CM80-60

The CM80-60 thermoforming machine is a powerful production solution developed for medium and high-volume production needs, offering efficiency and precision together. Designed to meet the requirements of modern production lines, this model stands out with its optimized mold area, high cycle capacity, and stable operating performance.

Operating compatibly with a wide range of materials such as PET, PP, PS, and PVC, the CM80-60 offers flexible production opportunities across different sectors. Thanks to advanced servo control technology, it ensures repeatable quality in every cycle while minimizing operating costs with low energy consumption.

Bringing speed, quality, and sustainability together in industrial production, the CM80-60 takes your production processes to the next level with its compact structure and powerful performance.

Cag Machine Specifications	CM80-60
Maximum Mold Area	1050 x 620 mm
Maximum Forming Area	800 x 600 mm
Maximum Capacity	40 Cycles
Clamping Force	800 kN
Maximum Positive Depth	20 mm
Maximum Negative Depth	180 mm
Raw Materials	PP, PET, PS, OPS, PLA, CPET, PVC
Total Energy Consumption	60 - 70 kW
Total Installed Power	280 kW
Pressure	8 Bar
Heaters	Ceramix
Servo Motor	SEW
Lubrication	Lubrimac
Pneumatics	SMC
*Technical values are presented in table format; they may vary based on options.

Why is Thermoforming Machine Compatibility According to Raw Materials Important?

Raw Material Compatibility The CM80-60 thermoforming machine is designed to adapt to production plans using PET/PP/PS/PVC plastic sheets. It also provides a suitable framework for PLA bioplastic-oriented thermoforming applications for businesses targeting sustainable products; final compatibility is verified based on product geometry and the process recipe.

Key Features

✓ Optimized Mold Area: Efficient and flexible production with an 800 x 600 mm working area.
✓ High Cycle Performance: Stable speed and uninterrupted line flow in mass production.
✓ Servo-Controlled Precision: Repeatable quality and minimum error margin in all movements.
✓ Modular Line Structure: Flexible use in forming, cutting, and stacking processes.
✓ Wide Material Compatibility: Production flexibility with PET, PP, PS, PVC, and PLA.
✓ Energy-Efficient Design: Low energy consumption with optimized systems.

Quick Summary: The CM80-60 series confidently targets challenging products with its largest working area and 600 kN clamping force.

CM80-60 Series Tilt Mold Thermoforming Machine

Q: What is the Most Critical Parameter in PP and PS Sheet Processing Capacity?

The most critical parameter is 'recipe discipline.' Material compatibility alone is not enough; heating profile, cycle speed, and product geometry must be managed together.

Q: How Should Procurement be Evaluated for Models with High Energy Requirements?

Energy consumption should be evaluated via unit cost along with target product, cycle stability, and waste rate; large areas and high clamping force make energy planning critical.

Q: Why is ISO and CE Compliance Critical in B2B Procurement?

ISO and CE standard compliance is a critical layer of trust; it reduces investment risk and facilitates quality processes.

In Procurement, a thermoforming investment usually relies on a single question: "Will this line produce my target quantity stably?" The CM80-60 Series Tilt Mold Thermoforming Machine answers this question through modern motion control components such as a precision tilting mechanism and a servo-motorized mold movement system, which make the process flow more controlled. This content is designed for users arriving with data-driven search intent to clarify the "what to look for / how to compare" framework.

Briefly, this series maintains production continuity as a thermoforming machine, while aiming to bring the process control advantages of the tilt mold thermoforming machine architecture to the field.

Performance summary: The CM80-60 positions itself as the most powerful model with the largest working area. With 600 kN clamping force, it provides the highest pressure among the three models; since the mold and forming area are the widest, it is more advantageous for large, difficult, or wider products. In return, energy requirements can be evaluated at the highest level within the series.

When searching for a High-Speed Plastic Cup Production Machine, the critical factor is not just speed, but maintaining that speed throughout the shift.

Capacity Managing target cycles and stability together
Waste Form consistency and end-of-line organization
Energy Correctly reading the balance of large area + high force vs. energy

The CM80-60 stands out with its "largest and most powerful line" approach; it offers a robust framework for maintaining form and stable production, especially in wider products.

For products like Automatic Yogurt Container and Bowl Forming Lines, the expectation for "same rim, same form, same order" is even more visible.

Area Wide product range with the largest mold and forming area
Clamping Force Powerful pressure for difficult geometries with 600 kN
Difficulty Level Advantage in large, difficult, or wide products

What Advantages Does Tilt Mold Logic Provide in the CM80-60 Series?

The tilt mold approach contributes to production discipline by making the "position of the mold" more manageable within the process flow. In practice, this helps in designing more controlled product discharge and transport scenarios, maintaining form consistency, and reducing the risk of waste in specific product types. Therefore, when evaluating a series like CM80-60, not only speed but also high clamping force, wide working area, and repeatable quality should be considered.

Which Materials and Products Yield Stronger Results?

