Essential technologies are implemented based on structural need, material compatibility, and the demands of repeated use. Each feature is positioned to influence glove behavior at specific stress points, contributing to internal stability and consistent mechanical function.
These technologies are integrated as part of the glove’s design system. Their role is defined by how they support load distribution, motion regulation, or material performance across a range of task environments.
Selection is aligned with application requirements and construction methods. Each inclusion serves a defined structural purpose that contributes to the overall function of the glove.
Air Weave
Breathable knit structure that promotes airflow and heat regulationt
Core Therm
Integrated thermal insulation layer for cold environment protection
Edge Lock
Reinforced cuff architecture designed to hold its shape and prevent fraying
Tru Touch
Fingertip-optimized zones engineered for precision feel and touchscreen interaction
Liqui Block
Fluid-repelling surface treatment bonded to the glove’s exterior
Essential technologies are implemented based on structural need, material compatibility, and the demands of repeated use. Each feature is positioned to influence glove behavior at specific stress points, contributing to internal stability and consistent mechanical function.
These technologies are integrated as part of the glove’s design system. Their role is defined by how they support load distribution, motion regulation, or material performance across a range of task environments.
Selection is aligned with application requirements and construction methods. Each inclusion serves a defined structural purpose that contributes to the overall function of the glove.
Hand protection remains one of the most overlooked areas of occupational safety, despite the hand being the body’s primary point of contact with work.
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