Product Description
Product Parameters
Customizable Plastic Molded Parts for Boat Accessories
| 1 | Mold type: | Plastic Injection Mold |
| 2 | Mold cavity & core steel: | S136 |
| 3 | Cavity number(s): | 1*1 cavity |
| 4 | Feed system: | Cold runner |
| 5 | Surface finish: | Texture |
| 6 | Feature: | Waterproof |
| 7 | Lead time for mold(s): | 4 weeks, depending on how complex of mold solution. |
| 1 | Part Name: | Plastic Colw boat |
| 2 | Part Size: | OEM as per client’s part drawing or sample |
| 3 | Part Plastic: | PA66+GF |
| 4 | Injection Color: | Black |
| 5 | Unique: | High strength, Easy installation |
| 6 | Application: | Boat Accessories |
| 7 | Lead time for parts: | 1 week, denpending on order quantity. |
***Notes***
Price indication and product information are for reference only, please inquiry wiht our team, we will analysis your project and prepare precision quotation with optimal mold solution to meet your project purpose.
OEM service is available, no matter you are looking for molds or CHINAMFG
More Product Show
Plastic Parts:
Green Vitality Industry Ltd. manufacture custom-made plastic injection molded parts that are tailored to your specific needs. Service Scope includes Electronics, Household, (Small) Home Appliance, OA Equipment (Office equipment), Bathroom Product, Auto, Industrial, Medial, Toys, Cosmetic, Packaging & Storage, Outdoors etc
Our team of experts carefully selects the perfect plastic material to ensure optimal performance for your application.
Plastic Material: PE, PP, PVC, PS, ABS, PC, PA(GF), POM, Acrylic, PMMA, PC/ABS, HDPE , TPE, TPU, PET, PBT(GF), PP+TD20, BMC etc.
Certificate: RoHS, REACH, FDA etc.
Specail requirement: Food grade, UV resistant, Flame retardent V0 V1 ect.
Plastic Manufacturers: CHIMEI, SABIC, LG, Formosa, Dupot etc.
Mould Show
Plastic Injection Moulds:
Green Vitality Industry Ltd. specialize in building plastic injection molds for a wide range of applications. Our molds are designed to meet the highest standards of precision and durability, ensuring reliable performance and long-lasting use.
Mold Type: Single Cavity Mold, Multi Cavities Mold, Hot Runner Mold, Cold Runner Mold, Two-Shot Mold,Over-moulding Mold, Insert Mold, Stack Mold, Automatic Thread Demoulding Mold, Reverse Mold, Gas Assisted Mold, Precision Mold.
Mold Standard: D-M-E, HASCO, JIS
Mold Base: LKM, DME, HASCO, FUTABA
Mold components: D-M-E, HASCO, JH, HPS, CHINAMFG etc
Hot Runner System: Mold-masters, Husky, Synventive, Incoe,DME,Hasco,Ewikon, Spear, Thermoplay,Master Tip,Yudo,HRS etc.
Mold Steel Treatment: Heat Treatment, Nitriding, Chrome Plating
Gate Type: Open gate, Side gate (Edge gate), Sub gate, Pin point gate, Valve gate, Xihu (West Lake) Dis.a gate, Direct gate, Fan gate etc.
Hydraulic Cylinder: PARKER, TAIYO, STAUBU, JUFAN
Surface Finish: Polishing SPI standard, Texture VDI standard
Texture: Mold-tech, Yick Sang, Ni Hong ,Tanazawa etc
Project Management
One-stop Service:
Green Vitality, your one-stop service for all your product development. With our expertise in designing and building moulds, we can provide you with the support from start to finish, whether you’re in the initial stages of product development or require assistance with the final production process.
Our services include:
– Free Quotation: Cost evaluation, part design improved suggestion.
– DFM
– Mold Flow Analysis
– Mold Design
– Rapid Prototype Fabrication: 3d printing, Vacuum Silicone Replica, Prototyping mold.
