Latex Surgical Gloves – Powder Free
Banshi Medicare Surgical Powder Free Gloves are well designed for surgeons featuring the outstanding fit, comfort, performance, latest technology and quality assurance
- 1. Glove stretches and conforms to your hand contour, staying comfortably in place
- 2. Absence of Powder eliminates infection associated with powder, preventing granulomas, adhesions, Fibrosis and occupational Asthma.
- 3. Latex protein no more than 50µg of protein per dm2, eliminates risk of Latex Allergy
QUALITY STANDARDS
- 1. Bioburden and sterility tested
QUALITY CONTROL
- 1. 100% Inspected
- 2. Inspection Level G1 AQL 1.5 for Pin Holes, As per ISO 2859
MATERIAL | Natural high grade NR Latex. |
---|---|
DESIGN & FEATURES | Hand Specific, Beaded Cuff, Micro rough textured |
COATED | Polymer |
EXTRACTABLE PROTEIN LEVEL | < 50 micro mg/dm2 |
POWDER FREE RESIDUE | < 2 mg/glove |
STERILIZATION | Ethylene Oxide. |
STORAGE | The gloves shall maintain their properties when stored in a dry condition at temperature not higher than 40°C |
SHELF LIFE | 3 years from date of manufacturing |
AQL | 1.5 |
PACKING | *One pair in paper wallet and one wallet per peel pouch *50 pouches in dispenser box, 10 boxes in one carton . |
Dimension Properties | Size | UNIPRO Specification | ASTM D 3577 / IS 13422 Standard |
---|---|---|---|
LENGTH (MM) | Min 280 | Min 265 | |
WIDTH (MM) | 5.5 6 6.5 7 7.5 8 8.5 9 |
72 ± 3 78 ± 3 85 ± 3 90 ± 3 98 ± 3 105 ± 3 109 ± 3 115 ± 3 |
70 ± 6 76 ± 6 83 ± 6 89 ± 6 95 ± 6 108 ± 6 108 ± 6 115 ± 6 |
THICKNESS (MM) | Finger Palm Cuff |
0.18 Min 0.15 Min 0.12 Min |
0.10 Min 0.10 Min 0.10 Min |
PHYSICAL PROPERTIES | UNIPRO SPECIFICATION | ASTM D 3577 / IS 13422 STANDARD | |
---|---|---|---|
BEFORE AGEING | Tensile Strength (Mpa) Stress at 500% Elongation (Mpa) Elongation At Break (%) |
26-30 3.0-4.0 800-900 |
24.0 Min 5.5 Max 750 Min |
AFTER AGEING | Tensile Strength (Mpa) Elongation At Break (%) |
20-22 650-850 |
18.0 Min 560 Min |
WATER TIGHTNESS TEST G-1 | G-1 AQL 1.5 | AQL 1.5 | |
PROTEIN CONTENT | 50 µg/ dm2 |