Supplier: Watse plastic recycled granules, plastic recycling machine, pelletizing extruder line
Supplier: Plastic granules/ recycling machines
Recycle HDPE,LDPE,PP. Output 60-200kgs/hour.
Supplier: Domestic, engineering & general goods
specialist in : cosmetic item like shampoo, conditioner, hair spa, face scrub, serum, cnc machines, machine spares, bopp tape, wood, plastic, clothing & kids garments
Services: Export
We Provide Tmt Brand or Private Logo All Type of Cnc Machines as Below 1. Horigantal Turning Centre 2. Verticle Turning Centre 3. Vertical Machining Centre 4. Spm for Special Type of Activity 5. Double Coloumn Vmc 6. Grinding Machines 7. All Type of Industrial Machines
Our company mainly produces all the machinery related to plastics. We have advantages in price and quality in the same industry. If you need, please contact me on
Product Introduction PET spunbond substrate fabric compared with short fiber polyester tire has high tensile strength, elongation, stability, aging resistance, long service life, good wettability and other characteristics, as the internationally recognized high-performance SBS, APP and other modified asphalt waterproof roll tire. Application Area Modified asphalt waterproof coil is widely used in waterproof concrete building, such as building roof, underground structure, high-speed railway, tunnel, highway and railway bridge waterproof field.
Plastic Granulation Machine A plastic granulation machine, also known as a plastic granulator or plastic pelletizer, is a device used to transform plastic waste into small, uniform plastic pellets or granules. These pellets can be used as raw materials for various plastic manufacturing processes, such as injection molding, extrusion, and blow molding. Working Principles Feeding: Plastic waste, such as discarded plastic products or post-industrial plastic scraps, is fed into the machine's hopper or feeding system. The waste is usually in the form of larger pieces or chunks. Shredding: The plastic waste is first shredded into smaller pieces using blades or knives. This step helps in reducing the size of the plastic and preparing it for further processing. Grinding: The shredded plastic is then further reduced in size through grinding. Grinding mechanisms, such as rotating blades or a rotor, break down the plastic waste into even smaller particles. This process increases the surface area of the plastic, making it easier to melt and form into pellets. Melting and Extrusion: The ground plastic particles are fed into a heating chamber within the granulator machine. Heat is applied to melt the plastic particles. The molten plastic is then forced through a die or a screen with small holes to create cylindrical strands or filaments. The strands are formed by the action of rotating screws or rollers within the machine. Cutting and Cooling: As the strands exit the machine, they are cut into uniform lengths by a cutting mechanism. This results in the formation of plastic pellets or granules. The pellets are usually cooled using air or water to solidify them and prevent sticking or clumping. In some cases, a vibrating system is used to separate and cool the pellets. Collection and Packaging: The plastic pellets are collected and stored in containers or bags. They are then ready to be used as raw material in various plastic manufacturing processes, including injection molding, extrusion, or blow molding. The entire process is typically controlled and monitored by a control panel that allows operators to adjust parameters such as temperature, speed, and cutting length to achieve the desired pellet quality and production efficiency.
At A.S Engineers & Fabricators, we utilize cutting-edge laser and CNC (Computer Numerical Control) machines to deliver precision engineering solutions for a wide range of applications. Our laser machines offer high-speed, high-precision cutting and engraving capabilities, allowing us to work with various materials, including metals, plastics, and composites. With laser technology, we can create intricate designs, precise cuts, and detailed engravings to meet the most demanding requirements. In addition to laser technology, our CNC machines provide advanced machining capabilities for turning, milling, drilling, and more. These automated machines ensure consistent and accurate production of complex parts and components, with fast turnaround times and minimal waste. Precision Laser and CNC machines offer high levels of precision, allowing for accurate cutting, engraving, and machining of intricate designs and complex shapes. Repeatability The automated nature of laser and CNC machining ensures consistent results, with the ability to replicate parts accurately across large production runs Versatility These machines can work with a wide range of materials, including metals, plastics, wood, and composites, making them versatile for various industries and applications Complexity These machines can create complex geometries and intricate patterns that would be difficult or impossible to achieve with traditional machining methods Speed Laser and CNC machines can produce parts and components quickly and efficiently, reducing production time and increasing productivity. Minimal Waste Laser and CNC machining produce minimal waste compared to traditional methods, as they optimize material usage and reduce the need for manual finishing
