Production Capabilities of a Lami Tube Making Machine in Diameters and Lengths

A lami tube making machine produces tubes with diameters from 12.7 mm to 60 mm and lengths ranging from 40 mm to 200 mm. These dimensions play a key role in packaging, allowing manufacturers to match tube size to product needs. Many industries rely on precise tube sizing for both functionality and visual appeal in packaging. The table below shows typical diameter and length ranges for common tube types:

Tube Type	Diameter Range (mm)	Length Range (mm)
Cosmetic Tube	12.7 to 60	70 to 220
Toothpaste Tube	12.7 to 60	N/A

A laminated tube making machine supports this flexibility, giving brands control over packaging size and appearance.

Key Takeaways

• Lami tube making machine can produce tubes with diameters from 12.7 mm to 60 mm, allowing for a variety of packaging options.
• The machine can create tubes ranging from 40 mm to 200 mm in length, meeting different product needs from travel sizes to retail items.
• Quick size changes take only 10 to 15 minutes, helping manufacturers respond to market demands and reduce downtime.
• Customization options include different shapes and materials, enabling brands to create unique packaging that stands out.
• High production speeds of up to 120 tubes per minute help manufacturers meet large orders efficiently and reduce lead times.

Lami Tube Making Machine Production Range

Diameter Capabilities

A lami tube making machine offers a wide range of diameters for tube production. Most machines can produce tubes with diameters from 12.7 mm up to 60 mm. This flexibility allows manufacturers to create packaging for various products, from small cosmetic tubes to larger containers for personal care or pharmaceuticals. The table below summarizes the diameter capabilities found in leading tube machines:

Tube Diameter	Range (mm)
Minimum	12.7
Maximum	60

Some models focus on a core range, such as 16 mm to 40 mm, which covers the most common sizes for laminate tubes. By adjusting the forming and cutting units, operators can quickly switch between different diameters. Most lami tube making machines complete this changeover in just 10 to 15 minutes, which reduces downtime and increases efficiency.

Note: Quick size changes help manufacturers respond to market demands and reduce waste during production.

Length Capabilities

The length of lami tubes produced by a lami tube making machine typically ranges from 40 mm to 200 mm. This range supports a variety of packaging needs, from travel-sized products to full-sized retail items. The following table highlights the minimum and maximum tube lengths:

Minimum Length (mm)	Maximum Length (mm)
40	200

Tube length selection depends on product requirements and filling volume. The machine’s design allows for precise adjustment, ensuring consistent tube length throughout the production run. Operators can set the desired length using the control panel, and the machine maintains accuracy even at high speeds.

Production speed varies with tube length and laminate type. For example, ABL (Aluminum Barrier Laminate) tubes with lengths between 25 mm and 300 mm reach speeds of 12 to 18 meters per minute. PBL (Plastic Barrier Laminate) tubes in the same length range operate at 8 to 12 meters per minute. Some high-speed tube machines can produce up to 120 tubes per minute, especially for standard sizes. The table below shows typical production speeds:

Machine Type	Production Speed (tubes per minute)
Lami Tube Filling and Sealing Machine	45
High Speed Plastic/Lami Tube Filling	80 to 120
Tube Filling Machine	Up to 120

Tip: Higher production speed helps meet large orders and reduces lead times for laminate tube manufacturers.

A lami tube making machine’s ability to handle a broad range of diameters and lengths, combined with fast changeover and high production speed, makes it a versatile solution for modern packaging needs.

Laminate Tube Production

Tube Size Determination

The laminate tube production begins with careful planning of tube dimensions. Operators select the laminate feed stock and print the desired graphics. The material then unrolls and forms a cylinder. The diameter adjusts according to customer specifications. Heat fuses the sides, creating a cylindrical sleeve. Cutting equipment trims the sleeve to a uniform length. The cutting and heading stages set the final tube dimensions. The choice of material, such as Aluminum Barrier Laminate (ABL) or Plastic Barrier Laminate (PBL), also affects the tube’s structure and barrier properties.

Several factors guide the selection of tube size during the tube making process:

1. Measure the product’s dimensions to ensure the tube fits the contents.
2. Consider the product’s material and weight to select the right wall thickness.
3. Evaluate usage or handling requirements for easy insertion, removal, and sealing.
4. Assess storage or display needs to ensure stackability or retail suitability.
5. Choose a compatible closure for the selected tube size.
6. Request a sample and test the fit before full production.

A lami tube making machine enables precise control over these variables, supporting both standard and custom tube sizes.

Shape and Layer Options

Lami tube making machine can produce laminated tubes in different shapes and structures. The most common shapes include round and oval, which suit a wide range of packaging needs.

Shape
Round
Oval

Manufacturers can also choose between monolayer and multilayer tubes. Each option offers unique benefits and production requirements.

Aspect	Monolayer Tubes	Multilayer Tubes
Production Complexity	Simpler manufacturing processes	More sophisticated manufacturing processes
Materials Used	Typically one type of polymer	Multiple layers with different materials
Cost	Generally more cost-effective	Higher production costs due to complexity
Applications	Basic needs like puncture resistance	Advanced applications requiring high performance

Multilayer tubes provide enhanced barrier properties and durability. The laminate tube production adapts to these requirements, allowing the lami tube making machine to deliver both simple and advanced packaging solutions.

