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GOODBO MOULD LIMITED has a strict quality control system and an efficient work team. We specialize in the production of molds, covering a wide range, including Mock up sample,Plastic mold,Blow Molding,Mold standard components,Multi color injection molding,Die Casting Mold and others.

GoodBo Mould offers you the benefits of lower costs coupled with the high engineering and production standards expected in the European, North American and Japan injection moulding industry as well as some big domestic enterprises.We have confidence in our quality, service, and pricing, and we maintain long-term business relationships with customers from countries such as the United States,Gabon,Liechtenstein,Cameroon,Bangladesh,Cote d'Ivoire. We have received high praise and recognition from our customers.



Product name urethane injection molds
Place of Origin Shenzhen,China
Runner
Cold Runner. Hot Runner: Yudo
PortShenzhen
Colors Customized Colors
Condition
New
Design software
CAD/PROE/UG/3D/STEP/PDF/JPG
Packing Size(cm)

223*142*184

Specific consultation with us

Brand Name GoodBo Mould
Export region
America,Asia,Africa
Export country
America,Asia,Africa...etc
Mould life
500000 shots
Certification
ISO90001
Product Material
PUR(polyurethane),PP(polypropylene),TPE(thermoplastic)...etc.
Mould making technology
Plastic flow/deform simulation,2D Modelling...etc.
Application
Automotive,Architectural,Marine...etc.
After-sales Service
Always maintained
MOQ
Negotiable
Packaging Details
Packed in cartons
Supply Ability

2000-100000 Set/Sets per Month

(See specific model products)

Lead time (days)
20-40 (To be negotiated)
Mould BaseLKM,HASCO...
 Please noteThis table is for reference only, please consult us for specific information.

GoodBo Mould is one of the leading urethane injection molds manufacturers in China, and our mission is to provide customers with high-quality products and the highest quality service.

At GoodBo Mould we have invested in both people and technology to ensure that our designs meet your highest expectations. Our experienced mold designers utilize the latest software to directly take the clients CAD model into design. All mold designs are then validated to our clients tooling standards and molding specifications.

Our engineering and mold making technology include:MasterCam(CNC Programming),AutoCad(2D Modelling),Pro/Engineer(3D Modelling),Moldflow Mold Advisor(Plastic flow/deform simulation),etc.

urethane injection molds---FAQs Guide
1.What training and support are provided for users working with the urethane injection molds?
2.What are the common types of urethane injection molds used for metal alloys?
3.How is the surface of a urethane injection molds treated to improve its performance?
4.What processes are involved with the conservation and maintenance of a urethane injection molds?
5.What are the after-sales services available for urethane injection molds?
6.What kind of cooling systems are used for moulding?
7.What other factors need to be taken into account when designing a urethane injection molds?
8.How does shrinkage of the material being moulded affect the finished product?
9.What type of cooling system is integrated into the urethane injection molds, and how efficiently does it dissipate heat?
10.What are the advantages and disadvantages of using a 3D printed urethane injection molds?
11.What are the most important features of a urethane injection molds?
12.How does the urethane injection molds contribute to achieving a desired surface finish on the molded products?
13.About urethane injection molds quality system
14.About urethane injection molds delivery time
15.In what ways can urethane injection molds cooling be improved?

1.What training and support are provided for users working with the urethane injection molds?

Our urethane injection molds products have competitive and differentiated advantages, and actively promote digital transformation and innovation.Training and support for users working with the mold will vary depending on the manufacturer. Generally, the manufacturer will provide detailed instructions on how to use the mold, as well as safety guidelines. They may also provide technical support and troubleshooting assistance. Additionally, some manufacturers may offer on-site training and support for users.

2.What are the common types of urethane injection molds used for metal alloys?

We continuously upgrade our skills and knowledge to adapt to changing urethane injection molds 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 urethane injection molds used for metal alloys?

3.How is the surface of a urethane injection molds treated to improve its performance?

We have established a good reputation and reliable partnerships within the urethane injection molds 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.

4.What processes are involved with the conservation and maintenance of a urethane injection molds?