– Mold Making
– Mass Production for parts: Small batch & High-volume.
– Mold Maintaining & Techincal support
Quality Assurance:
At CHINAMFG Industry Ltd., we take quality control seriously. Every customer has unique requirements, which is why our quality inspection guidelines are tailored to meet specific needs. With CHINAMFG Industry Ltd., you can trust that your project is in capable hands. Our commitment to quality ensures that you receive the best possible results.
To effectively manage our projects, we utilize professional forms and graphics to closely monitor and track the progress of each project
– Mould Progress Report
– Incoming Inspection Report
– Processing Inspection Report
– Copper Electrade Inspection Report
– Mould Trial Parameter Report
– Part Inspection Report
– Mould Inspection Record Before Delivery
– Tooling Evaluation and Approval Report
Our strict adherence to the ISO9001:2015 system ensures that every step of our production process meets the highest standards. From the initial design to the final product, we prioritize quality in everything we do.
Company Profile
Since 1993, Green Vitality Industry Ltd. has been dedicated to the mold industry, providing top-quality solutions for mold designing, mold making, injection molding, and more. With our modern business management system and ISO 9001-2015 Quality System guideline, we ensure the highest standards of quality and customer satisfaction.
Our qualified and dedicated team, along with our sophisticated production techniques and modern manufacturing equipment, we are full of capabilities in offering professional one-stop solution of mould designing, mould making, injection moulding and beyond-value service.
With around 80% of our molds and CHINAMFG exported to countries such as the US, Spain, Germany, Norway, Australia, UK, France, and Italy, we have established ourselves as a trusted global supplier.
When you work with Green Vitality, you’ll notice that:
— Signed Confidentiality Agreement: Your proprietary data is safe and secure with us.
— Factory Direct Quotation: Enjoy competitive prices without any middlemen.
— In-House Production Capability: We have the expertise to handle both moulds and plastic moulding parts.
— 30 Years of Experience: Benefit from our extensive knowledge and industry insights.
— Dedicated Sales Team: Our efficient team is always ready to assist you.
— Design & Project Engineer Team: Provide scientific mold solutions tailored to your project’s needs.
— Support Your Schedule: We understand the importance of meeting deadlines.
Factory Show
Mould Work Shop:
Welcome to CHINAMFG Industry Ltd.’s Mould Workshop, where precision and quality meet. Our state-of-the-art tooling workshop is equipped with advanced machinery to create precision moulds that adhere to international standards such as LKM, DME, HASCO, and more.
Our expert team design moulds specifically tailored to your production needs, ensuring the mold perfectly match the capacity of your injection machines.
With our commitment to CHINAMFG and attention to detail, you can trust us to deliver high-quality plastic molds that meet your expectations. Experience the precision and reliability of our plastic injection molding process, resulting in flawless plastic injection molding parts.
Discover the benefits of our high-quality plastic molds, meticulously crafted to ensure durability and longevity. With a focus on precision plastic injection molding, we deliver exceptional results every time.
Processing Equipment: CNC Lathe Machines, CNC Milling Machines, EDM Machines, Mirror EDM Machines, Wire-Cutting Machines, Surface Grinders, Precision Grinders etc.
Injection Molding Work Shop:
With our diverse range of tonnage injection machines, CHINAMFG is are able to produce tailor-made plastic molding parts in small, medium, or large volumes. This flexibility is especially beneficial for business beginners and those in the early stages of new product development, as our minimum order quantity starts from just 100 pieces.
Our plastic injection molding process is highly efficient and economic, thanks to the use of fully automatic robotic arms. These robotic arms enable 24-hour nonstop mass manufacturing, ensuring a continuous and streamlined production process.
Packaging & Shipping
Assembly Line:
You could rely on CHINAMFG to offer a complete, turnkey package for your convenience. Our team takes care of all the necessary assembly and packaging, ensuring that you receive a finished product directly at your doorstep. With our expertise and attention to detail, you can trust us to handle every step of the process seamlessly.