The CM80-60 stands out especially for production scenarios planning PP and PS sheet processing, requiring a wider working area and higher clamping force. The determinant here is not just material compatibility; it is the management of product geometry, mold dimensions, target cycles, and end-of-line organization together. This series offers a stronger framework for products with wider surfaces that require form stability and consistent quality throughout the shift.

Suitable Material and Production Scenarios

Packaging production scenarios working with PP sheets
Mass production lines using PS sheets
Product families requiring a wide mold area
Recipe layouts where form consistency is critical

Product Groups with Stronger Results

Wider bowl and container variations
Yogurt containers and similar food packaging
Cup types where high form repetition is expected
Mass production lines requiring organized discharge

Technical Selection Guide for Procurement

What accelerates the Procurement decision is the ability to match technical parameters with "business results." The following guide gathers capacity, waste, energy, and service headings into a single framework, clarifying which questions should come first in a tilt mold thermoforming machine investment like the CM80-60.

Control Heading	Why is it Important?	Key Question for Procurement
Working Area (Mold / Forming)	In large products, the area determines the product portfolio and mold flexibility.	What is the area sufficiency and mold strategy for my target product family?
Clamping Force	Supports form repetition and stability in more difficult geometries.	In which products does 600 kN force make a difference, and how is it verified?
Precision Tilting Mechanism	Supports discharge order by making the process flow more controlled.	What does the tilting motion improve in terms of product discharge and line order?
Servo-Motorized Mold Movement	Provides advantages in motion control, repeatable quality, and recipe consistency.	At what point does servo motion control stabilize quality?
PP and PS Sheet Capacity	Recipe and heating profile are as disciplined as material compatibility.	What is the recommended process range and adjustment logic for PP and PS?
Energy Efficiency	Large areas and high force make energy planning more critical.	In which scenario is energy requirement measured and reported?
Industry 4.0 and Traceability	Continuity increases as alarm and downtime reasons become visible for planned maintenance.	What data is captured for production traceability, and how is it reported?
PLC Control Unit	Consistency in recipe recall and reduction of operator dependency are vital.	What is the standard process for recipe and product changeover via PLC?
Service and Spare Parts	Downtime is the fastest-growing cost item in B2B.	What is the scope of on-site support and critical part availability?

Which Thermoforming Category is More Suitable for Each Production Goal?

The tilt mold structure can be a strong choice for businesses aiming for more controlled product discharge, process flow, and form discipline. However, not every production goal requires the same machine architecture. If cutting standards, station structure, and end-of-line flow create different priorities, choosing the category based on how the production flow will be managed rather than just the product type yields more accurate results.

In-Mold Cutting Thermoforming Machines

Produces more controlled results in facilities wanting to manage forming and cutting together within the same process.

Production focused on smooth edge quality
Need to manage cutting tolerances more strictly
Packaging scenarios with high visual standards

Multi-Station Thermoforming Machines

Offers a strong structure for businesses wanting to scale station-based flow and manage the cycle more modularly.

High-volume mass production scenarios
Station-based flow discipline
More scalable structure at the end of the line

Frequently Asked Questions

For Which Products Does the CM80-60 Series Provide an Advantage?

It provides an advantage in large, difficult, or wider products; specifically on lines seeking forming capability and stability thanks to the widest working area and 600 kN clamping force.

What is the Fundamental Difference Between the CM80-60 and CM75-50?

The CM80-60 is more advantageous for large and challenging products thanks to its 600 kN clamping force and larger mold and forming area. In return, the energy requirement can be evaluated at a higher level.

How Does the Tilting Mold Mechanism Affect Waste?

Designing a more controlled process flow can strengthen form repetition and help reduce the risk of waste caused by irregular output in certain scenarios.

Why is the Servo-Motorized Mold Movement System Important?

Servo motion control provides precision as much as speed. This increases consistency in recipe recall, supporting the goal of "same product, same result" in production.

What is the Most Critical Parameter in PP and PS Sheet Processing Capacity?

The most critical parameter is "recipe discipline." Material compatibility alone is not enough; heating profile, cycle speed, and product geometry must be managed together.

How Should Procurement be Evaluated for Models with High Energy Requirements?

Large working areas and high clamping force make energy planning critical. Evaluating energy consumption via "unit cost" along with target product, cycle stability, and waste rate gives more accurate results.

What Does Industry 4.0 and PLC Control Units Mean for Procurement?

Traceability and recipe management via PLC increase line continuity; for procurement, this means more predictable production costs.

What Should I Look for in Warranty and Service During Procurement?

The warranty period and scope of on-site support must be clearly stated in the quote. Procurement teams most want to see clear phrases like 2-year warranty and on-site technical support because downtime affects total costs.

Why is ISO and CE Compliance Critical in B2B Procurement?

Especially in food packaging, the phrase Production in compliance with ISO and CE standards is a critical layer of trust; it reduces investment risk and facilitates quality processes.

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