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PE ground-source heat pump-specific pipe materials: These are a new type of product made from high-quality polyethylene resin as the primary raw material, with the addition of necessary antioxidants and UV absorbers, and produced through extrusion processing. They operate at working pressures ranging from 1.0 MPa to 1.6 MPa and are suitable for use in ground-source heat pump systems. Principle of Operation: PE ground-source heat pump-specific pipe materials exhibit significantly higher tensile strength and greater pressure-bearing capacity compared to conventional PE water pipes. They have low thermal expansion under stress, excellent resistance to environmental stress cracking, good creep resistance, and outstanding toughness and flexibility. These pipes demonstrate strong adaptability to uneven foundations and displacement, and can withstand harsh environmental conditions such as earthquakes and typhoons. Special additives incorporated into the raw materials give these pipes superior weather resistance (including resistance to ultraviolet radiation) and long-term thermal stability compared to standard PE water pipes. They also feature strong corrosion resistance, eliminating the need for additional anti-corrosion treatments when used to convey corrosive media containing antifreeze agents, and boast an exceptionally long service life. With smooth inner walls, they offer low flow resistance and high hydraulic conductivity, thereby reducing construction costs. They also display excellent wear resistance and are highly resistant to abrasion. The thermal conductivity coefficient of PE ground-source heat pump-specific pipe materials is 0.41 W/m·K, ensuring that winter construction is not adversely affected. Electrofusion (or hot-melt) connections are convenient and reliable, making installation and maintenance simple and straightforward (without requiring water shut-off during the process). When used in conjunction with ground-source heat pumps, this system harnesses shallow geothermal resources found near the Earth's surface—typically within depths of less than 400 meters—as a source of cold and heat for energy conversion in heating and air-conditioning systems. These shallow geothermal resources can be referred to as "geothermal energy," which refers to the low-temperature thermal energy stored in soil, groundwater, rivers, or lakes, derived from absorbed solar and geothermal energy. This form of energy is considered a clean and renewable energy source.
Characteristics of corrugated pipes: Strong resistance to external pressure: The outer wall features a ring-shaped corrugated structure, significantly enhancing the pipe’s ring stiffness and thereby improving its ability to withstand soil loads. Performance aspects: Compared with other types of pipes, HDPE double-wall corrugated pipes offer distinct advantages. Due to their lightweight nature, these pipes are easy to handle and connect, making construction quick and maintenance straightforward. These advantages become even more pronounced under tight schedules and challenging construction conditions. When made from HDPE, double-wall corrugated pipes can convey larger flows than other pipes of the same diameter—meaning that, for the same flow rate requirement, pipes made from HDPE can have a smaller diameter. They also exhibit a low friction coefficient, allowing for greater flow rates. Additionally, they demonstrate excellent resistance to low temperatures and impact. The embrittlement temperature of HDPE double-wall corrugated pipes is -70°C. Under typical low-temperature conditions (above -30°C), no special protective measures are required during installation, making winter construction particularly convenient. Moreover, HDPE double-wall corrugated pipes possess outstanding impact resistance.
Product Introduction PE-RT underfloor heating pipe (heat-resistant polyethylene pipe for hot and cold water, abbreviated as PE-RT in English) is a non-crosslinked polyethylene material suitable for hot-water piping. It’s a new type of polyethylene product manufactured using a special molecular design and synthesis process. This material is a copolymer of ethylene and octene. In terms of molecular structure, its main chain consists of linear polyethylene, while shorter molecular chains of octene form its side branches. During the polymerization process, the number and distribution of these side branches on the polyethylene chains are carefully controlled, giving the material both heat resistance and excellent long-term resistance to static hydraulic pressure. Additionally, PE-RT boasts easy bendability without deformation or rebound, making it an ideal pipe material for underfloor heating systems.
Introduction to PVC Pipes and Fittings Polyvinyl chloride pipes (commonly abbreviated as PVC pipes in English) are plastic pipes that were among the earliest to be developed and put into practical use. They are produced by heating and extruding a mixture of polyvinyl chloride resin combined with auxiliary materials such as stabilizers, lubricants, and color masterbatches. After years of accumulated experience in processing and application, PVC pipes have now established standardized production and processing techniques, along with a comprehensive supporting infrastructure. Coupled with their economic, environmentally friendly, and cost-effective advantages, PVC pipes have become the dominant product in the rubber and plastic piping industry.
