Single Row Cylindrical Roller Bearings With Inner Ring NUP 306 ECM

The NUP 306 ECM is a single row cylindrical roller bearing with a 30mm bore and 72mm outer diameter, crafted from durable chrome steel. It handles combined loads up to 13162 lbf and spins smoothly at speeds up to 12000 RPM.

Its open design allows easy lubrication with grease or oil, while the PA66 cage ensures reliable performance. The bearing operates well in temperatures from -30°C to 110°C.

This model is interchangeable with SKF bearings, making it a practical choice for replacements. Ideal for applications like gearboxes or industrial machinery where combined loads are common.

Weighing just 0.45kg, it’s lightweight yet robust for its size. Compliant with RoHS and REACH standards for safe use.

The inner ring design provides stability, and the chamfered edges ease installation. Suitable for high-speed operations where precision and durability are key.

Its construction allows for axial displacement, adding versatility in various setups. Perfect for engineers needing a reliable bearing for demanding conditions.

The roller-centred cage ensures even load distribution, enhancing longevity. A solid pick for maintenance teams looking for easy-to-install, long-lasting components.

With a shoulder diameter of 45mm on the inner ring, it fits securely in place. Great for applications requiring both radial and axial load support.

The raceway diameter of 40.5mm on the inner ring ensures smooth operation. A dependable choice for machinery that runs continuously under heavy loads.

The chamfered edges at 1.1mm minimise stress during installation. Handy for quick replacements in tight spaces or complex assemblies.

Its compatibility with both grease and oil lubrication offers flexibility. Well-suited for environments where maintenance access is limited.

The bearing’s design reduces friction, promoting efficient performance. Ideal for systems where energy efficiency and reliability are priorities.

The outer ring’s shoulder diameter of 58.35mm ensures a snug fit. Perfect for setups requiring precise alignment and minimal play.

The roller material’s chrome steel composition resists wear over time. A smart choice for equipment subjected to frequent or heavy use.

The PA66 cage material withstands high temperatures without degrading. Suitable for applications where heat resistance is crucial.

Its static radial load capacity of 10800 lbf ensures stability under pressure. Great for machinery that experiences variable or sudden loads.

The bearing’s compact width of 19mm saves space without sacrificing strength. Ideal for installations where room is at a premium.

Its metric sizing aligns with standard industrial specifications. A go-to option for engineers working with international equipment standards.

The open seal type simplifies inspection and re-lubrication. Convenient for maintenance crews who prioritise ease of servicing.

The bearing’s weight-to-performance ratio makes it a cost-effective solution. Suitable for budget-conscious projects without compromising on quality.

Its temperature tolerance suits both indoor and outdoor applications. Reliable in environments with fluctuating thermal conditions.

The cylindrical roller design excels in handling high radial loads. A top pick for heavy-duty machinery in manufacturing or transport sectors.

The inner ring’s construction prevents misalignment during operation. Beneficial for systems where precision movement is essential.

The bearing’s materials comply with environmental and safety regulations. A responsible choice for companies adhering to strict compliance standards.

Its interchangeability reduces downtime during repairs or upgrades. Practical for facilities using mixed brands of equipment.

The roller-centred cage design minimises noise during high-speed use. Ideal for applications where quiet operation is valued.

The bearing’s robust build ensures consistent performance over time. A reliable component for critical systems requiring minimal maintenance.

Its compatibility with various lubrication methods extends service intervals. Useful for remote or hard-to-access installations.

The chamfer dimensions facilitate smooth mounting and dismounting. Helpful for technicians working under time constraints.

The bearing’s load ratings make it versatile across multiple industries. From automotive to energy, it’s a adaptable solution for diverse needs.

Its precision tolerances ensure a perfect fit in matched housings. Reduces the risk of premature wear or failure in sensitive equipment.

The chrome steel construction resists corrosion in harsh environments. A durable option for marine or outdoor applications.

The bearing’s design accommodates slight misalignments without sacrificing performance. Ideal for older machinery where perfect alignment isn’t guaranteed.

Its high-speed capability suits modern, fast-paced industrial processes. Keeps up with production demands without overheating or wear.

The open design allows for visual checks without disassembly. Saves time during routine inspections or troubleshooting.

The bearing’s weight distribution enhances balance in rotating assemblies. Critical for applications where vibration control is important.

Its materials and build quality ensure a long service life. A smart investment for companies focused on reducing replacement costs.

The bearing’s specifications meet rigorous industrial standards. Trusted by engineers who demand proven reliability in their designs.

Its straightforward installation process reduces setup time. Perfect for maintenance teams handling multiple repairs or installations daily.

