UPVC windows, HighClass section, German technology, French glass Original price was: 534.00 AED.Current price is: 504.89 AED.SM
Back to products
SMOKE STATURIO 80*80 GLOSSY Original price was: 28.89 AED.Current price is: 26.89 AED.SM

WHITE 80*80 GLOSSY

SKU: WHITE 80*80

Original price was: 28.89 AED.Current price is: 26.89 AED.SM

Out of stock

13 People watching this product now!

Fast Shipping

Carrier information

20k products

Payment methods

24/7 Support

Unlimited help desk

day Delivery 4-10

Track or off orders

Additional information
WHI CODE

Color

Country of origin

finishing

Size CM

thickness CM

Reviews (0)

Reviews

There are no reviews yet.

Be the first to review “WHITE 80*80 GLOSSY”

Your email address will not be published. Required fields are marked *

You have to be logged in to be able to add photos to your review.

Description

DIMENSION & SURFACE QUALITY (ISO/EN TESTING METHOD A):

1. Dimensional Deviation: The material’s dimensions must adhere to a maximum allowable deviation of ± 0.5% from the specified 80×80 measurements. This conformity is assessed using ISO-10545-2 testing method.

2. Thickness Deviation: The material’s thickness must align within a maximum allowable deviation of ± 5.0% from the specified thickness for 80×80 tiles. This adherence is evaluated using ISO-10545-2 testing method.

3. Straightness of Edges: The edges of the material should maintain straightness with a maximum allowable deviation of ± 0.5%. The ISO-10545-2 testing method confirms this criterion.

4. Rectangularity: The material’s shape must remain rectangular, within a maximum allowable deviation of ± 0.5%. This is examined using the ISO-10545-2 testing method.

5. Surface Flatness: The material’s surface must display flatness with a maximum allowable deviation of ± 0.5% from the 80×80 dimensions. Evaluation is performed according to ISO-10545-2.

6. Color Uniformity: Individual tiles should exhibit no noticeable color variations. The method for testing color uniformity is unspecified (“UnItemed”), but it might align with ISO-10545-16.

Glossiness: The glossiness or surface finish is assessed using a glossometer, although the specific method is not provided.

STRUCTURAL PROPERTIES:

1. Water Absorption: The material must possess a water absorption rate of less than 3%, as determined by the ISO-10545-3 testing method.

2. Density (g/cc): The material’s density should exceed 2.0 g/cc, assessed through the DIN 51082 testing method.

MASSIVE MECHANICAL PROPERTIES:

1. Modulus of Rupture: The material’s minimum modulus of rupture should be 35 N/mm². Testing is carried out using the ISO-10545-4 method.

2. Breaking Strength: The material must have a minimum breaking strength of 1300 N, as evaluated by the ISO-10545-4 testing method.

3. Impact Resistance: The material’s ability to withstand impact is evaluated based on the manufacturer’s guidelines, although the specific testing method is not mentioned.

SURFACE MECHANICAL PROPERTIES:

1. Surface Abrasion Resistance: The material should demonstrate resistance to abrasion according to the manufacturer’s specifications. The method aligns with the manufacturer’s guidelines.

2. MOH’s Hardness: The material’s hardness is assessed using the MOH’s hardness scale, following the manufacturer’s specifications. The EN 101 testing method might be utilized.

3. Skid Resistance (Friction Coefficient): The material’s skid resistance must meet the manufacturer’s specifications. The method aligns with the manufacturer’s guidelines and may be ISO-10545-17.

CHEMICAL PROPERTIES:

1. Frost Resistance: The material should withstand freezing conditions without damage, tested using the ISO-10545-12 method.

2. Chemical Resistance: The material should not incur damage from chemical exposure, evaluated through the ISO-10545-13 testing method.

3. Stain Resistance: The material should resist staining, as determined by the ISO-10545-14 testing method.

THERMAL PROPERTIES:

1. Thermal Shock Resistance: The material should withstand sudden temperature changes, tested using the ISO-10545-9 method.

2. Thermal Expansion: The material’s thermal expansion coefficient must be less than 9 x 10^-6 per degree Celsius, assessed via the ISO-10545-8 method.

3. Moisture Expansion: The material should exhibit minimal expansion due to moisture exposure, evaluated through the ISO-10545-10 method.

These specified characteristics and requirements offer a comprehensive understanding of the material’s performance and properties, specifically tailored for 80×80 dimensions, across various conditions.