orb® Latex Powdered Examination Gloves


The surface of the orb® Latex powdered examination gloves really shows the excellent grip of latex off to advantage.
The surface has gliding quality wherever this is necessary, but at the same time the glove has a good grip even in a moist environment and the instruments can be handled safely.
Ideal tactile sense for sensitive operations.

Catalogue

Functional Benefits

Protection from unwanted or dangerous substances.

Easy donning and helps prevent roll back.

Softness provides superior comfort and natural fit.

Beaded cuff makes donning easy.

Ambidextrous and straight fingers.

Quality Standards

Conforms to ASTM D3578 (05) and EN455 (09) Standards.

Manufactured under QSR (GMP) and ISO9001 : 2008 Quality Management System.

Using FDA approved absorbable corn starch, USP grade.

Glove Size & Packaging

Available sizes Extra Small, Small, Medium, Large, Extra Large

Packaging Each pack contains 200 gloves



Type Powdered & Non-sterille
Material Natural High
Design & Features Ambidextrous; smooth or fully textured surface; beaded cuff; natural white, coloured (blue/green) or mint flavoured
Powder Absorbable cornstarch USP Grade
Storage The gloves shall maintain their properties when stored in a dry condition at temperature not higher than 30°C
Moisture Content Below 0.8% per glove
Shelf-life 5 years from the date of manufacturing
Dimension orb® Glove ASTM D3578 EN 455
Length(mm) Min. 240 Min. 220 (Size XS, S)
Min. 230 (Size M, L, XL)
Min. 240
Width(mm), Extra Small 76 ∓ 3 70 ∓ 10 ≤ 80
Width(mm), Small 84 ∓ 3 80 ∓ 10 80 ∓ 10
Width(mm), Medium 94 ∓ 3 95 ∓ 10 95 ∓ 10
Width(mm), Large 105 ∓ 3 111 ∓ 10 110 ∓ 10
Width(mm), Extra Large 113 ∓ 3 N/A ≥ 110
Thickness - Single Wall(mm), Fingers Min. 0.08 Min. 0.08 N/A
Thickness - Single Wall(mm), Palm Min. 0.08 Min. 0.08 N/A
Property ASTM D3578 EN 455
Elongation at Break (%): Before Aging Min. 650 N/A
Elongation at Break (%): After Aging Min. 500 N/A
Tensile Strength(MPa): Before Aging Min. 18 N/A
Tensile Strength(MPa): After Aging Min. 14 N/S
Force at Break (N): Before Aging N/A Median 6
Force at Break (N): After Aging N/A Median 6