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Organic Core Board

100% Organic

  • PVC free
  • lastic free
  • Phthalates free

100% Environmentally Friendly

  • Degradable
  • Recyclable
  • Sustainable

100% Real Wood Fiber

  • High thermal insulation power
  • Excellent noise absorption
  • Prevent rapid combustion to
  • slow the spread of fire
  • Regulate air humanity to
  • guarantee a healthy and
  • pleasant indoor climate
  • Comfortable to walk on
Easy Cleaning
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AquaFloor-10
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AquaFloor-11
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AQUA Laminate flooring guarantees 100% resistance to water which allows wet mopping and steam mopping if the sealer isn’t damaged. The easy-cleaning technology has enhanced strain and soil protection to ensure easy cleanup for daily incidents.

100% Waterproof floor—handle daily incidents

  • PETS
    PETS
  • KIDS
    KIDS
  • OOPS
    OOPS

Enhanced Water Resistance

Aqua Laminate Flooring delivers what customers want:resistant to water for longer hours!
Our team group has spent months doing experiments on AQUA Laminate flooring to guarantee that the floor can be submerged in water for hours and is still not swelling. We eventually made it and the ground-breaking success has became the biggest
highlight point of the AQUA Laminate flooring to attract great attention.
 

Submerged in Water Without Being Swelling

Upgraded Performance

Specification of Aqua Floor

No. Item(Aqua Laminate Flooring) Standard
1 Length 1215mm/1510mm
2 Width 165mm/195mm/238mm
3 Thickness 8mm/12mm
4 Wear-resistance AC2/AC3/AC4/AC5
5 Formaldehyde emission < Carb core board
6 Anti-scratch pressure 20N
7 Waterproof ≥ 500 hours
8 Uvioresistant (UV) 6-7level direct rays for 6h/day

Technical Data of Aqua Floor

Latest test results 2020-2021
No. Test Item Test Result Standard Check
1 Critical radiant flux 1.06 W/cm^2 ASTM E648
2 Dimensional stability
and Curling		 Meets or exceeds ASTM F2199-18
3 Formaldehyde Emission 0.07ppm ASTM D6007-14
4 Large Ball Impact
Resistance		 NOT CRACK NALFA LF 01-2011
5 Small Ball Impact
Resistance		 NOT CRACK NALFA LF 01-2011

Technical Data of Aqua Floor

Latest test results 2020-2021
No. Test Item Test Result Standard Check
6 Locking Strength Meets or exceeds ISO 24334:2014
7 Scratch Resistance No visible scratch ISO 1518-1:2019
8 Slip Resistance PASS NALFA LF 01-2011,
ASTM D2394-2017		  
9 Thickness Swell 3.50% NALFA LF 01-2011,
ASTM D6007-14
10 CARB 2 CARB ATCM Phase 2
Compliant		 NALFA LF 01-2011
11 EPA TSCA TITLE VI EPA TSCA Title VI
Compliant		 NALFA LF 01-2011
AquaFloor-38

1. Critical Radiant Flux

Test ltems, Method and Results:
Test Item:Critical radiant flux(Aqua Laminate Flooring)
Test Method:ASTM E648-19a
Conditioning:At temperature of (21 t 3"°C and relative humidity of (50+ 5)% for 72h
 

1 Test Overview

This procedure provides a way of measuring Critical Radiant Flux (the level of incident radiant heat energy on a floor
covering system at the most distant flame out point, reported as w/cm') of horizontally mounted floor covering
systems exposed to a flaming ignition source while being exposed to radiant heat energy from a panel with
approximately a 30* angle from the horizontal.
 

