Rubber continuous vulcanization machine
The goal is to vulcanize cleanly at high temperatures. While conventional machines could only handle up to 250°C, by using stainless steel internally and leveraging our unique know-how, we have achieved Japan's first high-temperature compatibility, making it possible to handle temperatures of up to approximately 400°C.
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The goal is to vulcanize cleanly at high temperatures. While conventional machines could only handle up to 250°C, by using stainless steel internally and leveraging unique know-how, we have achieved Japan's first high-temperature compatibility, making it possible to handle temperatures of up to approximately 400°C.
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Applications/Examples of results
1. Ideal for the vulcanization of sponge rubber, it demonstrates even greater effectiveness when used in conjunction with a microwave vulcanization machine. The outer diameter dimension accuracy is stable. 2. It is also optimal for solid rubber vulcanization, especially for items like hoses and tubes that require dimensional accuracy. 3. If you plan to increase production efficiency on an existing line, regardless of whether it involves sponge rubber or solid rubber, you can achieve your goal by incorporating this HTC type into the existing line.
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【Vulcanization Machine】 Designed for clean vulcanization at high temperatures, conventional machines could only handle up to 250°C. However, by incorporating stainless steel internally and utilizing unique know-how, we have achieved Japan's first high-temperature capability, enabling operation at approximately 400°C. 【FV Cleaning Machine】 Generates powerful vibrations in water to clean and process workpieces. The common method for generating vibrations is through ultrasound. However, while ultrasound has a high frequency, its amplitude is small, resulting in weak power. It is effective for hard materials like metal, but for soft workpieces such as fabrics or non-woven materials, the amplitude is absorbed, rendering it ineffective. In this regard, the vibration frequency of the FV washing machine is lower than that of ultrasound, but its amplitude is larger, effectively transmitting vibrations to soft materials like fabrics and non-woven materials.