Phone:
(+91) 9686 448899

Physical address:
​Kruger Industries  E 42 & 43 2nd Main 2nd Phase, Peenya Ind Area, Bengaluru - 560058, India

Plastic Injection Moulding – our main business – we also offer

Product design

Injection Mould design

Prototyping with samples

Mould manufacture & plastic optimization

Get in touch with us for plastic injection moulding

How It Works

Our Proven 6-Step Manufacturing Process for injection moulding products

#1 Initial Consultation

Kruger can assist you with the initial stages of designing the components that meet your needs. To have a better idea of what the final product will look like, 3D modelling can be performed or as an assembly of various parts. In order to select the right grade of plastic material for your application, we have ties with various engineering plastic raw material manufacturers.

#2 Concept & Feasibility

By using the 3D model, you can get a good idea of what the end product will look like. Kruger can then determine whether the component is feasible for plastic mold design and injection molding process. As soon as the product is designed, we will support you until it is manufactured commercially

#3 Planning & Costing – injection molding cost

Kruger can estimate the cost of producing the components once mold feasibility has been confirmed. Kruger can produce your requirement cost-effectively by choosing the right plastic injection molding machine from our existing range.

#4 Construction Stage injection molding cycle

As a mould designer, Kruger can create the tooling & molds that are necessary to manufacture the components. It is estimated that a well-maintained mold cavity can give a life without defects of between a half and 1 million shots. A mold’s life is also determined by the thermoplastic raw material considered be it polypropylene, PE, nylon, ABS, or polycarbonate.

#5 Plastic injection molding process Finishing Touches

Kruger produces parts that can be used directly without requiring any post-processing. In addition to meeting end-user requirements, critical parts avoid secondary operations post-molding, which would be costly in the long run.

#6 Final products with extras

You can order the parts you need from Kruger with the following:

a} – Screen Printing

b) – Pad Printing

c) – Ultrasonic welded parts

d) – Heat-sealed parts.

e) – Critical dimensions to be machined post molding parts.

f) – Insert moulded 

What is plastic injection moulding process?

Plastic injection moulding is a manufacturing process used to produce large quantities of plastic parts. The process involves melting plastic pellets and injecting the molten plastic into a mold, which is then cooled and ejected to create a solid part. Injection molding is commonly used in the production of consumer goods, such as toys, kitchen utensils, and automotive parts, among others. It is a highly efficient and precise method for producing complex shapes with consistent quality and accuracy. The process can also be customized to meet specific design requirements and can be scaled up or down depending on production needs.

How does plastic injection moulding work?

Plastic injection moulding is a manufacturing process used to produce a wide range of plastic products, from small toys to large automotive parts. The process involves melting plastic pellets and injecting them into a mold under high pressure. Once the plastic cools and solidifies inside the mold, it is ejected from the mold cavity as a finished part.

The basic steps in the plastic injection molding process are:

  1. Clamping: The two halves of the mold are securely closed and held together by a clamping unit.
  2. Injection: Melted plastic is injected into the mold cavity through a nozzle under high pressure.
  3. Cooling: The molten plastic solidifies inside the mold and is cooled by circulating water or air.
  4. Ejection: Once the plastic has cooled and hardened, the two halves of the mold are opened, and the finished part is ejected.

The process can be automated for efficiency and precision, making it a popular choice for mass production of plastic parts. However, it requires careful design and engineering to ensure that the finished product meets all necessary requirements for form, fit, function, and quality control

What are the benefits of using plastic injection moulding?

Plastic injection moulding is a manufacturing process that involves injecting molten plastic into a mould to create a specific shape or form. Some potential benefits of using plastic injection moulding include:

  1. Cost-effectiveness: Plastic injection moulding can be an extremely cost-effective manufacturing process, particularly for high-volume production runs. The initial tooling costs can be relatively high, but the cost per unit decreases significantly as the volume increases.
  2. High precision and accuracy: Injection moulding allows for very precise and accurate parts to be produced consistently, with minimal variation between units.
  3. Versatility: Plastic injection moulding can be used to produce a wide range of shapes and sizes, from small components to large parts.
  4. Durability and strength: plastic injection moulding parts are typically durable and strong, with good resistance to wear and tear, impact, and other forms of damage.
  5. Speed: Injection moulding is a fast process, capable of producing large quantities of parts in a short amount of time.