I. Introduction to PVC Pipe Products Polyvinyl chloride pipes (commonly referred to as PVC pipes in English) are plastic pipes that were among the earliest to be developed and put into practical use. They are produced by heating and extruding a mixture of polyvinyl chloride resin combined with auxiliary materials such as stabilizers, lubricants, and color masterbatches. After years of accumulated experience in processing and application, PVC pipes have now established standardized production and processing techniques as well as a comprehensive supporting infrastructure. Coupled with their economic, environmentally friendly, and cost-effective advantages, PVC pipes have become the dominant product in the rubber and plastic piping industry.
I. Introduction to PVC Pipes and Fittings Polyvinyl chloride pipes and fittings (commonly referred to as PVC pipes in English) are plastic pipes that were among the earliest types of plastic pipes to be developed and put into practical use. They are produced by heating and extruding a mixture of polyvinyl chloride resin combined with auxiliary materials such as stabilizers, lubricants, and color masterbatches. After years of accumulated experience in processing and application, PVC pipes have now established standardized production and processing techniques, along with a comprehensive range of supporting components. Coupled with their economic, environmentally friendly, and cost-effective advantages, PVC pipes have become the dominant product in the rubber and plastic piping industry.
Introduction to PVC Pipes and Fittings Polyvinyl chloride pipes (commonly referred to as PVC pipes in English) are plastic pipes that were among the earliest to be developed and applied. They are produced by heating and extruding a mixture of polyvinyl chloride resin combined with auxiliary materials such as stabilizers, lubricants, and color masterbatches. After years of accumulated experience in processing and application, PVC pipes have now established standardized production and processing techniques, along with a comprehensive supporting infrastructure. Coupled with their economic, environmentally friendly, and cost-effective advantages, PVC pipes have become the dominant product in the rubber and plastic piping industry.
PVC U-Shape Drainage Pressure Pipe – Product Introduction The PVC U-shaped drainage pipe is a mature and technologically advanced drainage pipe series that has been widely adopted both domestically and internationally. This product boasts advantages unmatched by cast iron pipes, such as exceptionally long service life and excellent corrosion resistance. In terms of installation, it features lightweight construction for easy handling and installation, as well as simple connection methods. It is extensively used in various applications including domestic building drainage and sewage disposal, chemical industry wastewater discharge, and stormwater drainage. The PVC U-shaped drainage pipes and fittings comply with the standards GB/T 5836.1-2006 and GB/T 5836.2-2006. The product is available in three forms: straight pipes, straight-end expanded pipes, and convex-end expanded pipes, and can be connected using a variety of piping methods.
PVC U-Drainage Pressure Pipe Product Introduction: The PVC U-drainage pipe is a mature and technologically advanced drainage pipe series that has been widely adopted both domestically and internationally. This product boasts advantages unmatched by cast iron pipes, such as exceptionally long service life and excellent corrosion resistance. In terms of installation, it features lightweight construction for easy handling and installation, as well as simple connection methods. It is extensively used in drainage and sewage systems for residential buildings, chemical industry wastewater disposal, stormwater drainage, and other related applications. The PVC U-drainage pipes and fittings comply with the standards GB/T 5836.1-2006 and GB/T 5836.2-2006. The product is available in three forms: straight pipes, straight-end expanded pipes, and convex-end expanded pipes, and supports multiple pipeline connection methods. Additionally, our company has developed pressure drainage pipes specifically designed for stormwater drainage, as well as aesthetically pleasing square rainwater downpipes tailored for various architectural drainage designs and projects. We have also introduced a series of drainage pipes—including spiral silencers, hollow spiral silencers, and hollow-wall silencers—that effectively reduce drainage noise. Our company offers a comprehensive range of pipe specifications and fully compatible fittings, ensuring that we can meet diverse design requirements. Key Features of PVC U-Drainage Pressure Pipes: 1. The pipe material exhibits superior surface hardness and tensile strength, resulting in a high safety factor for the pipeline. 2. Excellent resistance to aging ensures a normal service life of over 50 years. 3. The pipe demonstrates outstanding corrosion resistance against inorganic acids, alkalis, and salts, making it ideal for industrial wastewater discharge and transportation. 4. The pipe has a low friction coefficient, allowing for smooth water flow, reducing the likelihood of blockages, and minimizing maintenance efforts.
Polyvinyl chloride (PVC) pipes—known in English as PVC pipes—are the earliest type of plastic pipe to be developed and put into practical use. They are produced by heating and extruding a mixture of polyvinyl chloride resin combined with auxiliary materials such as stabilizers, lubricants, and color masterbatches. After years of accumulated experience in processing and application, PVC pipes have now established standardized production and processing techniques, along with a comprehensive supporting infrastructure. Coupled with their economic, environmentally friendly, and cost-effective advantages, PVC pipes have become the dominant product among rubber and plastic pipelines.
