An overload on a torque limiter will most likely result in?

When a torque limiter experiences an overload, its primary function is to protect the connected machinery or system from excessive torque. The primary mechanism at play here is slippage, which occurs when the torque exceeds the preset limits of the torque limiter. This slippage allows the torque limiter to disengage and prevent damage to other components in the system, such as motors, gears, or belts.

In essence, slippage is designed as a safety feature, safeguarding the machinery from the detrimental effects of high torque conditions. By enabling slippage, the torque limiter helps to maintain operational integrity and prevent further mechanical failure, allowing the system to continue functioning without catastrophic breakdowns.

Additional outcomes like increased torque, complete failure, or enhanced performance are not typical results of an overload condition in a torque limiter. Increased torque does not occur since the limiter's purpose is to manage and contain torque levels; complete failure suggests a situation where the limiter does not perform its protective function, which is counter to its design; and enhanced performance would not be aligned with the overload scenario, as exceeding safe operating conditions usually leads to reduced efficiency or damage.