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DTS TECHNOLOGIES
DTS Technologies represent a new generation of innovation in disposable glove performance, combining advanced material science with precision surface engineering. Designed to enhance protection, comfort, and control, DTS integrates features such as high-performance nitrile formulations, improved elasticity, and optimized thickness for durability without sacrificing tactile sensitivity.
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ZIG-ZONE™ Grip Technology
ZIG-ZONE™ Grip 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.
DUAL-GUARD™ Armor Layer Technology
DUAL-GUARD™ Armor Layer Technology is an advanced protective system engineered into DTS Nitrile Gloves, combining enhanced thickness with dual-layer visual safety. Constructed with two distinct nitrile layers—a durable black outer layer and a high-visibility green inner layer—this technology provides both superior puncture resistance and an immediate breach indicator.
The reinforced outer layer delivers strong protection against tears, abrasions, and sharp objects, while the contrasting inner layer becomes instantly visible if the outer surface is compromised. This dual-colour design enables quick identification of glove failure, helping to maintain safety and hygiene standards in demanding environments.
CRAB-GRIP™ Diamond Force Technology
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CRAB-GRIP™ Diamond Force Technology is a high-intensity surface engineering system delivering maximum raw grip strength for the most demanding industrial environments. Featuring an aggressive raised diamond texture, this technology creates a dense network of multi-point contact zones that provide exceptional traction and control.
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Engineered to perform in heavy-duty, oily, and automotive applications, the pronounced diamond pattern actively channels fluids such as oil, grease, and water away from the contact surface. This ensures consistent grip performance and reduces slippage, even in the most challenging conditions.
FLEX-FIT™ Adaptive Comfort Technology
FLEX-FIT™ Adaptive Comfort Technology is engineered to provide a natural, second-skin feel by conforming to the contours of the hand. The advanced nitrile formulation enhances elasticity and reduces hand fatigue during prolonged use, ensuring consistent comfort without compromising durability. Designed for precision tasks, it allows for superior dexterity and tactile sensitivity.
TEAR-STOP™ Reinforced Strength Technology
TEAR-STOP™ Reinforced Strength Technology incorporates enhanced tensile strength and elasticity to resist tearing under stress. The optimized material structure distributes force evenly across the glove, reducing the risk of sudden failure during demanding tasks.
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BIO-RAPTOR™ EcoGrip Technology
BIO-RAPTOR™ EcoGrip Technology is an advanced performance technologyfor 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.