Apr. 28, 2025
Consumer Electronics
Injection molding is a well-known method of producing polymers. It is commonly utilized in the mass production of identical parts with strict tolerances. It is a low-cost, highly reproducible technique that produces high-quality components for large-series manufacturing.
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But how much does injection molding cost? The answer to this question depends on many factors. You've got mold costs, labor costs, part sizes, part design, project size, and several other elements that play into the final cost of this type of job.
In this article, we shall deconstruct the possible cost of injection molding by outlining all of the factors available. Understanding everything that goes into a plastic injection molding project allows you to quickly estimate the potential cost and break down quotations you receive to assess if you're getting a fair price. Let’s get started!
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Injection molding
Source: Prototech Asia
Costs for injection molding range from $10,000 to $100,000, depending on the size of the order, the complexity of the item, and other elements. However, due to poor part quality and poor mold creation, cheap injection molding typically ends up costing the client more.
Large production quantities are where injection molding excels since it can be costly to start up but is less expensive in the long term. The cost of the resin itself, tooling, cycle time, mold cavitation, and other elements all have an impact on the total cost you would pay for injection molded items.
Plastic injection molding is a manufacturing technique that involves multiple phases as well as the skill to ensure that each step is completed correctly. Cutting shortcuts at any point in the process might have serious effects later on. When seeking economical injection molding solutions, it is critical to choose a provider with expertise and know-how. Everyone wants inexpensive injection molding, but not the cheap results that come with it.
The injection molding method offers low variable costs due to the affordable thermoplastics materials, quick cycle times, and gradually decreasing labor requirements as a result of automation and economies of scale, despite the significant fixed start-up costs. As a result, the manufacturing process becomes more effective and the cost per part lowers in bigger quantities as the expenses are divided over hundreds or thousands of components. This indicates that the variable costs of production are minimal.
Injection molding machine
Source: Micron Solutions
Depending on the design and use, injection molding equipment can have a wide range of upfront costs.
Businesses maintain small-scale injection molding equipment internally. Then there are huge injection molding machines, which are frequently utilized by businesses that offer services as well as those engaged in extensive manufacturing.
Costs for professional industrial injection molding machinery range from $50,000 to $200,000. There can additionally be shipping fees. Due to the need for professional operators, these devices are not suitable for novices and enthusiasts.
Clearly, this is a significant expenditure for any firm. As a result, to reduce the equipment cost, the majority of businesses rent professionals with advanced injection molding equipment, like 3ERP, to handle the injection molding process. When injection molding is outsourced, the customer may find the lowest price for the item they need and cut down on production's variable expenses.
Making the mold and mold foundation for the item requires money, even though the molding equipment is an initial expenditure. Every single element manufactured entails a cost. Therefore, one of the most significant driving forces for injection molding is tooling costs.
Depending on the technique utilized to make the molds, this price may change. Three procedures are typically used for this purpose:
- CNC Machining: The most popular equipment for producing highly precise aluminum and stainless steel molds is a CNC machine. By using a spinning tool and fixed components, CNC machining eliminates material. Although several tool changes may be necessary and slow down the process, machining may make molds with very complicated cavity designs, thus costs rise in direct proportion to complexity. Many businesses outsource the creation of molds to service providers since CNC machines are industrial instruments that need trained personnel and a dedicated area.
- Electrical Discharge Machining (EDM): The EDM technique is typically used to manufacture extremely intricate mold patterns that are difficult to duplicate using conventional machining techniques. To manufacture the appropriate mold form using EDM, a workpiece and a tool electrode are used. A dielectric fluid separates the tool electrode from the workpiece electrode, which is then exposed to voltages that result in repeated current discharges. The workpiece electrode is shaped into the final mold by the discharges. EDM is extremely precise and typically doesn't need any further post-processing. EDM is an industrial procedure that many businesses contract out to machine shops, much to CNC machining.
- 3D Printing: A potent method for quickly and cheaply fabricating injection molds is 3D printing. Very little equipment is needed, which frees up CNC time and expert operators for other high-value operations in the interim. Manufacturers can design molds that can be used on both desktop and industrial molding machines thanks to the quickness and adaptability of in-house 3D printing. Additionally, iterating on the design and testing the final product material before investing in hard tooling for mass production is advantageous for product development.
