GOODBO MOULD LIMITED

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GOODBO MOULD LIMITED is a professional mold manufacturer and service factory that integrates research and development, production, and sales. We are located in Shenzhen, Guangdong Province, only a few minutes away from Shenzhen Airport and Port. It has been engaged in the manufacturing industry since 1988.

The company currently has over 200 employees and produces around 400-600 sets of various plastic injection molds, including home appliances,office appliances,medical instruments,auto parts, annually. We define quality as the overall customer satisfaction and actively promote standardization of components and management. GoodBo Mould has global customers such as Hyundai,Sony,FAW-Volkswagen,Samsung,Nissan,HONDA,KONKA,Ford,Media,HP.



Shaping Mode Injection Mould
Place of Origin China
Mould making technology CNC Programming,2D Modelling...etc.
Product Material Plastic/Metal
Colors
Customized Colors
Product Name plastic mold a and b
Mold material
P20/718/738/NAK80/S136
Material
TPE(thermoplastic),HDPE(high density polyethylene),GPS(general polystyrene)...etc.
Design software
CAD/PROE/UG/3D/DWG/IGS/STEP/PDF/JPG
Cavity
Single/Multi Cavity moulds
Mould life
500000 shots
Application
Medical,Defence,Architectural...etc.
Runner
Cold Runner. Hot Runner: Yudo
Surface treatment
Polish. Etched. Texture
Certification
ISO9001:2015
Size(cm)

159 * 158 * 185

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
America,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

 Please note: The above table data is for reference only. For specific information, please contact us.

GoodBo Mould is one of the leading plastic mold a and b 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 7 days via e-mail include digital photographs of the work in progress, creating a real-time tooling progress assessment.

plastic mold a and b---FAQs Guide
1.In what ways can plastic mold a and b cooling be improved?
2.What technologies are used to produce higher quality plastic mold a and b?
3.What are the common types of plastic mold a and b used for metal alloys?
4.What are the advantages and disadvantages of using a 3D printed plastic mold a and b?
5.Are there automated features integrated into the plastic mold a and b to streamline the manufacturing process?
6.Does the plastic mold a and b design comply with industry standards and regulations?
7.How is the surface of a plastic mold a and b treated to improve its performance?
8.How to make a mould?
9.What are the advantages and disadvantages of plastic mold a and b made from aluminium?
10.What is the production capacity of the factory for plastic mold a and b?
11.What type of cooling system is integrated into the plastic mold a and b, and how efficiently does it dissipate heat?
12.About the scale of plastic mold a and b factory
13.How do plastic mold a and b hardness and mould flexibility affect its performance?

1.In what ways can plastic mold a and b cooling be improved?

We enjoy high authority and influence in the industry and continue to innovate products and service models.
1. Increase air circulation: Increasing air circulation in the area where the mold is cooling can help to reduce the temperature of the mold more quickly.
2. Use a cooling system: Installing a cooling system such as a water-cooled chiller can help to reduce the temperature of the mold more quickly and efficiently.
3. Use a fan: Installing a fan in the area where the mold is cooling can help to circulate the air and reduce the temperature of the mold more quickly.
4. Use a heat exchanger: Installing a heat exchanger in the area where the mold is cooling can help to transfer the heat away from the mold more quickly.
5. Use a cooling spray: Applying a cooling spray to the mold can help to reduce the temperature of the mold more quickly.
6. Use a cooling blanket: Wrapping a cooling blanket around the mold can help to reduce the temperature of the mold more quickly.

2.What technologies are used to produce higher quality plastic mold a and b?

We pay attention to employee development and benefits, and provide a good working environment in order to improve the efficiency of employees and improve the quality management of plastic mold a and b products.
1. Computer Numerical Control (CNC) Machining: CNC machining is a process that uses computer-controlled machines to cut and shape materials into precise shapes and sizes. This technology is used to produce higher quality moulds with greater accuracy and repeatability.
2. 3D Printing: 3D printing is a process that uses a digital model to create a physical object. This technology is used to produce complex moulds with intricate details and shapes.
3. Laser Cutting: Laser cutting is a process that uses a laser beam to cut and shape materials into precise shapes and sizes. This technology is used to produce higher quality moulds with greater accuracy and repeatability.
4. Vacuum Forming: Vacuum forming is a process that uses a vacuum to form plastic sheets into desired shapes. This technology is used to produce higher quality moulds with greater accuracy and repeatability.
5. Injection Moulding: Injection moulding is a process that uses a heated plastic material to form a desired shape. This technology is used to produce higher quality moulds with greater accuracy and repeatability.

