Does the Lakeland Max series cooling protective suit AMNC428E have CE certification?
Product Name: Lakeland AMNC428E Max Cooling Chemical Protective Suit
Product Name: Lakeland AMNC428E Max Cool Hooded Bodysuit
One-piece style
Functional dustproof
White
Sizes S-XXXL
Antistatic is
Protecting against radioactive particulate matter is
Material: Non-woven fabric
Protection level 5 & 6 /Class D
Compliance standards : EN 340 | EN 1073-2 Radioactive particles | EN 14126 Radioactive media
Elastic cuffs
Obtain CE certification
Edge seam structure: binding
Item number | name | describe |
AMNC428E | Hooded bodysuit | European Standard Class 5 and 6 certifications; passed European EN1149-1 (antistatic), American Standard ASTM F1671 (protection against bacteria , viruses , and contaminated blood ) , and EN 1073-2 (protection against radioactive particles) tests; bound seams; elasticated cuffs at the waist, wrists, and ankles; zippered placket. |
· Edge binding and sewing improve protection against dust and liquids;
· It improves breathability without compromising primary protective performance, making the wearer feel comfortable;
· Typical applications: Paint spraying operations, clean rooms, asbestos control facilities, food processing, electronics, pharmaceuticals, etc.
· The front of the product is made of Max fabric, while the back and above the waist are made of blue, highly breathable SMMS fabric, which makes the entire protective suit breathable and enhances comfort without reducing the front protection capability.
· It has passed the European standard Class 5 and 6 certifications and the tests for European EN1149-1 (antistatic), American standard ASTM F1671 (protection against bacteria , viruses , and contaminated blood ), and EN1073-2 (protection against radioactive particles).
Precautions before using chemical protective clothing:
Chemiosmosis data
When handling chemicals, consult chemical permeability data before using protective clothing to help select the appropriate material. This information is for reference only. The permeability of any material is determined by a range of factors, including chemical concentration, temperature, exposure time, and amount. Due to the vast number of variations, it is impossible to test data for all protective clothing materials against all chemicals, all compounds, or mixtures at all possible temperatures.
Chemical penetration tests are conducted under laboratory conditions, not real-world workplace conditions. They demonstrate the protective properties against chemical penetration but do not account for the effects of physical effects on protection, such as abrasion, flexural fatigue, puncture, tearing, or performance degradation caused by prior contamination. No single protective material can withstand all chemicals under all conditions. ** This refers to chemical penetration testing of the main material of protective clothing under conditions of possible temperature and concentration exposure. **