Simple low-volume 3D printed molds may be manufactured on a 3D printer for as little as $100. An aluminum mold for a mid-volume production run of 1,000 to 5,000 units costs between $2,000 and $5,000. Mold costs can range from $5,000 to $100,000 for molds with more complicated geometries and designed for bigger manufacturing runs of 10,000+ pieces.
A mid-level order of – tiny components can cost up to $10,000 in injection molding tooling. The plastic injection molding cost might increase to $100,000 for larger quantities and more complicated designs.
Depending on how complicated or huge your parts will be, tooling prices may vary. In other words, the manufacturer might need to employ a unique (and thus more expensive) machine to finish your order if your item is complicated (for instance, if it has sophisticated geometry or dense walls).
Different types of thermoplastic resins can be utilized in the injection molding process. When calculating the cost of an injection mold, the type of plastic will also be a crucial component. Depending on what the component is intended to achieve, the best plastic resin will need to be chosen. Plastic resins will cost between $2 and $20 per pound. The size and intricacy of the mold will determine how much plastic is utilized in each injection. Several plastic properties that can influence price include:
- High impact
- High gloss
- Transparency
- High flow
- Fire retardant
- High heat
- Low temperature
- UV resistance
- Food grade
The majority of injection molding equipment is self-regulating and depends on automation to complete its function. However, there are some costs for labor that you should take into account:
- Setup/configuration cost: The setup labor focuses on the time required to configure the used equipment to make the mold and the end product.
- Repair cost: Repair and maintenance jobs entail the replacement of damaged parts as well as the usage of tools to carry out the maintenance procedure.
- Monitoring costs: Despite the dependence on automation, equipment operators are expected to monitor the injection molding process's development. Operator salaries are added to the entire cost of injection molding.
These charges are factored into the labor costs when producing in-house. When a company outsources injection molding, the labor and the service provider's markup are added to the service cost.
The mold will be bigger to suit the larger object or part to be formed. To complete manufacturing cycles, larger items often require more injected materials. Larger mold designs are typically more expensive to produce than smaller designs of the same size.
To complete the project, complicated molds are needed for part designs with elaborate geometries. Typically, mold designs feature two sides: sides A and B. The user typically sees Side A, often known as the cosmetic side. Smoothness and visual appeal are desired on Side A. The structures that facilitate the use of the component are hidden on Side B. The finish on Side B is often rougher than that on Side A, and it may feature ribs, bosses, etc.
Molds with intricate Side A and Side B designs often cost more to manufacture than simpler molds. Undercut-containing complex designs may additionally call for sliding side-actions and cores, raising the mold's price.
The manufacturing method and the quality of material to be used while making the mold depend on how many products will be produced using injection molding. Large production volumes may require high-grade steel molds or perhaps numerous molds to manage the process without wear and tear impacting the quality of generated objects. Low-volume projects may utilize 3D printed or lower-grade machined aluminum molds.
This has an impact on the price of the mold, but naturally, the higher cost of large-volume molds is spread out across a greater number of parts, which often results in a cheaper per-part cost.
The price per component rate also includes the cost of mold cavitation, which rises as there are more cavities. It might cost thousands of dollars only to buy an injection mold.
The size and design of the component affect mold cavitation. Single cavity molds are typically cheaper if your item is very straightforward. To speed up manufacturing, it is desirable to use multiple-cavity molds if the part's shape permits it (making production less expensive over time). However, this might not be possible with larger pieces.
Secondary services might be expensive, but sometimes you can save money by buying both injection molding and secondary services from the same supplier (this also saves on shipping costs for another facility). These might take the form of:
- Other production techniques, such as drilling, inserting, and machining
- Services for assembly, such as gluing and sonic welding
Including logos or other graphics printed in pad print for decorating or marking
Other sections could require further servicing, while some may not. Some pieces will establish attachments to the gate while others will fall out of the machine and into a box. They need post-process machining to remove the gate, but are nevertheless utilized since gating improves process efficiency and reduces waste.
Potential price-cutting tactics include the following:
- Before starting the job, inspect the CAD model to see how realistic it looks. Any complicated measurements and angles should be avoided.
- Remove any unnecessary traits. This reduces the size of the mold as well as the materials required during development.
- Side B's design should be simplified. The exterior cavities are collapsed into the base during this procedure, which lessens the requirement for acute angles. Furthermore, this will substantially enhance the surface finish.
