When selecting cranes or hoist equipment for use in outdoor environments, it’s important to choose high-quality, reliable solutions that will be able to withstand extreme temperatures and various weather conditions. When machinery can stand up to even the harshest outdoor conditions, users can rest assured that it will operate reliably throughout the entire project.
When selecting cranes, hoist equipment, and components for outdoor applications, the following features and parts are recommended to ensure optimal reliability and longevity in harsh conditions.
Conductor systems must also be considered when dealing with outdoor service applications, and UV-resistant covers and corrosion-resistant hardware should be employed. Also, keep in mind that hoist operations must typically be curtailed when wind speeds exceed 35 mph.
Incorporating the features above will allow for a much more resilient material handling system. When deciding on a hoist, crane, or component for a particular outdoor application, it’s imperative to carefully consider each piece of equipment before making a final decision; otherwise, operations, workers, and the surrounding environment are all in danger. Working with ill-suited components greatly increases the risk of equipment damage, employee injuries, and lost productivity. These issues can lead to significant costs in terms of both time and money, and can seriously damage a company’s reputation.
It’s also important to consider the effect of bitterly cold temperatures on material handling equipment. When weighing different hoist options, consider choosing equipment that meets the American Society of Mechanical Engineers’ (ASME’s) temperature standards for proper hoist operation. These standards provide a temperature range for optimal equipment operation, and can be hugely useful in guiding industry professionals toward the best solutions for their specific jobs. Below are three relevant ASME standards for outdoor crane applications.
Cold temperatures can have a serious impact on steel, in turn affecting the working capacity of material handling cranes. When exposed to extreme cold, the structure of steel can shift significantly, going from ductile to brittle as conditions become colder and reach the ductile-to-brittle-transition temperature (DBTT). This shift in structure can have a catastrophic, unpredictable impact on cranes and hoist equipment, greatly affecting their performance. While functionality failure caused by cold weather can occur randomly, it can also be a side effect of other stressors, such as cracks and nicks.
Since temperature can have such serious effects on material handling equipment and its ability to perform properly, it’s essential to select machinery that can not only withstand extreme temperatures but also adhere to the strictest industry standards. In fact, in cold-temperature applications, ASME recommends either derating your crane’s capacity or using steel that is better-suited for operation at lower temperatures.
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