Factors Affecting Production

Machine Configuration

The configuration of a lami tube making machine determines the range of tube diameters and lengths that manufacturers can achieve on the tube line. Each machine type offers specific capabilities for tube packaging. For example, some machines specialize in ointment tubes with diameters from 10 mm to 40 mm and output rates up to 50 tubes per minute. Others, such as high-speed rotary machines, support capacities from 40 ml to 300 ml, which suits larger packaging needs. The following table highlights how machine types influence production:

Machine Type	Tube Diameter (mm)	Output (tubes/min)	Filling Speed (ml/min)	Capacity (ml)
Ointment Filling Machine	10+40	50	50-60	200
Ointment Filling Machine	10+40	35-40	N/A	N/A
High Speed Rotary Machine	N/A	N/A	N/A	40-300

Advancements in technology have led to five-layer laminated tube making machines. These machines offer greater flexibility, allowing operators to customize tube diameter and length according to specific requirements. The tube line can switch between sizes quickly, which increases efficiency and supports diverse packaging materials.

Material and Customization

Material selection and customization options play a major role in the production of laminate tubes. Manufacturers choose between different laminate types, such as those with a barrier layer of aluminum or plastic, to meet barrier and quality standards. The barrier layer protects the product and enhances shelf life. Customization features include adjustable tube dimensions, material thickness, and sealing pressure. The table below outlines common customization options:

Customization Option	Specification
Adjustable tube dimensions	DIA 20-80mm
Material thickness	0.1–0.5mm
Sealing pressure	Meets specific industry standards or design requirements

Recent trends show that customization and innovation in design and printability create new opportunities for manufacturers. The laminate tubes market continues to grow, driven by demand for unique tube packaging in cosmetics, pharmaceuticals, and food. Manufacturers now focus on sustainability by selecting packaging materials that use renewable resources, such as sugarcane PE and bio-resins. Aluminum, used as a barrier layer, offers high recyclability, while recycled and bio-based materials reduce environmental impact.

Tip: Choosing the right material and machine configuration ensures consistent quality and barrier protection for every tube produced on the tube line.

The ability to adjust tube dimensions, select the appropriate barrier layer, and use advanced printability features allows manufacturers to meet customer needs and industry standards. These factors combine to make the lami tube making machine a versatile solution for modern tube packaging.

Laminate Tubes: Standard and Custom Sizes

Standard Sizes

Manufacturers often rely on standard sizes for laminate tubes to streamline production and meet common packaging needs. These sizes help companies maintain consistency and efficiency when using a lami tube making machine. Standard sizes also simplify logistics and inventory management. The most commonly produced standard sizes for laminate tubes fall into several categories based on volume:

Standard Size (ML)
Less than 50 ML
51-100 ML
101-150 ML
More than 150 ML

These categories cover a wide range of products, including cosmetics, pharmaceuticals, and personal care items. Standardization allows manufacturers to optimize the use of laminate materials and barrier layers, ensuring reliable protection for the contents. Companies select standard tube sizes to match the requirements of their packaging lines and to meet industry expectations.

Tip: Standard sizes make it easier to source compatible closures and automate filling processes.

Customization Limits

While standard sizes offer many benefits, manufacturers also seek customization to create unique packaging solutions. They collaborate with suppliers to design tubes with special shapes, closures, and printing features. This approach enables brands to stand out in the market and address specific product needs. Customization allows for adjustments in tube diameter, length, laminate structure, and barrier properties.

However, customization has practical limits. The lami tube making machine must operate within its technical specifications. Extreme changes in tube dimensions may require new tooling or machine adjustments, which can increase costs and extend production timelines. Manufacturers must consider the compatibility of customized tubes with existing packaging equipment and supply chains. They balance innovation with efficiency by using standardized production methods while introducing tailored features.

Manufacturers achieve this balance by fostering partnerships with suppliers. These collaborations support the development of specialized tubes without sacrificing the benefits of standardization. Companies evaluate the impact of customization on production speed, material usage, and barrier performance before making decisions.

Note: Customization enhances branding but may affect production costs and lead times.

Conclusion

A lami tube making machine offers precise control over tube diameter and the desired cylindrical length, supporting a wide range of packaging needs. When selecting a machine, companies should consider material compatibility, production capacity, and specific applications. Machine flexibility in diameter and length enhances long-term planning and cost control.

Aspect	Impact on Long-term Production Planning
Adaptability and Agility	Enables companies to respond to market demands and handle unpredictable challenges effectively.
Efficiency and Resource Utilization	Streamlines processes, reduces downtime, and allows for optimal utilization of production capacity across different sites.
Cost Control and Investment Planning	Facilitates quick adjustments without complex reconfigurations, leading to cost savings and more effective scaling of production capacity.

Customization options, such as multi-layer laminated tube production and automated processes, help manufacturers achieve consistent quality for all tubes.

FAQ

What Is the Smallest Diameter a Lami Tube Making Machine Can Produce?

A lami tube making machine can produce laminated tubes with diameters as small as 12.7 mm. This size suits products like eye creams or travel-sized cosmetics.

How Quickly Can Operators Switch Tube Sizes on the Machine?

Operators can switch tube sizes in about 10 to 15 minutes. The lami tube making machine uses adjustable forming and cutting units for fast changeovers.

Can the Machine Make Both Round and Oval Laminated Tubes?

Yes, the lami tube making machine supports both round and oval shapes. Manufacturers select the shape based on packaging needs and product type.

What Materials Are Used in Laminated Tube Production?

Manufacturers use materials like Aluminum Barrier Laminate (ABL) and Plastic Barrier Laminate (PBL). These materials provide strength, flexibility, and barrier protection for the product.

Are Custom Tube Lengths Possible with a Lami Tube Making Machine?

Custom tube lengths are possible. The machine allows operators to set precise lengths, usually between 40 mm and 200 mm, to match specific product requirements.

If you are interested in our Lami Tube making machine, please fill out below form, or send email to info@lamitubemakingmachine.com.