Typically, injection molding is regarded as a method best suited for large-scale manufacturing operations with production volumes ranging from tens to hundreds of thousand of parts.
However, if your manufacturing demands aren't as large (for example less than ), you may use 3D printers to take advantage of this technique and optimize the cost.
Depending on the needs of the finished products, injection molding can employ a broad range of polymers such as ABS, PS, PE, PC, PP, or TPU with each of them having its own properties.
The cost of obtaining mold materials varies depending on the material used. Here are the 7 most commonly used plastic for injection molding.
(Reminder: Prices for the mentioned plastics are not fixed prices. They depend on the market when you read the article. To check the price, you can go to some reputable websites about plastic prices, such as https://www.theplasticsexchange.com/)
Characteristics: ABS resin is an engineering-grade plastic and an opaque thermoplastic polymer. It's robust, has high dimensional stability, can withstand impacts and scratches, and is difficult to break. Furthermore, the low melting point makes it simple to mold.
Application: adaptors, keyboard keys, and plastic wall socket guards...
Why is this the case? Because ABS is an excellent insulator, it will not conduct electricity or emit gases if exposed to fire. These are critical issues for electrical device product developers.
Cost per pound: $1.30
Characteristics: Polyethylene (PE) is a lightweight thermoplastic molding material with excellent chemical resistance, flexibility, and electrical insulation. It's not very powerful or hard, but it's cheap. PE is also the most often used injection molding plastic for the manufacture of toys since it is non-toxic and can withstand battering without complaint.
Applications: food packaging, milk jugs, toys
Cost per pound: $1.20
Characteristics: Polypropylene (PP) is a thermoplastic injection molding material that is commonly utilized in the food storage and packaging business. Polypropylene (PP) is resistant to chemicals and moisture and may be washed in hot water without deteriorating. PP possesses exceptional impact strength, flexibility, and toughness.
Applications: tupperware, kiddie pools, toys, utensils, car batteries
Cost per pound: $0.90
Characteristics: There are two kinds of polystyrene typically used in injection molding resins: High Impact Polystyrene (HIPS) and General Purpose Polystyrene (GPPS) (GPPS). HIPS is opaque, but GPPS is transparent. On the one hand, PS is robust and long-lasting. It can withstand a lot of punishment.
Applications: compact disc cases, packaging applications, household appliances
Cost per pound: $1.00
Characteristics: Nylon is a synthetic polyamide (PA) having durability and high heat resistance. Moreover, it has excellent abrasion resistance, fatigue resistance, and noise-dampening qualities. However, it has a low tolerance to strong acids and bases. It is also prone to shrinkage and has insufficient mold filling.
Applications: high-ware parts, quick-release buckles, gears, hand cranks
Cost per pound: $2.20
Characteristics: Polyoxymethylene (POM) is a thermoplastic engineering material that is extremely strong, robust, and stiff. Despite its strong resistance to solvents such as alcohols, gasoline, detergents, and motor oils, POM should not be subjected to hydrochloric or nitric acid.
Applications: high-ware parts, quick-release buckles, gears, hand cranks
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Cost per pound: $2.20
Characteristics: Polycarbonate is another transparent injection molding plastic with great optical characteristics and high durability. Because of its predictable and consistent mold shrinkage, this amorphous thermoplastic material allows for exact dimensional control while molding. When we need something much tougher than acrylic, we turn to polycarbonate.
Applications: automobile headlights, bulletproof glass, eyeglasses, greenhouses, DVDs, mobile phones
Cost per pound: $2.30
Polypropylene and polyethylene are the least expensive materials for injection molding. They are often used in injection molding thanks to their extreme flexibility. They are used to produce anything from milk bottles to automobile batteries. These are the materials that most people use every day, and cheap material prices enable mass production.
When deciding on a material for your plastic injection project, keep in mind that the material should be determined by the purpose of the product. Understanding your alternatives and the costs connected with those materials will allow you to make an informed selection.
EuroPlas is a top masterbatch manufacturer that supplies plastic for injection molding. We are headquartered in Vietnam and have been in the business for over 15 years. Our expertise and experience allow us to meet any requirement of our customers, and we always strive to provide you with the highest quality products.
We specialize in the production of various highly specialized plastic pellets with suitable properties at competitive prices. Our products are designed to meet the demands of the injection molding industry, which include automotive parts and appliances such as refrigerators, washing machines, dishwashers, and other household appliances.