3.What are the common types of plastic mold a and b used for metal alloys?

We continuously upgrade our skills and knowledge to adapt to changing plastic mold a and b 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.

What are the common types of plastic mold a and b used for metal alloys?

4.What are the advantages and disadvantages of using a 3D printed plastic mold a and b?

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.

5.Are there automated features integrated into the plastic mold a and b to streamline the manufacturing process?

We adhere to the principle of quality first and have a complete production quality management system and quality inspection process.Yes, many molds are designed with automated features to streamline the manufacturing process. These features can include automated injection systems, automated ejection systems, automated temperature control systems, and automated molding cycles.

6.Does the plastic mold a and b design comply with industry standards and regulations?

As one of the top plastic mold a and b manufacturers in China, we take this very seriously.Yes, the mold design should comply with industry standards and regulations. It is important to ensure that the mold design meets all applicable safety and quality standards.

Does the plastic mold a and b design comply with industry standards and regulations?

7.How is the surface of a plastic mold a and b treated to improve its performance?

We have established a good reputation and reliable partnerships within the plastic mold a and b industry.The surface of a mould can be treated in a variety of ways to improve its performance. Common treatments include polishing, sandblasting, shot peening, and coating with a release agent. Polishing the surface of the mould can help reduce friction and improve the mould's ability to release parts. Sandblasting can help remove any imperfections or burrs on the surface of the mould. Shot peening can help increase the surface hardness of the mould and improve its wear resistance. Finally, coating the mould with a release agent can help reduce sticking and improve the mould's ability to release parts.

8.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!

9.What are the advantages and disadvantages of plastic mold a and b made from aluminium?

We are a new plastic mold a and b manufacturer.
Advantages:
1. Aluminium is lightweight and strong, making it ideal for creating intricate moulds.
2. Aluminium is a good conductor of heat, which makes it ideal for use in casting processes.
3. Aluminium is corrosion-resistant, making it a great choice for moulds that will be used in wet or humid environments.
4. Aluminium is relatively inexpensive compared to other metals, making it a cost-effective choice for moulds.
Disadvantages:
1. Aluminium is not as strong as other metals, making it more prone to wear and tear.
2. Aluminium is not as durable as other metals, making it more susceptible to damage from heat and pressure.
3. Aluminium is not as easy to work with as other metals, making it more difficult to create intricate moulds.
4. Aluminium is not as resistant to corrosion as other metals, making it more prone to rusting.

What are the advantages and disadvantages of plastic mold a and b made from aluminium?

10.What is the production capacity of the factory for plastic mold a and b?

The annual manufacturing capacity is around 400-600 sets of various plastic injection moulds for parts of auto parts, home appliances, medical instruments, office appliances and communicating equipments, etc.

11.What type of cooling system is integrated into the plastic mold a and b, and how efficiently does it dissipate heat?

I have a comprehensive after -sales service system, which can pay attention to market trends in time and adjust our strategy in a timely manner.The type of cooling system integrated into the mold depends on the specific mold design and the materials used. Generally, cooling systems are designed to dissipate heat as efficiently as possible, using a combination of water, air, and/or oil to cool the mold. The efficiency of the cooling system depends on the size and complexity of the mold, as well as the materials used.

12.About the scale of plastic mold a and b factory

Our company currently has over 200 employees and produces around 400-600 sets of various plastic injection molds annually.

About the scale of plastic mold a and b factory

13.How do plastic mold a and b hardness and mould flexibility affect its performance?

We pay attention to user experience and product quality, and provide the best product quality and lowest production cost for cooperative customers.Mould hardness and mould flexibility can have a significant impact on the performance of a mould. Harder moulds are more durable and can withstand higher temperatures and pressures, making them ideal for high-volume production. However, they are also more difficult to modify and can be more expensive to produce. On the other hand, softer moulds are more flexible and can be modified more easily, making them ideal for low-volume production. However, they are also more prone to wear and tear and can be less durable.



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