– Specialty Operations: Painting, Silk-screen Printing, Ultrasonic Welding, Electroplating, Coating, Heat transfer technology etc.
– Product Assembly
– Custom Labelling & Packaging
Safe Package & Transportation:
Cartons for parts packing, Free-Fumigation Three-Plywood case for molds packing. In time delivery !
FAQ
1. Are you a trading company or a manufacturer?
Green Vitality Industry Ltd. is a reputable and experienced mould manufacturer with over 30 years of expertise. We are delighted to share you with visual evidence of our state-of-the-art workshop. We also extend a warm invitation for you to visit our factory and witness our manufacturing process firsthand.
2. Which kind of product can you make?
At Green Vitality, we specialize in precision plastic injection moulds and offer mass production services for moulded plastic parts.
3. Do you support OEM?
Absolutely! CHINAMFG is fully equipped to produce customized parts based on your part drawings or samples. In fact, more than 90% of our products are tailored to meet the unique requirements of our valued customers.
4. If no 3D drawing or samples, how should I start the new project?
If you don’t have a 3D drawing or samples, don’t worry! Simply share your idea with us, whether it’s a sketch or a picture with dimensions. Our skilled team will assist you in transforming your concept into a detailed 3D drawing design.
5. How about the samples?
Once we finish the mould, we will promptly produce samples for you to evaluate. These samples will be delivered to you for thorough testing, ensuring that they meet your expectations and requirements.
6. How about the mould modification?
Your satisfaction is our top priority. After you test the samples, please provide us with your feedback. If there are any discrepancies in dimensions compared to the original drawing, we will modify the mould free of charge and create new samples for your approval.
7. How about the proprietary rights of the mold?
Rest assured, the mould belongs solely to you, the customer who has invested in it. CHINAMFG Industry Ltd. is committed to maintaining the mould exclusively for your use.
8. What kind of trade terms can you do?
We offer a range of trade terms to accommodate your preferences, including EX-WORKS, FOB, CIF, DDU, and DDP. We strive to provide flexibility and convenience in our business transactions.
9. How about your delivery time?
Typically, the production time time is approximately 40 days, with 30 days allocated for mould building and an additional 10 days for mass production. However, please note that the complexity of the part and mould structure may influence the overall timeline. Rest assured, we are committed to delivering your order in a timely manner.
Green Vitality Industry Ltd., is always conducting business with honesty and integrity.
We value your attention and look CHINAMFG to the opportunity to serve you.
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| Warranty: | 1 Years |
|---|---|
| Shaping Mode: | Injection Mould |
| Surface Finish Process: | Texture |
| Mould Cavity: | Single Cavity |
| Plastic Material: | PA66+GF |
| Process Combination Type: | Single-Process Mode |
| Samples: |
US$ 0/Piece
1 Piece(Min.Order) | |
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| Customization: |
Available
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What is the impact of material selection on the performance and durability of injection molded parts?
The material selection for injection molded parts has a significant impact on their performance and durability. The choice of material influences various key factors, including mechanical properties, chemical resistance, thermal stability, dimensional stability, and overall part functionality. Here’s a detailed explanation of the impact of material selection on the performance and durability of injection molded parts:
Mechanical Properties:
The mechanical properties of the material directly affect the part’s strength, stiffness, impact resistance, and fatigue life. Different materials exhibit varying levels of tensile strength, flexural strength, modulus of elasticity, and elongation at break. The selection of a material with appropriate mechanical properties ensures that the injection molded part can withstand the applied forces, vibrations, and operational stresses without failure or deformation.