According to a recent industry report, the plastic injection moulding market is expected to grow significantly in the coming years. This growth is attributed to the growing demand for plastic products in various industries such as automotive, healthcare, packaging, and consumer goods. However, despite the increasing demand for plastic injection moulding services, many aspiring entrepreneurs are still hesitant to enter the industry due to high start-up costs. In this blog post, we will discuss the costs associated with opening a plastic injection moulding business and provide some insights on how to manage these costs effectively.
If you are planning to start a plastic injection moulding business, you need to understand that there are some one-time costs that you will have to pay before you can start operations. These costs may vary depending on the size and scope of your business, but typically include everything from purchasing injection moulding machines and raw materials to hiring and training employees and investing in the necessary equipment and infrastructure.
One of the biggest expenses when starting a plastic injection moulding business is the cost of the injection moulding machines themselves. These machines are essential for producing a wide range of plastic parts. Depending on the type of machine and its output, the cost of an injection moulding machine can range from a few thousand dollars to hundreds of thousands of dollars.
Mould design and development is another important one-time cost when starting a plastic injection moulding business. Moulds are the tools that shape the plastic and form it into the desired product. The cost of a mould may vary depending on its complexity, design requirements and the number of parts to be produced. Mould costs can range from a few thousand dollars to tens of thousands of dollars.
In addition to the above costs, you will need to consider the cost of raw material purchases, testing and quality control equipment, factory equipment and infrastructure, employee training and development, inventory management, IT systems for transport and logistics, and marketing and logistics. Advertising costs for customer promotion. These costs can add up quickly, so it's vital to plan your budget effectively and manage your cash flow carefully.
Injection moulding machines
Mould design and development
Raw material procurement
Plant equipment and infrastructure
Testing and quality control equipment
Employee Training & Development
Inventory Management IT Systems
Transport logistics
Marketing and advertising costs for customer outreach
Opening a plastic injection moulding business may seem daunting, but with the right planning and preparation, it can be a rewarding and profitable venture. By understanding the one-off start-up costs and developing a viable business plan, you can set your business up for success and growth in this rapidly expanding industry.
1, equipment and raw materials investment: 50%
2, plant: 10%
3、Employee wages: 30%
4, Working capital: 20% (may be a little more)
Starting a plastic injection moulding business requires significant investment in equipment, employees and infrastructure. The chart below shows some of the major start-up costs associated with launching a plastic injection moulding business, noting that these costs are only estimates and may vary depending on the size and complexity of the operation. It is important to conduct thorough research and develop a detailed business plan to accurately estimate the start-up costs associated with a plastic injection moulding business:
Injection moulding machines are the backbone of any plastics moulding business, and their cost can vary greatly depending on their size, capacity and features.
Small benchtop injection moulding machines start at around US$1,000, while larger, more complex models can cost as much as US$100,000.
For medium-sized plastics moulding companies that require a range of injection moulding machines with different capacities and features, costs can add up quickly.
The capital for the equipment depends on what kind of orders are received, and the products that are highly requested depend on whether the equipment to be bought is needed, with expensive injection moulding machines costing hundreds of thousands of dollars and more than a million dollars a piece of the budget. China's production of machinery, then a lot cheaper, you can learn more about a few brands. Plant area depends on how much equipment to buy to do the plan, a lot of equipment factory can also give you some advice on plant planning!
Mould design and development is a critical stage in the plastic injection moulding process. The mould determines the shape, quality and accuracy of the final product. The cost of mould design and development may vary depending on various factors such as the complexity of the mould, the materials used and the lead time. However, according to recent statistics, the average cost of mould design and development is approximately US$12,000 to US$50,000.
The cost of mould design and development can be affected by the type of thermoplastic material used. The cost of a mould for a product made from a low-cost material such as polypropylene will be much cheaper than a mould for a product made from a high-cost material such as polyetherimide. Mould design and development costs may also be higher for complex designs with complex geometries.
Lead time is another factor that affects mould design and development costs. In the injection moulding industry, lead time is the time between placing an order and delivering the final product. The longer the lead time, the more expensive the mould design and development costs. Faster lead times mean that moulds must be designed and developed quickly, which can affect the quality and accuracy of the final product.
It is important to note that mould design and development costs are one-off costs, as the mould can be reused over many production runs. The cost of mould design and development is spread over the life cycle of the product. Production volume also affects the total cost per part. Due to economies of scale, the cost per part decreases as production volume increases.