We should have a stable supply chain and logistics capabilities, and provide customers with high -quality, low -priced urethane injection molds products.
1. Cleaning: Moulds should be cleaned regularly to remove any dirt, dust, or debris that may have accumulated on the surface. This can be done with a soft cloth or brush and a mild detergent.
2. Inspection: Inspect the mould for any signs of damage or wear. If any damage is found, it should be repaired or replaced as soon as possible.
3. Lubrication: Moulds should be lubricated regularly to ensure that they are functioning properly and to prevent wear and tear.
4. Storage: Moulds should be stored in a cool, dry place away from direct sunlight and other sources of heat.
5. Maintenance: Regular maintenance should be performed on the mould to ensure that it is functioning properly and to prevent any further damage or wear. This may include replacing worn parts, sharpening cutting edges, and checking for any signs of corrosion.

What processes are involved with the conservation and maintenance of a urethane injection molds?

5.What are the after-sales services available for urethane injection molds?

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.

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.

What kind of cooling systems are used for moulding?

7.What other factors need to be taken into account when designing a urethane injection molds?

We have a first -class management team, and we pay attention to teamwork to achieve common goals.
1. The type of material to be used for the mould: Different materials have different properties and require different mould designs.
2. The size and shape of the part to be produced: The mould must be designed to accommodate the size and shape of the part.
3. The number of cavities: The number of cavities in the mould will affect the design.
4. The type of injection moulding machine to be used: The mould must be designed to fit the injection moulding machine.
5. The type of cooling system to be used: The mould must be designed to accommodate the cooling system.
6. The type of ejection system to be used: The mould must be designed to accommodate the ejection system.
7. The type of surface finish to be achieved: The mould must be designed to achieve the desired surface finish.
8. The type of gate to be used: The mould must be designed to accommodate the gate.
9. The type of runner system to be used: The mould must be designed to accommodate the runner system.
10. The type of venting system to be used: The mould must be designed to accommodate the venting system.

8.How does shrinkage of the material being moulded affect the finished product?

We have rich industry experience and professional knowledge, and have strong competitiveness in the market.Shrinkage of the material being moulded can affect the finished product in a variety of ways. If the material shrinks too much, it can cause warping, cracking, or other deformities in the finished product. It can also cause the product to be smaller than expected, or to have a different shape than intended. Additionally, shrinkage can cause the product to have a different surface finish than expected, or to have a different color than intended.

How does shrinkage of the material being moulded affect the finished product?

9.What type of cooling system is integrated into the urethane injection molds, 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.

10.What are the advantages and disadvantages of using a 3D printed urethane injection molds?

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.

What are the advantages and disadvantages of using a 3D printed urethane injection molds?

11.What are the most important features of a urethane injection molds?

We continue to improve urethane injection molds products and processes to improve efficiency.
1. Durability: The mould should be able to withstand the high temperatures and pressures of the injection moulding process.
2. Precision: The mould should be able to produce parts with a high degree of accuracy and repeatability.
3. Surface Finish: The mould should be able to produce parts with a smooth, consistent surface finish.
4. Ease of Maintenance: The mould should be easy to maintain and repair.
5. Cost: The mould should be cost-effective to produce and maintain.

12.How does the urethane injection molds contribute to achieving a desired surface finish on the molded products?

We adhere to the principle of integrity and transparency, and establish long -term relationships with partners, and we attach great importance to this detail.The mold contributes to achieving a desired surface finish on the molded products by providing a smooth, uniform surface that can be polished or textured to the desired finish. The mold also helps to ensure that the product is free of any defects or imperfections that could affect the surface finish. Additionally, the mold can be designed to create specific textures or patterns on the surface of the product.

How does the urethane injection molds contribute to achieving a desired surface finish on the molded products?

13.About urethane injection molds quality system

We define quality as total customer satisfaction and actively deploy the push of the work for components and management standardization.Excellent and adequate processing equipments, and normalized and efficient production management are the guarantee for mould quality and delivery.

14.About urethane injection molds 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.

About urethane injection molds delivery time

15.In what ways can urethane injection molds 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.



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