Overall, the benefits of plastic injection moulding make it an attractive option for many manufacturers looking to produce high-quality plastic parts efficiently and cost-effectively.

Which types of plastic injection molds can be used for different parts and what are their advantages and disadvantages?

There are several types of plastic injection molds used for manufacturing different plastic parts. Each type has its advantages and disadvantages, depending on the specific plastic injection moulding application and requirements. Here are the most common types of injection molds and their pros and cons:

Single-cavity mold:
Advantages:
Simplicity: It is a simple mold with only one cavity, which makes it easier to design and manufacture.
Cost-effective: It is cheaper to produce because of its simplicity.
Disadvantages:
Low production rate: As it has only one cavity, the production rate is limited.

There are several types of plastic injection molds used for manufacturing different plastic parts. Each type has its advantages and disadvantages, depending on the specific application and requirements. Here are the most common types of injection molds and their pros and cons:

Multi-cavity mold:
Advantages:
High production rate: Multiple cavities allow for simultaneous production of multiple parts, which increases the production rate.
Cost-effective: Although more expensive than single-cavity molds, the cost per part is lower due to the high production rate.
Disadvantages:
Complexity: Requires more precise design and manufacturing to ensure consistent part quality across all cavities.
Increased mold cost: More expensive than single-cavity molds due to increased complexity.
Family mold:
Advantages:
Production efficiency: Allows for the simultaneous production of different parts in a single mold, which reduces the production cycle time.
Cost-effective: Reduces the total number of molds required for a product, which lowers overall costs.
Disadvantages:
Design complexity: Requires a more complex design to accommodate the different parts in the mold.
Balancing issues: Ensuring even material distribution and consistent part quality can be challenging.

  1. Two-plate mold: Advantages:
  • Simplicity: Has a simpler design with fewer components, making it easier to manufacture and maintain.
  • Lower cost: Generally less expensive than three-plate molds. Disadvantages:
  • Limited part complexity: Less suitable for parts with complex geometries or multiple side-actions.
  • Potential for visible gate marks: Gates are located directly on the part, which may leave visible marks.
  1. Three-plate mold: Advantages:
  • Greater part complexity: Can accommodate more complex parts with intricate geometries and multiple side-actions.
  • Improved gate location: Gates can be located away from the part, reducing visible gate marks. Disadvantages:
  • Increased complexity: More complex design with additional components, making it harder to manufacture and maintain.
  • Higher cost: Generally more expensive than two-plate molds due to increased complexity.
  1. Hot runner mold: Advantages:
  • Reduced material waste: The hot runner system eliminates the need for a cold runner, reducing plastic waste and material costs.
  • Faster cycle times: Heated material flows more quickly, which can reduce cycle times.
  • Improved part quality: Better control over material flow and temperature can lead to improved part quality. Disadvantages:
  • Higher mold cost: Hot runner molds are more expensive than cold runner molds due to the addition of a hot runner system.
  • Increased maintenance: Hot runner systems require regular maintenance and can be more prone to failure.
  1. Cold runner mold: Advantages:
  • Lower mold cost: Cold runner molds are generally cheaper than hot runner molds as they do not require a hot runner system.
  • Easier maintenance: Cold runner systems are simpler and require less maintenance than hot runner systems. Disadvantages:
  • Material waste: Cold runner systems create material waste in the form of a runner, which increases material costs.
  • Longer cycle times: Cooling of the runner system can increase cycle times.
  • Potential for lower part quality: Cold material flow can result in inconsistent part quality.

Each of these mold types has its specific advantages and disadvantages. The choice of the appropriate mold type depends on factors such as part complexity, required production rate, cost considerations, and material properties.

Making your vision become a reality

Talk to Kruger Industries, today.

We look forward to assisting you with your plastic injection moulding needs

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You can also speak to our Dy Manager Sales, Bijeesh on +91 9902030023