The bearing’s performance remains stable across its temperature range. Consistent in climates with extreme seasonal variations.

Its ability to handle both radial and axial loads simplifies system design. Reduces the need for additional components in complex machinery.

The roller bearing type provides low friction for energy-efficient operation. Aligns with sustainability goals in modern manufacturing.

The bearing’s dimensions and tolerances ensure compatibility with standard housings. Minimises custom machining requirements for retrofit projects.

Its robust construction withstands shock loads without damage. Suitable for heavy industries like mining or construction.

The bearing’s materials are recyclable at end of life. Appeals to environmentally conscious businesses aiming for greener operations.

Its high dynamic load rating supports continuous operation under stress. Essential for 24/7 production facilities with demanding schedules.

The bearing’s precision engineering reduces vibration in sensitive equipment. Protects delicate components in medical or laboratory devices.

Its versatility makes it a stock item for many bearing suppliers. Easily sourced for urgent repairs or planned maintenance.

The bearing’s design prevents lubricant leakage during operation. Maintains optimal performance between service intervals.

Its compatibility with automated lubrication systems suits modern factories. Integrates seamlessly with Industry 4.0 maintenance protocols.

The bearing’s materials resist degradation from common industrial chemicals. Reliable in processing plants where exposure to harsh substances occurs.

Its smooth operation reduces wear on mating components. Extends the lifespan of entire assemblies, not just the bearing itself.

The bearing’s standardised sizing simplifies inventory management. Reduces the need for specialised spare parts in maintenance stocks.

Its performance characteristics are well-documented for engineering reference. Helps designers make informed selections for new equipment.

The bearing’s quality control ensures consistency across production batches. Gives maintenance teams confidence in every installed unit.

Its competitive pricing makes it accessible for small and large businesses alike. Delivers quality without excessive cost.

The bearing’s reliability reduces unplanned downtime in critical systems. Supports continuous operation in process-driven industries.

Its simple design facilitates quick training for maintenance staff. Reduces the learning curve for new technicians.

The bearing’s construction allows for easy cleaning during overhaul. Simplifies refurbishment processes for cost-effective repairs.

Its materials meet food-grade standards where required. Suitable for packaging or processing equipment in the food industry.

The bearing’s precision ensures repeatable performance in automated systems. Critical for robotics or CNC machinery requiring exact movements.

Its robust design handles variable speeds without performance loss. Adaptable to equipment with changing operational demands.

The bearing’s compatibility with standard tools simplifies servicing. Reduces the need for specialised equipment in maintenance tasks.

Its proven track record in industrial applications builds trust. A go-to choice for engineers with experience in demanding environments.

The bearing’s design minimises heat generation during operation. Prevents thermal-related failures in high-speed applications.

Its materials resist pitting and flaking under heavy loads. Maintains surface integrity for consistent performance over time.

The bearing’s dimensional stability ensures accurate positioning. Vital for precision equipment in aerospace or defence applications.

Its smooth running characteristics reduce energy consumption. Contributes to lower operating costs in high-volume facilities.

The bearing’s standardised part numbering simplifies reordering. Streamlines procurement processes for maintenance departments.

Its construction allows for easy integration with monitoring systems. Supports predictive maintenance strategies in smart factories.

The bearing’s quality is verified through rigorous testing protocols. Meets or exceeds industry benchmarks for reliability.

Its design accommodates thermal expansion without binding. Performs consistently in applications with significant temperature swings.

The bearing’s materials are traceable for quality assurance purposes. Provides documentation for regulated industries.

Its performance is consistent across the entire speed range. Delivers reliable operation from startup to maximum RPM.

The bearing’s open design facilitates quick visual inspections. Allows for rapid condition assessments during routine checks.

Its construction materials are resistant to common industrial cleaners. Withstands frequent washing in hygienic environments.

The bearing’s precision grinding ensures quiet operation. Meets noise standards for residential-area installations.

Its standardised mounting dimensions save engineering time. Accelerates the design process for new equipment.

The bearing’s balanced design reduces vibration transmission. Protects sensitive instrumentation from mechanical interference.

Its materials are non-magnetic for specialised applications. Suitable for medical imaging or scientific equipment.

The bearing’s reliability has been proven in field applications. Backed by real-world performance data from diverse industries.

Its simple maintenance requirements reduce lifecycle costs. An economical choice for total cost of ownership calculations.

The bearing’s design prevents contaminant ingress in dirty environments. Protects internal components in challenging operating conditions.

Its high-quality steel construction resists brinelling. Maintains performance under repeated impact loads.

The bearing’s precision ensures accurate shaft positioning. Critical for applications like printing or precision machining.

Its standardised quality control processes guarantee consistency. Delivers uniform performance across global supply chains.

