The company currently has over 200 employees and produces around 400-600 sets of various plastic injection molds, including office appliances,medical instruments,communicating equipments,home appliances, annually. We define quality as the overall customer satisfaction and actively promote standardization of components and management. GoodBo Mould has global customers such as HP,KONKA,Nissan,Sony,Media,FAW-Volkswagen,Hyundai,Haier,Canon,Ford.
Shaping Mode | Injection Mould |
Place of Origin | China |
Mould making technology | Plastic flow/deform simulation,3D Modelling...etc. |
Product Material | Plastic/Metal |
Colors | Customized Colors |
Product Name | imc injection molding |
Mold material | P20/718/738/NAK80/S136 |
Material | PMMA(poly methyl methacrylate),GPS(general polystyrene),PUR(polyurethane)...etc. |
Design software | CAD/PROE/UG/3D/DWG/IGS/STEP/PDF/JPG |
Cavity | Single/Multi Cavity moulds |
Mould life | 500000 shots |
Application | Medical,White Goods,Defence...etc. |
Runner | Cold Runner. Hot Runner: Yudo |
Surface treatment | Polish. Etched. Texture |
Certification | ISO9001:2015 |
Size(cm) | 167 * 164 * 241 Please consult us for specific details |
Packaging Details | 1. injection mold: by pallet or as buyer's request. 2. injection parts: by bags then export carton, or as buyer's request. |
Export region | Asia,Europe,Africa |
Port | Shenzhen |
Supply Ability | 3000 Piece/Pieces per Day Please contact the us to check the exact delivery time |
Samples | Maximum order quantity: 1000 piece Please contact us to confirmation |
GoodBo Mould is one of the leading imc injection molding manufacturers in China, and our mission is to provide customers with high-quality products and the highest quality service.
GoodBo Mould appoints a project manager to each individual project and client. The project manager is in charge of the entire project from start to finish providing direct communication for the client. All project management teams communicate in English.
To efficiently manage projects and achieve the required lead time, project manager is appointed to monitor the process of manufacture. Process charts are issued every week via e-mail include digital photographs of the work in progress, creating a real-time tooling progress assessment.
imc injection molding---FAQs Guide
2.How to make a mould?
3.What are the advantages and disadvantages of using a 3D printed imc injection molding?
4.About imc injection molding warranty
5.What type of part ejection system does the imc injection molding use, and how does it ensure smooth ejection without defects?
6.What kind of cooling systems are used for moulding?
7.What are the after-sales services available for imc injection molding?
8.What safety precautions should be taken when using imc injection molding?
9.About imc injection molding delivery time
10.What kind of lubricants are used to reduce imc injection molding friction?
1.What are the common types of imc injection molding used for metal alloys?
We continuously upgrade our skills and knowledge to adapt to changing imc injection molding market needs.
1. Sand Casting Moulds: Sand casting is one of the most popular and cost-effective methods for producing metal parts and components. Sand casting moulds are made from a mixture of sand, clay, and water. The sand is packed around a pattern of the desired shape, and then the pattern is removed and molten metal is poured into the cavity.
2. Investment Casting Moulds: Investment casting is a process in which a wax pattern is used to create a mould. The wax pattern is then encased in a ceramic shell, which is heated to melt the wax and create a cavity for the molten metal to be poured into.
3. Permanent Moulds: Permanent moulds are made from metal and are used to produce parts with complex shapes and intricate details. The mould is heated and the molten metal is poured into the cavity.
4. Die Casting Moulds: Die casting is a process in which molten metal is forced into a mould under high pressure. The mould is usually made from steel or aluminium and is designed to produce parts with precise dimensions and intricate details.
2.How to make a mould?
We focus on innovation and continuous improvement to maintain a competitive advantage.
1. Start by gathering the materials you need to make the mould. You will need a container to hold the mould, a material to make the mould from (such as silicone, plaster, or clay), and a release agent (such as petroleum jelly or cooking spray).
2. Prepare the container for the mould. Make sure it is clean and dry, and then apply a release agent to the inside of the container. This will help the mould come out of the container easily when it is finished.
3. Mix the material you are using to make the mould. Follow the instructions on the package for the best results.
4. Pour the mixture into the container and spread it evenly. Make sure to fill the container completely and leave no air pockets.
