Name: Outdoor Sofa Set Mold Furniture Sofa Mould Specifications: 1. Good after-sale service 2. Good quality plastic Mould 3. Competitive price 4. Punctual delivery time 5. High precision 6. Specialized in making plastic injection mould. Our workers are fully qualified and skilled at using modern...
Company profile Nanfeng Technology is a company specialized in customized processing , especially, we are good at mold parts/spare parts making , and so far we have more than 10 processing experience, there are many cooperating customers from around the world with maintaining long-term Partnerships. We sincerely welcome more friends to progress together. Quality Control Quality Control: Quality is the company's life, we strictly request, diligent in implementation. In order to ensure the quality of all parts, we continue to the 4 steps of inspection as always: Material purchase inspection Check part by processor hinself Ultimate inspection by quality personnel Full in quality report and send for customers with your mold part Price Negotiable. Final price depends on products design and materials decisions. Quotation Please provide the Formal drawings (normally,with DWG/STP/PDF file ),and make note with material/QTY/surface treatment and any other requirments, we will provide you the quotation sheet in 12 hours; Prototype & Mould We make the prototypes or moulds according to the drawings that confirmed by both of us and customers!The lead time is depends on the structure and qty of parts,Normally , lead time for prototypes is 5-15 days;lead time for mould is 10-25 days;
Punch Die For Drainage Holes, ,Punching Moulds
Punch Die For Drain Holes, ,PVC Profiles Punching Moulds
Punching Mould For Drainage Holes,PVC Profiles Punching Moulds
Punching Die For Window Weep Holes, ,PVC Profiles Punching Moulds
Comented carbide WC nibs Wire drawing dies for various other ferrous and non-ferrous metal wire Tungsten carbide nibs Wire drawing dies for various other ferrous and non-ferrous metal wire Features of Tungsten carbide dies 1. Material:100% virgin raw material with submicron grain size 2. Grade: Various grades for choice 3. Advanced production equipments and testing equipments 4. Precious Ground and polished 5. High wear resistance,high hardness and impact toughness 6. Advanced technology, automatic pressing, HIP sintering and precision grinding 7. Samples & small orders are acceptable. Application: 1. Used for making high temperature parts, wear parts, anti-shielding parts and corrosion-resistant parts. 2. Used in making hardware and standard stamping moulds. 3. Applicable for electronic industry, motor rotor, stator, LED lead frame, EI silicon sheet and so on. 4. Used for producing drawn mold, wear-resistant parts, stamping parts and automatic press with punch. 5. Used for stamping die, extrusion die, stamping molds. 6. Drawing many kinds of steel wire, aluminum wire, high carbon, MS wire etc Free smaple was available!
YG8 Grade Cemented carbid brazed heads applied to system shins Features of Tungsten carbide brazed tips 1) Full range of types available, more convenient for you to purchase; 2) Various grades available, therefore can provide full machining solutions; 3) Produced with precision molds, the products have better dimensional accuracy and uniform; 4) Careful surface treatment, ensuring perfect appearance, increasing customer satisfaction; 5) Made of top-quality raw material, have more stable properties, easier to braze, also extend its service time. Application: The cemented carbide brazed tips have wide application, like for cutting and processing cast iron, stainless steel, and other alloy steel, etc., especially for lathes and periphery grinders and so on.
Mould Name Audi A5 Car Front Bumper Mould Material PP+EPDM(Contraction: 1, 5%) Bumper Size 1800*510*460mm Steel For Cavity &. Core P20 Mould Base C45 NOs. of Cavity 1*1 Injection System Yudo 5 direct injection gates Ejection System Ejector pins, angle lifters Mould Standard OEM/HASCO Mould Estimated Size 2250 x 900 x 1050mm Precision Crafted Excellence: Unveiling the 2009 Audi A5 Front Bumper Mould Our Advantage: 1.We have developed about 1000 PCS bumper mould since we founded. 2.Our company's mould structure is more reasonable and our bumpers are optimized.The mould we developed with a lower cost can produce the same or better product . 3.Fast production speed,high efficiency.Our delivery time is 30% shorter comparing to other suppliers 4.Our product design concept is to reduce the use of oil cylinder, by using mould mechanical structure to return, so as to improve production efficiency. According to our current design, the production speed can be increased by 30%. 5.Our company emphasize the high precision and tight tolerances of the mould.which are crucial for maintaining consistency and quality in the molded bumpers.
