FREE UK DELIVERY £30+ | FREE UK RETURNS | EU & INT'L SHIPPING

SAME DAY SHIPPING

MSR

Titan Long Spoon

Size:
Colour: Titanium
Titanium
Notify Me When in Stock

The king of backpacking spoons

Is there anything worse than trying to eat your way to the very bottom of your delicious pouch of rehydrated mac n’ cheese and finding your spoon just can’t reach those corners? We’ve even resorted to tearing off the top of the pouch with our teeth just to get those precious last few spoonfuls out. That’s why we love the Titan Long Spoon from MSR – this bad boy will reach the bottom of a deep pouch, and it’s also perfect for stirring the very bottom of a deep pot without burning your fingers.

    • Extra-long spoon for reaching into dehydrated meal pouches
    • Made from lightweight and durable titanium 
    • Spoon bowl is sized for comfortable mouthfeel
    • Carabiner loop handle
    • Dimensions: 21.2 x 4 cm
    • Weight: 20 g
  • A staple of multiple expeditions for more than 50 years, MSR gear is trusted by climbers, mountaineers, explorers and researchers in some of the highest and coldest places on earth. The brand has earned an enviable reputation for turning out reliable, durable, high-performance kit – and has come a long way since its founding by Seattle engineer and lifelong mountaineer Larry Penberthy in 1969. Back then, MSR – or Mountain Safety Research, to use its full moniker – was solely focused on improving the safety of climbing equipment. Why? Because Larry knew that better equipment meant greater adventures.

    Since then, the product range has grown hugely, but the core ethos remains the same. That’s why MSR gear is characterised by its user-led design that prioritises functionality, simplicity and reliability, wherever you roam in the great outdoors – whether you’re on a weekend camping trip, or perched on a portaledge 2,000ft up one of the world’s big walls.

BOUNDLESS SUPPORT

Free UK Shipping £30+

Simple & Free Returns

Brilliant Customer Service

Don't Miss

mgctlbxN$MZP mgctlbxV$5.2.8 mgctlbxL$C