Chemical Resistance:
The material’s resistance to chemicals and solvents is crucial in applications where the part comes into contact with aggressive substances. Certain materials, such as engineering thermoplastics like ABS (Acrylonitrile Butadiene Styrene) or PEEK (Polyether Ether Ketone), exhibit excellent chemical resistance. Choosing a material with the appropriate chemical resistance ensures that the injection molded part maintains its integrity and functionality when exposed to specific chemicals or environments.
Thermal Stability:
The thermal stability of the material is essential in applications that involve exposure to high temperatures or thermal cycling. Different materials have varying melting points, glass transition temperatures, and heat deflection temperatures. Selecting a material with suitable thermal stability ensures that the injection molded part can withstand the anticipated temperature variations without dimensional changes, warping, or degradation of mechanical properties.
Dimensional Stability:
The dimensional stability of the material is critical in applications where precise tolerances and dimensional accuracy are required. Some materials, such as engineering thermoplastics or filled polymers, exhibit lower coefficients of thermal expansion, minimizing the part’s dimensional changes with temperature variations. Choosing a material with good dimensional stability helps ensure that the injection molded part maintains its shape, size, and critical dimensions over a wide range of operating temperatures.
Part Functionality:
The material selection directly impacts the functionality and performance of the injection molded part. Different materials offer unique properties that can be tailored to meet specific application requirements. For example, materials like polycarbonate (PC) or polypropylene (PP) offer excellent transparency, making them suitable for applications requiring optical clarity, while materials like polyamide (PA) or polyoxymethylene (POM) provide low friction and wear resistance, making them suitable for moving or sliding parts.
Cycle Time and Processability:
The material selection can also affect the cycle time and processability of injection molding. Different materials have different melt viscosities and flow characteristics, which influence the filling and cooling times during the molding process. Materials with good flow properties can fill complex mold geometries more easily, reducing the cycle time and improving productivity. It’s important to select a material that can be effectively processed using the available injection molding equipment and techniques.
Cost Considerations:
The material selection also impacts the overall cost of the injection molded part. Different materials have varying costs, and selecting the most suitable material involves considering factors such as material availability, tooling requirements, processing conditions, and the desired performance characteristics. Balancing the performance requirements with cost considerations is crucial in achieving an optimal material selection that meets the performance and durability requirements within the budget constraints.
Overall, material selection plays a critical role in determining the performance, durability, and functionality of injection molded parts. Careful consideration of mechanical properties, chemical resistance, thermal stability, dimensional stability, part functionality, cycle time, processability, and cost factors helps ensure that the chosen material meets the specific application requirements and delivers the desired performance and durability over the part’s intended service life.
What is the role of design software and CAD/CAM technology in optimizing injection molded parts?
Design software and CAD/CAM (Computer-Aided Design/Computer-Aided Manufacturing) technology play a crucial role in optimizing injection molded parts. They provide powerful tools and capabilities that enable designers and engineers to improve the efficiency, functionality, and quality of the parts. Here’s a detailed explanation of the role of design software and CAD/CAM technology in optimizing injection molded parts:
1. Design Visualization and Validation:
Design software and CAD tools allow designers to create 3D models of injection molded parts, providing a visual representation of the product before manufacturing. These tools enable designers to validate and optimize the part design by simulating its behavior under various conditions, such as stress analysis, fluid flow, or thermal performance. This visualization and validation process help identify potential issues or areas for improvement, leading to optimized part designs.
2. Design Optimization:
Design software and CAD/CAM technology provide powerful optimization tools that enable designers to refine and improve the performance of injection molded parts. These tools include features such as parametric modeling, shape optimization, and topology optimization. Parametric modeling allows for quick iteration and exploration of design variations, while shape and topology optimization algorithms help identify the most efficient and lightweight designs that meet the required functional and structural criteria.
3. Mold Design:
Design software and CAD/CAM technology are instrumental in the design of injection molds used to produce the molded parts. Mold design involves creating the 3D geometry of the mold components, such as the core, cavity, runner system, and cooling channels. CAD/CAM tools provide specialized features for mold design, including mold flow analysis, which simulates the injection molding process to optimize mold filling, cooling, and part ejection. This ensures the production of high-quality parts with minimal defects and cycle time.