Product Introduction: PPR is the abbreviation for Polypropylene-Random, a type of random copolymer polypropylene. It is a plastic pipe product developed and introduced in the late 1980s and early 1990s. With its outstanding performance and wide range of applications, PPR has established a firm foothold in the plastic pipe market and is widely recognized as an environmentally friendly, green product. Application Fields: PPR pipes are extensively used in various industries and markets, including building water supply and drainage, urban and rural water supply and drainage, city gas systems, protective sheathing for power and optical cables, industrial fluid transportation, agricultural irrigation, construction, municipal engineering, hydraulic engineering, agriculture, and industry.
The product is made from a composite material consisting of common plastics and specialized polymer materials, which, after modification, form a unique composite material. Septic tanks manufactured using this material exhibit high strength, excellent toughness, outstanding corrosion resistance, superior sealing performance, zero leakage, excellent aging resistance, no odor, and no fly attraction. These features can reduce fly populations by 100% and cut the incidence of intestinal infectious diseases by 76.1%. The fertilizer produced after fermentation in these septic tanks not only enhances soil fertility but also prevents soil compaction. The product boasts advantages such as compact design, ease of transportation, and rapid installation. It is widely used in newly constructed or renovated sanitary toilets in rural areas. Our company is a designated manufacturer of double-chamber funnel-type harmless toilets, approved by the Hebei Provincial Health Promotion Association. As of the end of 2020, our products have been promoted and applied in regions including Beijing-Tianjin-Hebei, Shandong, Henan, Shanxi, and Hebei Province. Our products have consistently received high recognition from users for their superior quality, reliable service, and excellent cost-effectiveness.
Introduction to PVC Pipe Products Polyvinyl chloride pipes (commonly referred to as PVC pipes in English) are plastic pipes that were among the earliest to be developed and applied. They are produced by heating and extruding a mixture of polyvinyl chloride resin combined with auxiliary materials such as stabilizers, lubricants, and color masterbatches. After years of accumulated experience in processing and application, PVC pipes have now established standardized production and processing techniques, along with a comprehensive supporting infrastructure. Coupled with their economic, environmentally friendly, and cost-effective advantages, PVC pipes have become the dominant product in the rubber and plastic piping industry.
PE Gas Pipes Introduction to PE Pipe Products: Polyethylene, abbreviated as PE in English, is a thermoplastic resin produced by the polymerization of ethylene monomers. PE pipes for gas applications represent a replacement for traditional steel and polyvinyl chloride (PVC) gas pipes. PE resin is synthesized through the polymerization of ethylene monomers. Due to variations in polymerization conditions—such as pressure and temperature—different densities are achieved, resulting in three types of polyethylene: high-density polyethylene (HDPE), medium-density polyethylene (MDPE), and low-density polyethylene (LDPE). When processing different types of PE pipes, it’s essential to select the appropriate resin grade based on the specific application requirements. Additionally, the requirements for extruders and molds vary accordingly. In the plastic pipe industry, PE pipes, PP-R pipes, and UPVC pipes all hold significant positions; among them, PE pipes have an extremely wide range of applications. Among these, PE water supply pipes and PE gas pipes represent the two largest markets for PE pipes.
Introduction to PE Pipe Products Polyethylene, abbreviated as PE in English, is a thermoplastic resin produced by the polymerization of ethylene monomers. PE pipes for gas applications represent a replacement for traditional steel and polyvinyl chloride (PVC) gas pipes. PE resin is synthesized through the polymerization of ethylene monomers. Due to variations in polymerization conditions—such as pressure and temperature—the density of PE resin differs, resulting in three main types: high-density polyethylene (HDPE), medium-density polyethylene (MDPE), and low-density polyethylene (LDPE). When processing different types of PE pipes, it is essential to select the appropriate resin grade based on the specific application requirements. Additionally, the requirements for extruders and molds vary accordingly. In the plastic pipe industry, PE pipes, PP-R pipes, and UPVC pipes all hold significant positions; among these, PE pipes enjoy a wide range of applications. Among them, PE water supply pipes and PE gas pipes are the two largest markets for PE pipes.
PE ground-source heat pump-specific pipe material: This is a new type of product made from high-quality polyethylene resin as the primary raw material, with the addition of necessary antioxidants and UV absorbers, and produced through extrusion processing. Its working pressure ranges from 1.0 MPa to 1.6 MPa and it is suitable for use in ground-source heat pump systems.
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