LDPE Extrusion Die Head Film blowing LDPE die heads are often used to produce high-quality films. The polyethylene blown film extrusion head is mainly composed of feed port, flow channel, film head and positioning components, and adopts the principle of fluid mechanics under high temperature and high pressure to form a high-speed rotating flow field in the die head, so as to achieve transverse film blowing. The polyethylene film extrusion head is characterized by excellent film blowing quality, high transparency, high strength and high toughness, suitable for blowing some high-quality, high transparency requirements of the film, such as food film, medical film, industrial packaging film and so on. Key Considerations For lDPE Die Head 1. Material Compatibility Material of Construction: The die head should be made from materials that are compatible with LDPE, typically high-grade tool steels or stainless steels that can withstand the processing temperatures and pressures. Corrosion and Wear Resistance: The material should also be resistant to corrosion and wear to ensure a long service life. 2. Temperature Control Heating Zones: Proper temperature control is crucial for maintaining the viscosity of LDPE. The die head should have multiple heating zones to ensure uniform temperature distribution. Thermal Insulation: Good thermal insulation helps in maintaining the desired temperature and reduces energy consumption. 3. Pressure Management Pressure Drop: The design should minimize pressure drop across the die to ensure consistent flow and reduce the risk of defects. Pressure Sensors: Incorporate pressure sensors to monitor and control the pressure within the die head. Design and Function of lDPE Die Head The die head of the film blowing machine is composed of a die body (die core, die cylinder, die ring) and a heater (heating ring). The first material selection is to select the corresponding material. LDPE application: Suitable for food, pharmaceutical, fiber product, daily chemical supplies packaging. Due to the poor mechanical properties of single-layer PE film, it is also used as the inner layer of composite packaging bags, that is, multi-layer composite film heat sealing substrate.
The HDPE extrusions(polyethylene extruder) die head is usually used in polyethylene film extrusion to produce thicker films or some packaging films with low requirements. The HDPE Extruder Die Head can produce medium-thickness thin films and film bags. It is mainly through low speed flow and less heat energy to directional stretch forming, so as to obtain the polyethylene extruder die head. The HDPE die head is characterized by low cost and wide applicability in polyethylene blown film extrusion, and can produce some packaging films commonly used in daily life, such as shopping bags, garbage bags, storage bags, etc. HDPE Extrusions Applications 1. Bottles and Containers: HDPE Extrusions is commonly used to produce milk jugs, detergent bottles, and other containers for liquids. 2. Pipes and Fittings: HHDPE Extrusions are used for water supply, sewage, gas distribution, and industrial applications due to their durability and resistance to corrosion. 3. Irrigation Systems: HDPE Extrusions and tubing are used in irrigation systems for their flexibility and resistance to chemicals. 4. Toys: Many children's toys are made from HDPE due to its safety and durability. 5. Household Items: Products like cutting boards, storage bins, and laundry baskets are often made from HDPE. 6. Furniture: Outdoor furniture, such as chairs and tables, are made from HDPE Extrusions for their weather resistance. Key Considerations for HDPE Die Head In the process of blowing film, it is very important to choose the right die head, we need to choose the die head from the following aspects: The die head is selected by the material used. The thickness of the blown film is different: the thinnest LDPE die head can blow a film of 0.003mm thick, while the thinnest HDPE die head can blow a film of 0.02mm thick. Product quality is different: the transparency, strength and toughness of the film blown by the LDPE extrusion die head are better than the film blown by the HDPE die head. Different production costs: The production cost of the film blown by the LDPE extrusion die head is higher, while the cost of the HDPE die head is relatively low. What is a HDPE Extrusions Die Head Used for? Some packaging films commonly used in daily life such as shopping bags, garbage bags, storage bags, etc. The production of thicker film or some less demanding packaging film.
