F-Type 3-Roll Rubber Calender Machine with 500mm Cylinder Diameter 10kW Power and 1000mm Roll Length for High-Quality Composite Rubber

What is an F-Type 3-Roll Calender?

The "F-Type" refers to the arrangement of the rolls. In an F-type configuration, the three rolls are arranged in a vertical or near-vertical line, resembling the letter "F". The material typically feeds between the top and middle rolls and exits from the bottom (between the middle and bottom rolls).

The "3-Roll" means it has three massive, precisely machined cylinders that rotate in opposite directions to squeeze, smooth, and thin the rubber compound into a continuous sheet.

Key Features and Advantages for High-Quality Composite Rubber

1. Superior Sheet Quality and Dimensional Accuracy:

• Precision Roll Grinding: The rolls are ground to extremely tight tolerances, ensuring perfect cylindricality and surface finish. This eliminates thickness variations.

• Roll Bending Compensation: Modern F-type calenders are equipped with Roll Bending Systems (e.g., hydraulic cross-axis adjustment). This counteracts the natural "bowing" of the rolls under the immense pressure of the rubber, ensuring a perfectly uniform sheet thickness across its entire width.

• Controlled Nip (Gap): The gaps between the rolls (nips) are micro-adjustable, allowing for precise control over the final sheet thickness.

2. Excellent for Composite and Laminated Structures:

• The primary advantage of a 3-roll calender is its ability to perform "Friction Coating" or "Topping".

• Process: A fabric (like nylon, polyester, or steel cord) is fed through the top nip. Simultaneously, a warm, soft rubber compound is fed into the same nip. The speed of the top and middle rolls can be set at a differential (friction ratio), forcing the rubber to penetrate and coat the fabric weave thoroughly.

• The now rubber-coated fabric then passes through the bottom nip, where a second rubber sheet can be laminated onto the other side, or it is simply sized to the final desired thickness with a perfect surface finish. This is essential for products like conveyor belts, tire carcasses, and inflatable rafts.

3. Efficient Heating and Cooling:

• The rolls are cored and designed as heat exchangers. They can be heated with steam, hot water, or thermal oil to a specific temperature profile.

• Why this matters: Precise temperature control is vital for compound viscosity. A hot roll keeps the rubber soft and pliable for processing. A cooler roll can be used at the final nip to "set" the sheet and prevent it from sticking, a process known as "airing" the sheet.

4. Robust Construction and Control:

• Built with a massive, rigid frame to withstand tremendous separating forces without flexing.

• Driven by powerful, variable-speed motors that allow for precise control of roll speeds and friction ratios.

• Integrated with a Programmable Logic Controller (PLC) and Human-Machine Interface (HMI) for storing recipes, automating the process, and ensuring repeatability.

• Technical parameters

Typical Process Flow in an F-Type 3-Roll Calender

Let's visualize the process for making a fabric-reinforced composite rubber sheet:

1. Pre-Feeding: The rubber compound is pre-warmed in an extruder (roller die head) or on a 2-roll mill and fed continuously into the top nip.

2. Fabric Insertion: The fabric substrate is fed into the same top nip, between the rubber compound and the middle roll.

3. Coating (Top Nip): The rubber is forced into the fabric weave under heat and pressure. A speed differential between the rolls enhances penetration.

4. Lamination/Sizing (Bottom Nip): The coated fabric passes to the bottom nip. Here, it can be calendered to its final gauge. Optionally, a second layer of rubber can be fed into this nip to create a symmetrical laminate.

5. Take-Off and Cooling: The finished composite sheet is stripped from the bottom roll by a high-precision take-off conveyor. It then passes over a series of cooling drums to bring its temperature down, stabilizing the dimensions and preventing blocking (sticking to itself when rolled up).

Comparison with Other Calender Types

• Inverted L-Type (4-Roll): More common for simple sheeting and plastic films. Excellent for thickness control but less straightforward for the friction coating process of a 3-roll F-type.

• Z-Type (4-Roll): The rolls are arranged in a Z-pattern. This design minimizes roll deflection without complex bending systems because the separating forces are more in line with the frame. Excellent for very wide, high-precision sheets but can be more complex for fabric coating.

Summary: Why it's Ideal for High-Quality Composite Rubber

The F-type 3-roll rubber calender is the machine of choice because it uniquely combines three critical functions in one continuous, automated process:

1. Precision Sheeting: It produces a rubber sheet with exceptional thickness uniformity and surface quality.

2. Fabric Coating: Its design is inherently suited for forcing rubber into a fabric substrate, creating a strong, void-free bond.

3. Laminating: It can easily combine multiple layers of rubber and fabric into a single, high-performance composite structure.

This makes it an indispensable asset in manufacturing high-tech rubber products where consistency, strength, and precision are non-negotiable.

500mm Cylinder Diameter Rubber Calender Machine

10kW Power 3-Roll Calender

1000mm Roll Length F-Type Calender

F-Type 3-Roll Rubber Calender Machine with 500mm Cylinder Diameter 10kW Power and 1000mm Roll Length for High-Quality Composite Rubber Images