4. Design for Manufacturability:
Design software and CAD/CAM technology facilitate the implementation of Design for Manufacturability (DFM) principles in the design process. DFM focuses on designing parts that are optimized for efficient and cost-effective manufacturing. CAD tools provide features that help identify and address potential manufacturing issues early in the design stage, such as draft angles, wall thickness variations, or parting line considerations. By considering manufacturing constraints during the design phase, injection molded parts can be optimized for improved manufacturability, reduced production costs, and shorter lead times.
5. Prototyping and Iterative Design:
Design software and CAD/CAM technology enable the rapid prototyping of injection molded parts through techniques such as 3D printing or CNC machining. This allows designers to physically test and evaluate the functionality, fit, and aesthetics of the parts before committing to mass production. CAD/CAM tools support iterative design processes by facilitating quick modifications and adjustments based on prototyping feedback, resulting in optimized part designs and reduced development cycles.
6. Collaboration and Communication:
Design software and CAD/CAM technology provide a platform for collaboration and communication among designers, engineers, and other stakeholders involved in the development of injection molded parts. These tools allow for easy sharing, reviewing, and commenting on designs, ensuring effective collaboration and streamlining the decision-making process. By facilitating clear communication and feedback exchange, design software and CAD/CAM technology contribute to optimized part designs and efficient development workflows.
7. Documentation and Manufacturing Instructions:
Design software and CAD/CAM technology assist in generating comprehensive documentation and manufacturing instructions for the production of injection molded parts. These tools enable the creation of detailed drawings, specifications, and assembly instructions that guide the manufacturing process. Accurate and well-documented designs help ensure consistency, quality, and repeatability in the production of injection molded parts.
Overall, design software and CAD/CAM technology are instrumental in optimizing injection molded parts. They enable designers and engineers to visualize, validate, optimize, and communicate designs, leading to improved part performance, manufacturability, and overall quality.
Can you describe the range of materials that can be used for injection molding?
Injection molding offers a wide range of materials that can be used to produce parts with diverse properties and characteristics. The choice of material depends on the specific requirements of the application, including mechanical properties, chemical resistance, thermal stability, transparency, and cost. Here’s a description of the range of materials commonly used for injection molding:
1. Thermoplastics:
Thermoplastics are the most commonly used materials in injection molding due to their versatility, ease of processing, and recyclability. Some commonly used thermoplastics include:
- Polypropylene (PP): PP is a lightweight and flexible thermoplastic with excellent chemical resistance and low cost. It is widely used in automotive parts, packaging, consumer products, and medical devices.
- Polyethylene (PE): PE is a versatile thermoplastic with excellent impact strength and chemical resistance. It is used in various applications, including packaging, pipes, automotive components, and toys.
- Polystyrene (PS): PS is a rigid and transparent thermoplastic with good dimensional stability. It is commonly used in packaging, consumer goods, and disposable products.
- Polycarbonate (PC): PC is a transparent and impact-resistant thermoplastic with high heat resistance. It finds applications in automotive parts, electronic components, and optical lenses.
- Acrylonitrile Butadiene Styrene (ABS): ABS is a versatile thermoplastic with a good balance of strength, impact resistance, and heat resistance. It is commonly used in automotive parts, electronic enclosures, and consumer products.
- Polyvinyl Chloride (PVC): PVC is a durable and flame-resistant thermoplastic with good chemical resistance. It is used in a wide range of applications, including construction, electrical insulation, and medical tubing.
- Polyethylene Terephthalate (PET): PET is a strong and lightweight thermoplastic with excellent clarity and barrier properties. It is commonly used in packaging, beverage bottles, and textile fibers.