The blown film die head is one of the most crucial components in a blown film extrusion machine. This essential extrusion die head plays a pivotal role in determining the quality and consistency of the final film product. As a key part of the blown film extrusion machine parts, the die head extrusion process ensures precise control over film thickness and uniformity, making it indispensable for achieving optimal production outcomes. Blown Film Extrusion is a crucial process for the production of various plastic film products, including food packaging film, industrial film, agricultural film, and medical film. The primary polymer materials used for blown film extrusion are LDPE, HDPE, PP, and PE. The Extruder Blown Film Die Head serves as the core component of the Plastic Film Blowing Machine. The main function of blown film die head is to ensure even distribution of melted polymer in order to achieve uniform thickness around the circumference of the tube being produced. This plays a pivotal role in ensuring high-quality film output. The Installation Of Blown Film Extrusion Die Head Since our die head are delivered to your location in the assembled when they leave our factory, it is very convenient for your subsequent installation. Since our blown film extrusion die head are delivered to your location in the assembled when they leave our factory, it is very convenient for your subsequent installation. First of all, stop the operation of the blown film extrusion machine machine, connect the joint we give you with your screw, and then install the original air ring or the air ring purchased from our factory. After checking the screw on the extrusion rotary die head, adjust the thickness and width of the film everywhere to meet the requirements. Finally turn on your blown film extrusion machine. Applications of blown film die head 1. Packaging Films2. Agricultural Films3. Construction Films4. Medical and Hygiene Products5. Specialty and Consumer Films 1. Packaging Films 2. Agricultural Films 3. Construction Films 4. Medical and Hygiene Products 5. Specialty and Consumer Films Differences Among The Three Types of Blown Flim Die Head Differences Among The Three Types of Blown Flim Die Head Blown film die head appearance. Raw materials used in blown film die head. Standard configuration. Extruder die head price.
Air ring specifically used in the HDPE die head. Our state-of-the-art blown film air rings and innovative blown film air ring design ensure optimal cooling and stability, delivering superior performance for your blown film extrusion process. Trust Bojing for cutting-edge solutions that elevate your manufacturing capabilities. Low-pressure blown film air rings are vital components in the blown film extrusion process, specifically designed to provide gentle and controlled cooling to the extruded polymer bubble. Unlike high-pressure air rings, which focus on rapid cooling for high-speed production, low-pressure air rings are tailored for applications where precision and film quality are paramount. What Is a Low-Pressure Blown Film Extrusion Air Ring Used For? The air ring is the equipment for cooling and shaping of the blowing film bubbles. We now basically use double wind mouth air ring, low pressure wind ring is specially used for hdpe die head. The air ring is the equipment for cooling and shaping of the blowing film bubbles. We now basically use double wind mouth air ring, low pressure wind ring is specially used for hdpe die head. Advantages of Low-Pressure Blown Film Air Ring The advantages of our wind air coolingring are: Rapid cooling at constant speed. Improve production capacity, uniform thickness. The size of the blow ratio is applicable. Bubble wireless bar, no crystal point, good brightness. Suitable for all kinds of thick film, film and all kinds of HDPE/LDPE/LLDPE raw materials. Key Considerations for Low-Pressure Blown Film Air Ring Durability: Choose blown film air rings made from durable materials such as aluminum, stainless steel, or high-strength plastics. These materials should withstand the operational stresses and provide long service life. Thermal Conductivity: Materials with good thermal conductivity can enhance the cooling efficiency of the air cooling ring, leading to better film quality. Modular Design: Consider dual lip air ring with a modular design, which allows for easy replacement and customization of individual components. This flexibility can be beneficial for adapting to different production requirements. Film Type: Consider the type of film being produced. Low-pressure air rings are particularly suitable for air ring blown film that require high clarity, uniform thickness, and excellent surface finish.
The Toothbrush Cover Mold with 12 Cavities is a specialized tool used for the mass production of toothbrush covers. Heres a detailed overview: 12 Cavities: This mold is designed with 12 cavities, allowing for the simultaneous production of 12 toothbrush covers in each molding cycle. This configuration enhances production efficiency, making it suitable for large-scale manufacturing. Toothbrush Cover Design: The mold is specifically engineered to produce protective covers that fit over the bristle head of a toothbrush. These covers are typically used to keep the bristles clean and protected from dust and contaminants when not in use. Material Compatibility: The mold can be used with various plastic materials commonly used in the production of toothbrush covers, such as polypropylene (PP) or polyethylene (PE). These materials are chosen for their durability, flexibility, and ease of molding. Precision Molding: The mold is designed for high-precision molding, ensuring that each toothbrush cover produced is uniform in size, shape, and quality. This is crucial for ensuring a snug fit on the toothbrush head and maintaining the integrity of the cover over time. Efficiency: With 12 cavities, the mold offers high output per cycle, reducing production time and costs. It is an ideal solution for manufacturers looking to produce large quantities of toothbrush covers efficiently and consistently. This Toothbrush Cover Mold with 12 Cavities is perfect for manufacturers aiming to produce high-quality, protective covers for toothbrushes in a cost-effective and efficient manner.