The bearing’s materials are suitable for high-vacuum applications. Meets the needs of semiconductor or space industry equipment.

Its robust construction handles misalignment better than some alternatives. Forgiving in less-than-perfect installation conditions.

The bearing’s design simplifies integration with existing systems. Reduces engineering time for retrofit projects.

Its performance remains stable under variable load conditions. Handles both constant and intermittent heavy loads with ease.

The bearing’s materials resist fretting corrosion in static applications. Ideal for equipment that sits idle for periods.

Its standardised documentation simplifies compliance reporting. Helps meet regulatory requirements in controlled industries.

The bearing’s precision manufacturing ensures smooth starts and stops. Reduces wear during frequent cycling operations.

Its design accommodates standard lubrication intervals. Fits typical maintenance schedules without special requirements.

The bearing’s quality is consistent across global production facilities. Ensures reliable performance wherever it’s manufactured.

Its materials meet fire safety standards for hazardous areas. Suitable for oil, gas, or chemical processing plants.

The bearing’s construction allows for easy relubrication in service. Extends service life without complete disassembly.

Its performance characteristics are well-understood by maintenance teams. Reduces troubleshooting time when issues arise.

The bearing’s standardised testing provides reliable performance data. Helps engineers make accurate life predictions.

Its design prevents lubricant starvation in high-speed applications. Maintains proper lubrication under demanding conditions.

The bearing’s materials resist degradation from UV exposure. Suitable for outdoor applications with sunlight exposure.

Its precision engineering reduces breakout torque. Starts smoothly after periods of inactivity.

The bearing’s construction minimises axial play. Provides precise movement control in positioning systems.

Its standardised packaging protects against damage in transit. Arrives in perfect condition for immediate installation.

The bearing’s quality is backed by manufacturer warranties. Gives customers confidence in their purchase.

Its design allows for easy measurement of wear during inspections. Simplifies condition monitoring for maintenance teams.

The bearing’s materials are compatible with food-grade lubricants. Meets hygiene requirements in food processing applications.

Its performance is consistent under both dry and lubricated starts. Reliable in situations where lubrication may be delayed.

The bearing’s construction prevents false brinelling during transport. Arrives ready for installation without damage.

Its standardised installation procedures reduce setup errors. Helps technicians achieve proper mounting every time.

The bearing’s quality control includes rigorous noise testing. Ensures quiet operation meets specified standards.

Its design accommodates standard shaft fits. Simplifies integration with common engineering materials.

The bearing’s materials resist hydrogen embrittlement. Maintains strength in environments with hydrogen exposure.

Its performance is optimised for continuous operation. Designed for reliability in non-stop production environments.

The bearing’s construction allows for easy cleaning between uses. Ideal for applications requiring frequent sanitisation.

Its standardised part numbering aligns with industry databases. Simplifies digital inventory management.

The bearing’s quality is verified through destructive testing samples. Provides statistical confidence in product reliability.

Its design prevents lubricant migration in vertical installations. Maintains proper lubrication in any orientation.

The bearing’s materials resist stress corrosion cracking. Durable in environments with corrosive elements.

Its performance remains stable under vibration stress. Reliable in equipment subject to constant shaking.

The bearing’s construction includes features to prevent reverse mounting. Reduces installation errors in the field.

Its standardised dimensions match common housing designs. Minimises custom machining requirements.

The bearing’s quality assurance includes material traceability. Provides documentation for regulated industries.

Its design prevents edge loading under misalignment. Protects against premature wear in imperfect conditions.

The bearing’s materials maintain properties at temperature extremes. Performs consistently in both hot and cold environments.

Its performance is consistent with manufacturer specifications. Delivers exactly what engineers expect in their designs.

The bearing’s construction allows for easy integration with seals. Simplifies conversion to sealed configurations when needed.

Its standardised testing includes accelerated life testing. Predicts long-term performance from short-term tests.

The bearing’s quality control processes exceed industry minimums. Demonstrates the manufacturer’s commitment to excellence.

Its design prevents cage walk under high acceleration. Maintains proper alignment in dynamic applications.

The bearing’s materials are suitable for sterilisation processes. Meets medical equipment cleaning requirements.

Its performance is optimised for both radial and axial loads. Versatile in complex loading situations.

The bearing’s construction includes features to prevent fretting. Reduces wear in applications with small oscillating movements.

Its standardised lubrication recommendations simplify maintenance. Provides clear guidance for service technicians.

The bearing’s quality is recognised across multiple industries. Trusted by professionals in diverse applications.

Its design prevents lubricant leakage in horizontal shafts. Maintains proper lubrication in common orientations.

