļĢāļĢāļāļļāļāļïāļāđāļāļĩāđāļĒāļ§
20 mm x 100 m
25 mm x 100 m
32 mm x 100 m
40 mm x 100 m
50 mm x 100 m
63 mm x 100 m
75 mm x 100 m
90 mm x 100 m
110 mm x 100 m
125 mm x 100 m
140 mm x 100 m
160 mm x 100 m
TAPKORR
100 mm x 6m
TAPKORR
100 mm x 6m
TAPKORR
150 mm x 6 m
TAPKORR
150 mm x 6 m
TAPKORR
200 mm x 6 m
āļŦāļĄāļēāļĒāđāļŦāļāļļ :
āļāđāļēāļāļ§āļāļāļĢāļĢāļāļļāļ
(āļĄïāļ§āļ)
300
200
130
60 â 70
50 â 55
30 â 35
20 â 25
12 â 15
10 â 11
7
4
2
450 â 500 āļïāļāļ
( 6 āļĨïāļ )
800 āļïāļāļ
( āđāļāđāļĨāļāļĢï )
180 â 190
( 6 āļĨïāļ )
380
( āđāļāđāļĨāļāļĢï )
200
( āđāļāđāļĨāļāļĢï )
āļāļāļēāļ x āļāļ§āļēāļĄāļĒāļēāļ§
LDPE16 mm x 200 m
LDPE 20 mm x 200 m
LDPE 25 mm x 200 m
40 mm x 50 m
50 mm x 50 m
63 mm x 50 m
75 mm x 50 m
90 mm x 50 m
125 mm x 50 m
110 mm x 50 m
140 mm x 50 m
160 mm x 50 m
TAPKORR
100 mm x 50 m
TAPKORR
100 mm x 50 m
TAPKORR
150 mm x 50 m
TAPKORR
200 mm x 6 m
āļāđāļēāļāļ§āļāļāļĢāļĢāļāļļāļ
(āļĄïāļ§āļ)
300
200
150
100
80
53
35 â 40
20
10 â 12
18
7
3
55
( āđāļāđāļĨāļāļĢï )
40 â 45
( 6 āļĨïāļ )
20
( 6 āļĨïāļ )
100
( 6 āļĨïāļ )
āļŦāļĄāļēāļĒāđāļŦāļāļļ
āļĢāļāļŦāļāļĨïāļ (PE80)
1. āļĢāļāļāļĢāļĢāļāļļāļ 6 āļĨïāļ , 10 āļĨïāļ āđāļĨāļ°āļĢāļāđāļāļĢāļĨāđāļĨāļāļĢï
2. āļāļ§āļēāļĄāļŠāļđāļāļāļāļāļāļĢāļ°āļāļ° 2.50 āđāļĄāļāļĢ āđāļĨāļ°āļāļ§āļēāļĄāļĒāļēāļ§āļāļāļāļĢāļ 6.50 â 7.20 āđāļĄāļāļĢ
( āļŠāđāļēāļŦāļĢāļąāļāļĢāļ 6 āļĨïāļāđāļĨāļ°āļĢāļ 10 āļĨïāļ )
3. āļïāļāļāļāļđāļïāļ§āļĒāļ§ïāļēāļïāļāđāļïāļāļĄāļēāļāļĢāļāļēāļāļāļ°āđāļĢ āđāļāļĢāļēāļ°āļïāļēāļïāļāļŦāļāļē āļāđāđāļēāļŦāļāļąāļāļāļĢāļĢāļāļļāļāļāļāļāļĢāļāļāļ°āđāļāļīāļāļĄāļēāļāļĢāļāļēāļ
āļāļąāļāļāļąāđāļ āļïāļēāļāđāđāļēāļŦāļāļąāļāļāļĢāļĢāļāļļāļāđāļāļīāļ āļāļ°āļïāļāļāļĨāļāļāđāļēāļāļ§āļāļïāļāļĨāļ
TAP-TIS-PE100-49R0
āļāļāļēāļ x āļāļ§āļēāļĄāļĒāļēāļ§