The Two-Component Toothbrush Mold with PP12+TPE8 configuration is a specialized mold used for producing dual-material toothbrushes, combining both hard and soft components. Here's a detailed overview: Two-Component Molding: This mold is designed for two-component (also known as multi-material or overmolding) production. It allows for the combination of two different materials in a single toothbrush headâ??typically a harder material for the core structure and a softer material for the grip or flexible parts. PP12+TPE8 Configuration: The mold features 12 cavities dedicated to molding the hard plastic (usually polypropylene, or PP) and 8 cavities for molding the softer material (usually thermoplastic elastomer, or TPE). The PP provides structural strength and rigidity, while the TPE adds flexibility and comfort to areas such as the handle or bristles. Precision and Integration: The mold is engineered to precisely align the two components during the molding process, ensuring a seamless integration of the hard and soft materials. This precision is crucial for the functionality and durability of the final toothbrush. Application: This mold is specifically designed for manufacturing toothbrushes that require both a rigid core and soft touch elements, such as ergonomic grips or flexible bristle bases. The dual-material approach enhances the user experience by providing comfort and functionality. Efficiency: By combining two materials in a single mold, the production process is streamlined, reducing the need for separate molding steps and assembly. This efficiency translates to higher throughput and lower production costs, making it ideal for large-scale manufacturing. This Two-Component Toothbrush Mold with PP12+TPE8 configuration is perfect for manufacturers aiming to produce high-quality, dual-material toothbrushes that offer both durability and comfort, all within an efficient production cycle.
The Translational Toothbrush Mold with 12+12 Cavities and a Hot Runner system is a high-efficiency tool used in the production of toothbrushes. Heres a detailed overview: Translational Design: This mold features a translational mechanism, where the mold plates move horizontally to facilitate the molding process. This design ensures precise alignment and smooth operation, making it well-suited for producing intricate toothbrush components. 12+12 Cavities: The mold is equipped with a total of 24 cavities, divided into two sets of 12 cavities each. This setup allows for the simultaneous production of 24 toothbrush heads per molding cycle, significantly boosting production capacity and efficiency. Hot Runner System: The hot runner system ensures that the plastic material is evenly distributed to all cavities, reducing material waste and ensuring consistent quality across all produced toothbrush heads. The system maintains the plastic at an optimal temperature throughout the process, resulting in precise molding and a high-quality finish. Application: This mold is designed specifically for manufacturing toothbrush heads, which require detailed and precise molding due to their complex shapes and the need for durability. It is compatible with various plastic materials commonly used in toothbrush production. Efficiency: The combination of the translational mechanism and the 12+12 cavity configuration, along with the hot runner system, makes this mold highly efficient for large-scale production. It allows for high output with consistent quality and minimal downtime. This mold is ideal for manufacturers aiming to produce large volumes of high-quality toothbrushes efficiently, with a focus on precision and consistency in each production cycle.
The Rotary Shaft Toothbrush Mold with 8+8 Cavities and a Hot Runner system is a specialized tool used in the mass production of toothbrushes. Heres a breakdown of its features: Rotary Shaft Design: This mold employs a rotary shaft mechanism, which allows for efficient and precise molding of toothbrush heads. The rotary action enhances productivity by enabling continuous operation without the need for mold opening after each cycle. 8+8 Cavities: The mold has a total of 16 cavities, arranged in two sets of 8 cavities each. This configuration allows for the simultaneous production of 16 toothbrush heads per cycle, significantly increasing output and efficiency. Hot Runner System: The inclusion of a hot runner system ensures that the plastic material is evenly distributed across all cavities, reducing waste and improving the quality of the final product. The hot runner system also helps in maintaining the temperature of the molten plastic, leading to consistent and precise molding. Application: This mold is specifically designed for producing toothbrush heads, which require precise molding due to their complex shapes and the need for high durability. The mold is suitable for use with various types of plastic materials commonly used in toothbrush manufacturing. Efficiency: The combination of the rotary shaft design and the 8+8 cavity configuration, along with the hot runner system, makes this mold highly efficient for large-scale production, ensuring high throughput with minimal downtime. This mold is ideal for manufacturers looking to produce large quantities of high-quality toothbrushes with consistent results.
