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DTS ZIG™ RAPTOR
BIODEGRADABLE RAPTOR GRIP GLOVES
DTS Bio Raptor Nitrile Gloves feature an extra-strong zig grip texture for superior control, durability, and enhanced abrasion resistance. The reinforced design provides reliable chemical protection and improved thickness for extra safety in demanding environments.
With Bio Touch biodegradable technology, they achieve over 40% biodegradation within the first year and up to 90% within five years — significantly reducing environmental impact compared to standard nitrile gloves. They are smartphone compatible and meet AQL 1.5 medical standards for pinholes.
They are most suitable for use in the following industries:
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Automotive / Mechanical Work
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Industrial & Manufacturing
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Oil & Gas
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Cleaning Services
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Laboratories
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Agriculture
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General Maintenance
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COLOURS
Colour: Green
SKUs:
SMALL: 7314S
MEDIUM: 7314M
LARGE: 7314L
EXTRA LARGE: 7314XL
DOUBLE EXTRA LARGE: 7314XXL
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BIO-RAPTOR™ EcoGrip Technology is an advanced performance technology for DTS BioRaptor Biodegradable Nitrile Gloves, combining high-strength protection with environmentally responsible innovation. Engineered with an extra-strong zig grip texture, it delivers superior control, enhanced abrasion resistance, and reliable handling in demanding industrial and chemical environments. The reinforced nitrile construction provides increased thickness and durability, forming a dependable barrier against chemicals while maintaining flexibility and user comfort. Designed for high-performance applications, the glove ensures consistent protection without compromising dexterity. Powered by Bio Touch biodegradable technology, BIO-RAPTOR™ EcoGrip Technology enables accelerated material breakdown—achieving over 40% biodegradation within the first year and up to 90% within five years—significantly reducing environmental impact compared to conventional nitrile gloves.
ZIG-ZONE™ Grip Technology is an advanced surface-engineering technology integrated into DTS Zig Nitrile Gloves, developed to deliver optimal grip performance.
Its engineered zigzag microtexture converts each ridge and groove into a high-friction interface, strengthening the connection between the user’s hand and the contact surface. The geometry of the pattern is designed to efficiently distribute pressure and guide motion, ensuring a secure, stable, and consistent grip in both wet and dry conditions. This structured design enhances handling precision while preserving flexibility and tactile sensitivity, enabling controlled performance in demanding applications.