5. Allow the mould to dry completely. Depending on the material you are using, this could take anywhere from a few hours to a few days.
6. Once the mould is dry, carefully remove it from the container. If necessary, use a knife or other tool to help loosen the edges of the mould.
7. Your mould is now ready to use!
3.What are the advantages and disadvantages of using a 3D printed imc injection molding?
We should enjoy a good reputation in the industry, and we can increase the added value of the products of cooperative customers through technological innovation.Advantages:
1. Cost-Effective: 3D printed moulds are much cheaper than traditional moulds, making them a great option for small businesses and startups.
2. Quick Turnaround: 3D printed moulds can be produced quickly, allowing for faster product development and prototyping.
3. Versatility: 3D printed moulds can be used to create complex shapes and designs that would be difficult to achieve with traditional moulds.
4. Customization: 3D printed moulds can be customized to fit specific needs, allowing for greater flexibility in product design.
Disadvantages:
1. Limited Durability: 3D printed moulds are not as durable as traditional moulds and may not be able to withstand the same level of wear and tear.
2. Limited Materials: 3D printed moulds are limited to the materials that can be used in the printing process, which may not be suitable for certain applications.
3. Limited Accuracy: 3D printed moulds may not be as accurate as traditional moulds, which can lead to imperfections in the finished product.
4. Limited Finishes: 3D printed moulds may not be able to achieve the same level of finish as traditional moulds, which can affect the overall quality of the product.
4.About imc injection molding warranty
If the quality is poor, we will provide a 100% refund. Firstly, we will investigate the root cause of the problem and then take measures to prevent it from happening again in the future. This includes changes to mold design, process, or materials used.
5.What type of part ejection system does the imc injection molding use, and how does it ensure smooth ejection without defects?
We focus on providing high quality imc injection molding products and services.The type of part ejection system used in a mold depends on the type of mold and the complexity of the part being molded. Generally, the most common type of part ejection system is a mechanical ejector system, which uses pins, blades, or other mechanical components to push the part out of the mold. This system ensures smooth ejection without defects by providing a consistent force to the part, which prevents it from sticking to the mold or becoming damaged during the ejection process. Additionally, the ejector system can be adjusted to provide the optimal amount of force for the part being molded.
6.What kind of cooling systems are used for moulding?
We have advantages in marketing and channel expansion. Suppliers have established good cooperative relations, continuously improved workflows, improved efficiency and productivity, and provided customers with high -quality products and services.The most common cooling systems used for moulding are water cooling systems, air cooling systems, and oil cooling systems. Water cooling systems are the most efficient and cost-effective, as they use a closed-loop system to circulate coolant through the mould to quickly cool the plastic. Air cooling systems use fans to blow air over the mould to cool it, while oil cooling systems use a heat exchanger to transfer heat from the mould to a cooling oil.
7.What are the after-sales services available for imc injection molding?
GoodBo Mould uses a integrated approach to establish the best process for the manufacturing of your product. Once the production is in place we use web-based communication, design and file transfer tools that streamline every step processing and fulfilling the project.All project management teams communicate in English.
8.What safety precautions should be taken when using imc injection molding?
We pay attention to the transformation of intellectual property protection and innovation achievements. Your OEM or ODM order design we have a complete confidentiality system.
1. Wear protective gloves, goggles, and a face mask when handling moulds.
2. Avoid breathing in mould spores by working in a well-ventilated area.
3. Clean and disinfect moulds before and after use.
4. Avoid contact with skin and eyes.
5. Dispose of moulds properly after use.
6. Store moulds in a dry, cool place away from direct sunlight.
7. Wear long sleeves and pants when working with moulds.
8. Avoid eating or drinking while working with moulds.
9. Wash hands thoroughly after handling moulds.
10. Use a dust mask when sanding or grinding moulds.
9.About imc injection molding delivery time
3-4 weeks for the 1st.artical. Lead time for plastic mold manufacturing depends on the complexity of the mold and the size of the order.
10.What kind of lubricants are used to reduce imc injection molding friction?
We have a good reputation and image in the industry. The quality and price advantage of imc injection molding products is an important factor in our hard overseas market.Silicone lubricants, graphite lubricants, and PTFE (polytetrafluoroethylene) lubricants are all commonly used to reduce mould friction.
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