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Haglofs L.I.M Low Proof Eco Women's Walking Shoes - B085WPDX35

  • Rubber sole

  • Sage Green

  • Haglofs L.I.M Low Proof Eco Walking Shoes The lightweight trekking shoe, developed with our PROOF Eco membrane technology. Made from a breathable mesh with a waterproof finish. It's also part of our L.I.M range - in which weight is kept to an absolute minimum, without sacrificing any of the performance or durability. Bolstered with reinforcements at key points and built to a clean, streamlined design. PROOF Upper The upper of the L.I.M Proof Eco has been constructed using a waterproof membrane to keep your feet as dry and protected as possible. The fluorocarbon-free PROOF ECO membrane prevents water from entering your shoe as you walk across the varying terrain, encountering all kinds of weather in the process. A rubber toe and inner heel counter have been added to protect both ends of the feet ensuring that the upper is extremely durable keeping your feet safe. Stabilising synthetic leather has been added to the sides of the upper to keep the feet in place whilst on the move ensuring you remain well balanced. The lacing holes have been supported with eyelets ensuring that laces easily go through creating a stress-free experience. A finger loop has been added to the heel of the upper allowing you to easily put on the L.I.M's and take them off. Solyte Midsole The Solyte Midsole is constructed from a spongy material, sitting between the sole and the upper, it is designed to help improve cushioning, lowering overall weight and decrease breakdown. The cushioning compound will actively reduce forces pressed upon the underfoot for a clean stride through a transition. It should keep the foot stabilised as it falls through to midstance and propels you back out with an explosive take off. The Gram Trail is also fitted with GEL rearfoot cushioning for good shock absorption. They are made from fatigue-proof silicone material resulting in a consistently high inertia of the GEL components when subjected to pressure. The material's inertia stabilises the roll-ove

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