In conclusion, the cost of mould design and development is an important factor to consider when starting an injection moulding business. It is critical to work with a reliable and experienced mould maker who can provide high quality moulds that meet the specific requirements of the product design. The cost of mould design and development can be affected by a number of factors and it is advisable to calculate the total cost per part to determine the profitability of the business.
Raw materials play a vital role in the plastic injection moulding process. Raw material procurement includes bulk purchase of granules, powders, additives, colourants and other required materials. A significant portion of the manufacturing cost of injection moulding includes the cost of raw materials. Raw material procurement is a critical aspect that requires careful attention.
In the United States, the average cost of polypropylene, a thermoplastic commonly used in injection moulding, is $0.55-$0.65 per pound. High-density polyethylene (HDPE) costs about $0.70-$0.80 per pound. Acrylonitrile butadiene styrene (ABS) costs up to $1.50 per pound. For polycarbonate (PC), the cost ranges from $1.50 to $2.30 per pound, depending on quality and grade.
Raw material costs may vary depending on the supplier, material quality, and quantity ordered. It is important to note that ordering material in bulk will reduce unit costs; however, ordering excess material may increase storage and maintenance costs.
Plastic injection moulding companies may choose to obtain raw materials through international suppliers to reduce costs.
The company may also make prior arrangements with local distributors who source materials from multiple suppliers so that they can diversify their supply lines and maintain competitive pricing.
Sourcing raw materials from multiple suppliers allows a company to obtain the best price and ensure a continuous supply.
Sourcing raw materials for injection moulding may also involve customisation and blending of materials to meet customer requirements. These customisations may result in additional costs and therefore need to be carefully considered when contemplating such requests. To optimise the procurement process, companies may choose to establish long-term relationships and contracts with suppliers to reduce costs and ensure continuous supply
The cost of plant equipment and infrastructure is a key factor to consider when starting a plastic injection moulding business. The cost of equipment varies widely, depending on factors such as the size of the company and the type of machinery required. According to recent statistics, the average cost of plastic injection moulding equipment ranges from approximately US$75,000 to US$300,000. This cost can rise significantly if additional features and customisation are required.
Another important cost to consider is the infrastructure required to operate the injection moulding machine. This includes the cost of electricity, water and ventilation systems, which are critical to the safe and efficient operation of the machine. The average cost of infrastructure for a small to medium-sized injection moulding plant is between US$50,000 and US$100,000, while a large plant may require infrastructure costs of up to US$500,000.
In addition to basic equipment and infrastructure costs, there are many other expenses associated with running a plastic injection moulding operation. These include the cost of raw materials, machine maintenance and repairs, employee wages, and marketing expenses. The total cost of starting a plastic injection moulding business can range from $100,000 to over $1 million, depending on the size and scope of the business.
It's worth noting that some manufacturers may choose to lease equipment and infrastructure rather than purchase it outright. This can help reduce upfront costs, but may result in higher ongoing costs due to interest payments and the need to return the equipment at the end of the lease term.
In order to control costs, it is important to carefully assess a business's equipment and infrastructure needs and develop a budget that considers all necessary expenses. It may also be helpful to seek the advice of industry experts and consult with experienced plastic injection moulding business owners to gain insight into the most cost-effective strategies for starting and growing a successful business.
Testing and quality control equipment is an important part of the plastic injection moulding process. It ensures that the products produced meet the required specifications and are of high quality. The cost of test and quality control equipment varies depending on the size and complexity of the equipment. The cost also depends on the manufacturer and country of origin. On average, the cost of quality control equipment ranges from $500 to $50,000.
One of the most important pieces of quality control equipment in plastic injection moulding is the co-ordinate measuring machine (CMM). This machine is used to measure the dimensional and geometric characteristics of the parts produced. CMMs come in a variety of sizes and complexities and cost from $10,000 to $100,000.
Another important piece of quality control equipment used in plastic injection moulding is the Melt Flow Indexer. This device is used to measure the flow of molten plastic during the injection moulding process. The cost of the MFI meter ranges from US$5,000 to US$15,000.
In addition to the above, other quality control equipment used in plastic injection moulding includes spectrophotometers, hardness testers and density testers. The cost of these equipment ranges from US $500 to US $10,000.
