EMERSON ? AVENTICS ISO Standard Cylinder - R480637852, 25mm Bore, 20mm Stroke, SSI Series, Double Acting
- RS Stock No.:
- 274-314
- Mfr. Part No.:
- R480637852
- Brand:
- EMERSON ? AVENTICS
Subtotal (1 unit)*
£44.80
(exc. VAT)
£53.76
(inc. VAT)
FREE delivery for orders over £50.00
Temporarily out of stock
- Shipping from 03 November 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units | Per unit |
---|---|
1 + | £44.80 |
*price indicative
- RS Stock No.:
- 274-314
- Mfr. Part No.:
- R480637852
- Brand:
- EMERSON ? AVENTICS
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
---|---|---|
Brand | EMERSON ? AVENTICS | |
Manufacturer Series | SSI | |
Model Number p | R480637852 | |
Action | Double | |
Bore | 25mm | |
Stroke | 20mm | |
Pneumatic Connection | M5 | |
Port Connection | M5 | |
Piston Rod Thread Gender | Female | |
Cushioning Type | Elastic | |
Maximum Operating Pressure | 10 bar | |
ISO Standard | ISO 15524 | |
Maximum Operating Temperature | +80°C | |
Test Weight | 0.071 kg | |
Stroke Interval Weight | 0.027 @ 10 mm kg/mm | |
Minimum Operating Temperature | -20°C | |
Select all | ||
---|---|---|
Brand EMERSON ? AVENTICS | ||
Manufacturer Series SSI | ||
Model Number p R480637852 | ||
Action Double | ||
Bore 25mm | ||
Stroke 20mm | ||
Pneumatic Connection M5 | ||
Port Connection M5 | ||
Piston Rod Thread Gender Female | ||
Cushioning Type Elastic | ||
Maximum Operating Pressure 10 bar | ||
ISO Standard ISO 15524 | ||
Maximum Operating Temperature +80°C | ||
Test Weight 0.071 kg | ||
Stroke Interval Weight 0.027 @ 10 mm kg/mm | ||
Minimum Operating Temperature -20°C | ||
- COO (Country of Origin):
- HU
The Aventics short-stroke cylinder from aventics, Series SSI, is engineered for efficiency and versatility in compact applications. Designed for both double-acting functionality and seamless integration into various machinery, this cylinder offers a lightweight solution ideal for assembly and clamping movements. Its innovative design adheres to the latest ISO standards, ensuring reliability and compatibility whilst achieving up to 30% weight reduction compared to traditional models. The Series SSI excels in environments requiring precise stroke control and adaptive sensor assembly, making it a preferred choice for modern industrial applications. With a robust construction and advanced cushioning properties, this cylinder enhances operational longevity and performance even under demanding conditions.
Compact size allows use in tight spaces
Elastic cushioning optimises stroke performance
Flexible sensor assembly provides installation convenience
Mounting on moving parts is facilitated by its low weight
High-quality materials enhance durability and reliability
Available in multiple piston diameters for diverse applications
Designed to function within a wide temperature range
Industry-standard compatibility ensures ease of integration
Elastic cushioning optimises stroke performance
Flexible sensor assembly provides installation convenience
Mounting on moving parts is facilitated by its low weight
High-quality materials enhance durability and reliability
Available in multiple piston diameters for diverse applications
Designed to function within a wide temperature range
Industry-standard compatibility ensures ease of integration
Related links
- EMERSON ? AVENTICS ISO Standard Cylinder - R412019827 20mm Stroke Double Acting
- EMERSON ? AVENTICS ISO Standard Cylinder - R480637951 20mm Stroke Double Acting
- EMERSON ? AVENTICS ISO Standard Cylinder - R480637833 20mm Stroke Double Acting
- EMERSON ? AVENTICS ISO Standard Cylinder - R412019885 20mm Stroke Double Acting
- EMERSON ? AVENTICS ISO Standard Cylinder - R480637906 20mm Stroke Double Acting
- EMERSON – AVENTICS ISO Standard Cylinder - R480637943 20mm Stroke Double Acting
- EMERSON ? AVENTICS ISO Standard Cylinder - R480637844 20mm Stroke Double Acting
- EMERSON ? AVENTICS ISO Standard Cylinder - R412019819 20mm Stroke Double Acting