Multifunctional intelligent spinning experiment machine is an advanced equipment for fiber spinning experiment.

1. Main functions

1. With a variety of spinning process simulation capabilities, such as melt spinning, solution spinning, etc., can be flexibly switched according to different experimental needs. For example, when studying the spinning properties of new polymer materials, spinning parameters can be precisely controlled to simulate the conditions of industrial production, providing key data support for product development.

2. Accurate parameter control function, including temperature, pressure, speed and other key parameters. Taking temperature control as an example, accurate temperature regulation can be achieved in a wide range, and the error can usually be controlled within ±1 ° C, which is crucial for some temperature-sensitive spinning materials.

3. Data acquisition and analysis function, which can monitor and record the data in the spinning process in real time, such as spinning tension, fiber diameter, etc. Through the built-in advanced sensors and data processing system, dozens of data points can be collected per second, and can quickly generate detailed experimental reports and data analysis charts, helping researchers to understand the changes in the spinning process.

Second, structure composition

1. Spinning system: including spinneret, spinning pump and other core components. Spinneret designs are varied and can be replaced according to different fiber shapes and specifications, with common spinneret apertures ranging from tens of microns to hundreds of microns. Spinning pump is responsible for the precise delivery of spinning raw materials, the flow control accuracy of up to ±0.1%.

2. Heating and cooling system: used to control the temperature in the spinning process. The use of advanced heating and cooling technology, such as electric heating, water cycle cooling, can quickly respond to temperature changes to ensure the stability of the spinning environment.

3. Control system: composed of high-performance controller and human-computer interface. The operator can easily set and adjust various parameters through the touch screen or computer software to achieve intelligent operation control.

4. Receiving device: responsible for collecting and finishing the spun fibers, with adjustable receiving speed and tension control functions to meet the requirements of different fibers.

3. Application fields

1. In material science research, it can be used to develop new fiber materials, explore the spinning properties of different materials and optimize the spinning process. For example, in the field of high-performance fibers, such as carbon fiber, aramid fiber research and development process, multi-functional intelligent spinning experimental machine plays a key role.

2. In the textile engineering teaching, provide students with an intuitive spinning experiment teaching platform to help students deeply understand the spinning principle and process. Through the actual operation of the experimental machine, students can better grasp the technical points and key links of fiber spinning.

3. In the enterprise product research and development, the enterprise R & D personnel can use the experimental machine to quickly conduct the trial production and performance testing of new products, shorten the product research and development cycle, improve the research and development efficiency and product quality. For example, in chemical fiber enterprises, it is often used to develop functional fiber products with special properties.