Homepage — Pneumatic Products — Pneumatic Cylinders — Stainless Steel Cylinders — Series 94 and 95 Stainless Steel Cylinders — Series 95 Stainless Steel Cylinders cushioned Bore 25mm — Series 95 Stainless Steel Cylinders-25mm bore-400mm stroke
Series 95 Stainless Steel Cylinders-25mm bore-400mm stroke
£505.15Ex. VAT£606.18Incl. VAT
Product Description
The Series 95 Stainless Steel Cylinders Cushioned are engineered to provide reliable performance in demanding industrial applications. With an integrated cushioning system, these cylinders ensure smooth and controlled deceleration at the end of each stroke.
Key Features:
- Stainless Steel Construction: Made from high-grade stainless steel giving excellent corrosion resistance.
- Cushioned Operation: Integrated cushioning system allows for smooth deceleration at the end of each stroke.
- Robust Design: Created for strength and reliability.
- Smooth and Accurate Motion: Precision engineering ensures smooth linear motion.
- Versatile Mounting Options: Compatible with various mounting configurations.
- Low Maintenance: High-quality components result in reduced wear and minimal maintenance requirements.
- Hygienic Design: Smooth surfaces and minimal crevices make these cylinders easy to clean.
Applications:
- Food Processing: Ideal for environments where hygiene and corrosion resistance are critical.
- Pharmaceutical Industry: Ensures compliance with stringent hygiene standards.
- Chemical Industry: Suitable for handling corrosive substances.
- Marine Applications: Perfect for use in marine environments where exposure to saltwater and harsh conditions is common.
The Series 95 Stainless Steel Cylinders Cushioned comply with industry standards for pneumatic cylinders, ensuring they meet safety and compatibility requirements.
Technical Specifications:
- Bore Size Range: Available in various bore sizes to meet different force requirements and application needs.
- Stroke Length: Customisable stroke lengths to suit specific requirements.
- Operating Pressure: Designed to operate efficiently within a specified pressure range.