It is important to note that the cost of testing and quality control equipment is a one-time investment for an injection moulding operation. However, it is important to ensure that the equipment is of high quality and meets international standards. Investing in high-quality equipment can help reduce production costs and improve the efficiency of the injection moulding process. It also helps in attracting more customers as they can be assured of getting high quality products.
As with any business, staff training and development is vital to the success and growth of a plastic injection moulding business. It's important to invest in regular training programmes to keep your staff up to date with the latest technology, industry standards and best practices. Employees who participate in training and development programmes can increase productivity, efficiency and innovation, which in turn can increase your company's revenue.
The cost of training and development programmes varies depending on the size of the company and its requirements. On average, manufacturing companies spend about $1,000 to $1,500 per employee per year on training programmes. This figure includes costs associated with materials, trainers, and facilities.
There are many types of training and development programmes that plastic injection moulding companies can consider. On-the-job training is the most common type of training, where employees learn skills and knowledge while performing daily tasks. For example, a new operator may learn machine functions and safety procedures under the guidance of a trainer or experienced co-worker.
Classroom Training: Classroom training is a formal training method that involves educational activities conducted in a training facility or classroom. This type of training is valuable for theoretical training for new employees as well as for professional training sessions for experienced employees.
Webinars and Online Training: Webinars and online training courses can provide cost-effective and flexible training options for employees. These can be live or on-demand courses where participants can access training materials and interact with trainers via the Internet.
Investing in employee development opportunities can also include leadership and management training for team leaders and managers. This type of training can help them effectively define goals, set expectations, motivate and lead their teams. Companies can hire outside consultants, coaches or industry experts to provide additional perspectives and insights into leadership, operations and management practices.
Save money on injection moulding
Saving money on injection moulding can be helpful, but it is important to develop a strategy around where you are saving money. In order to maintain a cost-effective strategy for low-cost injection moulding, it is just as important to identify the areas where you want to save money Money can lead to bigger problems as it requires finding areas to reduce costs. The following tips will help you address both issues:
Know your tooling budget in advance. When dealing with a manufacturer, it is best to be open about what you can afford from the start. It is important to remember that plastic injection moulds are expensive, so you are unlikely to save much of your budget on this part of the process. However, the cost will depend on the application and whether you want to make thousands of parts or millions.
Look for reputable companies. Many reputable suppliers have on-site tool repair capabilities, which can be valuable when tools start to wear out and break. A reputable molder can guarantee that your tooling will last for 50,000, 100,000 or even a million cycles, depending on the company.
Reuse plastic waste. Using plastics that harden in the gates and runners and are cut off in reprocessing can help reduce material costs. However, plastics and their additives lose a small percentage of their mechanical properties each time they are recycled, so they cannot be recycled too many times. For example, glass filler fibres become shorter when used in recycled plastics, which can lead to a reduction in properties such as tensile and impact strength. Studies have shown that these two properties can be reduced by up to 40 per cent after multiple recycling steps (eight in the study above).
Pre-purchase replacement components. This will be an additional cost, but you'll end up spending less in the long run. Think of it as a form of insurance because you are preparing for the worst.
Maximise design efficiency. During the concept phase, it's important to focus on the essential features that ensure optimal part performance. You may come across elements that can be categorised as 'nice to have', but may not contribute to the market value of your part.
Consider the relevance of the part's appearance. Glossy or shiny finishes look good, but are they critical to your project? If they don't translate into increased sales, you might consider removing them.
Consider insert moulding. This works by inserting a product into a mould and encapsulating it in plastic. This gives you the option of applying the injection mould to both products by using inserts. These inserts can then be removed or placed in different areas depending on the given cycle. This is a very versatile technique that can help reduce costs.
Above is the cost of opening a plastic injection moulding plant and how to reduce cost
This is TEPAI, a factory specialising in providing high quality plastic bottle manufacturing machinery. Our goal is to help our customers improve production efficiency and reduce production cost through innovation and excellent service.
Our product line includes fully automatic bottle blowing machines, injection moulding machines, pre-made moulds and so on, which are designed and manufactured by our professional team. Our team has the experience and expertise to provide our customers with customised solutions to meet their specific needs.
We are convinced that only through continuous learning and improvement can we remain at the forefront of our industry. Therefore, we always keep abreast of the latest technology and market trends to ensure that our products and services remain at the forefront of the industry.
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