CUSTOM GRAPHITE RING MOLDS FOR SALE Graphite jewelry molds make original designs of graphite crucibles attached to them for a long time, which keeps high-temperature resistance. Making graphite molds for jewelry is the procedure used to insure that jewelry items can be accurately duplicated at any time future. The mold making process begins with the creation of a metal model. Models can be as simple as a basic ring or complex as jewelry containing multiple interlinking parts used to create elaborate multicolor jewelry. What's the difference between graphite ring molds and metal ring molds? Graphite ring molds, while less costly and more resistant to warping under high temperatures compared to metal counterparts, may impart a slightly rougher finish to the glass ring. This difference in finish arises from the inherent properties of the materials; graphite tends to have a slightly coarser texture than metal. However, graphite molds excel in thermal stability and are often preferred for their durability and longevity in glassmaking processes. Conversely, metal ring molds, such as silver casting molds, offer a smoother finish but come with a higher price tag and susceptibility to deformation under extreme heat. Glass artisans weigh these factors when selecting between graphite and metal ring molds, balancing cost, durability, and desired surface finish in their creative endeavors. How do graphite ring molds compare to other types of molds, such as ceramic or metal, in terms of longevity and durability? Graphite ring molds offer distinct advantages and considerations compared to ceramic or metal molds in terms of longevity and durability: Longevity: Graphite ring molds are renowned for their exceptional longevity. They boast a high resistance to thermal shock and degradation, making them capable of enduring prolonged exposure to high temperatures without significant deterioration. Ceramic molds, while durable, may be more susceptible to cracking or chipping over time, especially if subjected to rapid temperature changes or mechanical stress. Metal molds vary in longevity depending on the type of metal used. Some metals may corrode or degrade over time due to chemical reactions with molten glass, impacting the mold's lifespan. Durability: Graphite ring molds are highly durable, capable of withstanding repeated use in glassmaking processes without significant wear or deformation. They maintain their structural integrity even after extended exposure to heat. Ceramic molds are generally durable but may be prone to breakage or damage if mishandled or subjected to sudden temperature changes.
The production of high-precision metals is inseparable from high-end manufacturing equipment, testing equipment and a stable production environment. In order to meet these conditions, Zhengdao Machinery has specially built a mold production workshop covering an area of 2,000 square meters. The mold workshop is equipped with various mold processing and manufacturing process equipment, including wire cutting, precision engraving machines, spark machines, four-axis turning and milling compound machine tools, turning and milling compound machining centers, three-axis machining centers, CNC lathes, drilling machines and other mold production equipment. The processing equipment brands are OKUMA, FANUC, Jinshang, and Harting well-known brands. All equipment has the production capacity to manufacture high-precision molds. The company employs professional technical consultants in terms of mold manufacturing talents for mold design and mold manufacturing to ensure the stability of mold production quality. There are 5 senior technicians in the production link, with more than 15 years of production experience and technology, and product production has strict quality process, manufacturing cost and delivery time control, and has a group of high-quality and highly skilled staff; at the same time, we also have independent and complete after-sales service. Testing equipment: Hexagon 3D coordinates, Tokyo precision profiler, metallographic microscope, hardness tester, a full set of processing and testing instruments. Professional quality inspectors conduct all-round testing on the shipped products to ensure that the quality of the shipped products is 100% qualified.
Grinding Parts Base. Table. Column. Abrasive Wheel. Wheel Guard. Abrasive Wheel Head. Three Types of Traversing Wheels. Coolant Supply Nozzle. DETAILS OF GRINDING PARTS Advantages Of Grinding Parts Precision tolerances Accurate dimensions Smooth surface finish Best material Competitive prices DESCRIPTION OF GRINDING PARTS What Do We Know About Grinding Parts The grinder components can be used for various product molds. Just like, automotive, aerospace, electronic and household appliance,etc. 0.002-0.01mm accuracy. Ra0.8-1.6 grinding surface roughness. Ra0.5-3.2 discharging surface roghness. Ra0.8-3.2 low speed wire cutting surface roughness. R0.5max inner sharp corner. 0.001max parallelism. As a precision injection molding manufacturer, we can provide kinds of plastic injection molds for sale, if you are interested, please contact us.