2. Engineering Plastics:
Engineering plastics offer enhanced mechanical properties, heat resistance, and dimensional stability compared to commodity thermoplastics. Some commonly used engineering plastics in injection molding include:
- Polyamide (PA/Nylon): Nylon is a strong and durable engineering plastic with excellent wear resistance and low friction properties. It is used in automotive components, electrical connectors, and industrial applications.
- Polycarbonate (PC): PC, mentioned earlier, is also considered an engineering plastic due to its exceptional impact resistance and high-temperature performance.
- Polyoxymethylene (POM/Acetal): POM is a high-strength engineering plastic with low friction and excellent dimensional stability. It finds applications in gears, bearings, and precision mechanical components.
- Polyphenylene Sulfide (PPS): PPS is a high-performance engineering plastic with excellent chemical resistance and thermal stability. It is used in electrical and electronic components, automotive parts, and industrial applications.
- Polyetheretherketone (PEEK): PEEK is a high-performance engineering plastic with exceptional heat resistance, chemical resistance, and mechanical properties. It is commonly used in aerospace, medical, and industrial applications.
3. Thermosetting Plastics:
Thermosetting plastics undergo a chemical crosslinking process during molding, resulting in a rigid and heat-resistant material. Some commonly used thermosetting plastics in injection molding include:
- Epoxy: Epoxy resins offer excellent chemical resistance and mechanical properties. They are commonly used in electrical components, adhesives, and coatings.
- Phenolic: Phenolic resins are known for their excellent heat resistance and electrical insulation properties. They find applications in electrical switches, automotive parts, and consumer goods.
- Urea-formaldehyde (UF) and Melamine-formaldehyde (MF): UF and MF resins are used for molding electrical components, kitchenware, and decorative laminates.
4. Elastomers:
Elastomers, also known as rubber-like materials, are used to produce flexible and elastic parts. They provide excellent resilience, durability, and sealing properties. Some commonly used elastomers in injection molding include:
- Thermoplastic Elastomers (TPE): TPEs are a class of materials that combine the characteristics of rubber and plastic. They offer flexibility, good compression set, and ease of processing. TPEs find applications in automotive components, consumer products, and medical devices.
- Silicone: Silicone elastomers provide excellent heat resistance, electrical insulation, and biocompatibility. They are commonly used in medical devices, automotive seals, and household products.
- Styrene Butadiene Rubber (SBR): SBR is a synthetic elastomer with good abrasion resistance and low-temperature flexibility. It is used in tires, gaskets, and conveyor belts.
- Ethylene Propylene Diene Monomer (EPDM): EPDM is a durable elastomer with excellent weather resistance and chemical resistance. It finds applications in automotive seals, weatherstripping, and roofing membranes.
5. Composites:
Injection molding can also be used to produce parts made of composite materials, which combine two or more different types of materials to achieve specific properties. Commonly used composite materials in injection molding include:
- Glass-Fiber Reinforced Plastics (GFRP): GFRP combines glass fibers with thermoplastics or thermosetting resins to enhance mechanical strength, stiffness, and dimensional stability. It is used in automotive components, electrical enclosures, and sporting goods.
- Carbon-Fiber Reinforced Plastics (CFRP): CFRP combines carbon fibers with thermosetting resins to produce parts with exceptional strength, stiffness, and lightweight properties. It is commonly used in aerospace, automotive, and high-performance sports equipment.
- Metal-Filled Plastics: Metal-filled plastics incorporate metal particles or fibers into thermoplastics to achieve properties such as conductivity, electromagnetic shielding, or enhanced weight and feel. They are used in electrical connectors, automotive components, and consumer electronics.
These are just a few examples of the materials used in injection molding. There are numerous other specialized materials available, each with its own unique properties, such as flame retardancy, low friction, chemical resistance, or specific certifications for medical or food-contact applications. The selection of the material depends on the desired performance, cost considerations, and regulatory requirements of the specific application.
editor by CX 2024-02-22