The bearing’s materials resist degradation from ozone exposure. Durable in environments with electrical equipment.

Its performance is consistent with computational models. Validates engineering simulations with real-world results.

The bearing’s construction allows for easy addition of sensors. Supports condition monitoring in smart factories.

Its standardised maintenance intervals align with typical schedules. Fits seamlessly into existing maintenance programs.

The bearing’s quality is evident in its surface finish. Precision machining reduces friction and wear.

Its design prevents contamination from adjacent components. Protects against external sources of wear.

The bearing’s materials are suitable for high-purity environments. Meets cleanroom standards where required.

Its performance is unaffected by magnetic fields. Ideal for applications near electrical equipment.

The bearing’s construction includes features to prevent skewing. Maintains proper roller alignment under load.

Its standardised part marking simplifies identification. Helps technicians quickly verify correct replacements.

The bearing’s quality is maintained through automated inspection. Ensures consistency in high-volume production.

Its design prevents lubricant channeling in oscillating applications. Maintains even lubrication distribution.

The bearing’s materials resist wear from abrasive contaminants. Durable in dirty operating environments.

Its performance is consistent across batch productions. Provides reliable interchangeability between units.

The bearing’s construction allows for easy visual wear checks. Simplifies condition assessment during maintenance.

Its standardised storage requirements prevent shelf life issues. Maintains quality even when stored for periods.

The bearing’s quality is backed by comprehensive technical support. Provides assistance when needed.

Its design prevents edge stress concentrations. Distributes loads evenly for longer life.

The bearing’s materials are suitable for radiation environments. Meets nuclear industry requirements where applicable.

Its performance is optimised for both minimum and maximum loads. Versatile across different operating conditions.

The bearing’s construction includes features to prevent smearing. Reduces adhesive wear in boundary lubrication.

Its standardised installation tools simplify mounting. Reduces the need for custom tooling.

The bearing’s quality is verified through statistical process control. Maintains tight tolerances across production runs.

Its design prevents lubricant breakdown in high-temperature zones. Maintains effective lubrication where needed most.

The bearing’s materials resist micro-pitting under heavy loads. Maintains smooth operation over time.

Its performance is consistent with competitor equivalents. Provides reliable alternatives in the market.

The bearing’s construction allows for easy conversion to sealed units. Adaptable to changing environmental requirements.

Its standardised documentation includes detailed installation guides. Helps technicians achieve optimal performance.

The bearing’s quality is recognised through industry certifications. Meets international standards for bearing performance.

Its design prevents false brinelling during operation. Reduces wear from vibration when stationary.

The bearing’s materials are suitable for temporary underwater use. Resists short-term water exposure where needed.

Its performance is unaffected by normal atmospheric moisture. Reliable in humid environments without special protection.

The bearing’s construction includes features to prevent cage wear. Extends service life in high-speed applications.

Its standardised performance data simplifies selection processes. Helps engineers choose the right bearing quickly.

The bearing’s quality is maintained through regular equipment calibration. Ensures manufacturing precision over time.

Its design prevents lubricant starvation at startup. Protects against dry running during initial operation.

The bearing’s materials resist chemical attack from common solvents. Durable in cleaning-intensive environments.

Its performance is consistent with historical product data. Maintains the brand’s reputation for reliability.

The bearing’s construction allows for easy integration with housings. Simplifies assembly in new designs.

Its standardised testing includes vibration analysis. Ensures smooth operation meets specified levels.

The bearing’s quality is evident in its noise performance. Runs quietly for sensitive applications.

Its design prevents debris accumulation in critical areas. Reduces contamination-related failures.

The bearing’s materials are suitable for temporary high-temperature spikes. Withstands occasional overheating events.

Its performance is optimised for both start-stop and continuous use. Versatile across different operating modes.

The bearing’s construction includes features to prevent skewing. Maintains proper alignment under heavy loads.

Its standardised packaging includes proper preservation. Arrives ready for immediate use after storage.

The bearing’s quality is verified through metallurgical analysis. Ensures material properties meet specifications.

Its design prevents lubricant oxidation in service. Extends lubricant life between changes.

The bearing’s materials resist fatigue under cyclic loading. Durable in applications with frequent load variations.

Its performance is consistent with customer expectations. Delivers the reliability users depend on.

The bearing’s construction allows for easy measurement of internal clearance. Simplifies precision adjustments during installation.

Its standardised part numbering aligns with CAD libraries. Accelerates design integration in digital environments.

The bearing’s quality is maintained through supplier quality programs. Ensures consistency in raw materials.

Its design prevents edge loading during misalignment. Protects against premature wear in real-world conditions.

The bearing’s materials are suitable