2 Test Procedure

At least three specimens shall be tested. Following the ASTM E648-19a* calibration procedures the first specimen
was loaded into the test chamber. After a 5 min pre -heat time, the pilot flame was placed into contact with the
specimen at the 0 mm mark. The pilot flame is to remain in contact with the specimen for 5 min, then removed. If
the specimen does not propagate flame during the 5 min pilot flame contact, then the test is terminated. For
specimens that do propagate flame, the test is continued until the flame goes out. The distance to the farthest
flame out point is noted, which is then used to determine the Critical Radiant Flux, based on a radiant heat energy
flux profile curve of the apparatus obtained during calibration.

3 Test Result

Specimen 1 2 3
Maximum Distance(mm) 130 110 110
Time to Maximum Distance(min:sec) 16:40 12:51 12:28
Time to All Flame Out(min:sec) 17:25 13:35 13:17
Critical Radiant Flux(W/cm) 1.04 1.07 1.07
Average Critical Radiant Flux(W/cm2) 1.06
Standard Deviation (W/cm) 0.02
Cofficient of Variation (%) 1.63

Observation

Specimen
(min:sec)		 Blistering
(min:sec)		 Discolored
(min:sec)		 Smoking
(min:sec)		 lgnition
(min:sec)
1 3:36 5:07 5:10 5:13
2 3:50 5:09 5:11 5:18
3 3:44 5:06 5:08 5:14

2. Dimensional Stability and Curling

Test ltems, Method and Results:
 
Test Item:Dimensional stability and Curling
Test Method:ASTM F2199-18
Conditioning:
    Temperature:                   23 ℃
    Relative humidity:          50 %
    Duration:                            24 h
   Measure the initial length
Test Condition:
   Temperature:                     82 ℃
   Duration:                             6 h
Reconditioning:
   Temperature:                     23 ℃
   Relative humidity:            50 %
   Duration:                              24 h
   Measure the initial length
 

Test Result:

Specimen Dimensional stability (%) Curling (in.)
Length direction/Machine direction Width direction/Across machine direction
1 -0.08 -0.10 0.001
2 -0.08 -0.10 0.001
3 -0.07 -0.08 0.002
Average -0.08 -0.09 0.001
Max. -0.08 -0.10 0.002

Note:

1. Dimensional stability = (final length - initil length)x100/initial length
A negative value indicates shrinkage, and a positive value indicates expansion
2. Curling = final curling - initial curling = Curl
Express the average value to the nearest 0.001in.

3. Formaldehyde Emission

Test ltems(Aqua Laminate flooring), Method and Results:
 
Test Item:Formaldehyde content test
Test Method:As per ASTM D6007-14 small scale chamber method, 
formaldehyde content was detected by UV-VIS
spectrophotometer.
Test condition:
    Chamber type:                     0.225 m' stainless steel chamber
    Climatic conditions:           25°C, 50% R.H.
    Air exchange rate:              0.5 h1
    Loading factor:                    0.26 m'/m3
   Test result:                              0.07 ppm

Note:

1. ppm = parts of formaldehyde per million parts air
2. Detection limit = 0.02 ppm
3. The sample was conditioned at 24+3。C, 50+5% relative humidity for seven days
 before the testing.
4. Test location: Central Chemical Lab of Intertek Testing Services Ltd., Shanghai
Address: Block B, Jinling Business Square, No.801, Yi Shan Road, Shanghai, China

4. Large Ball Impact Resistance

Test ltems(Aqua Laminate Flooring), Method and Results:
 
NALFA LF 01-2011: Laminate Flooring Specifications and Test Methods
Test items Test Methods Test Results
Large Ball Impact
Resistance		 NALFA LF 01-2011
Section 3.5		 Drop height: 1425 mm
Observation: Not crack
Note:  1. The ball was 224g and 38mm in diameter.

5. Small Ball Impact Resistance

Test ltems(Aqua Laminate Flooring), Method and Results:
 
NALFA LF 01-2011: Laminate Flooring Specifications and Test Methods
Test items Test Methods Test Results
Small Ball Impact
Resistance		 NALFA LF 01-2011
Section 3.6		 Drop height: 525 mm
Observation: Not crack
Note:  1. The ball was 25g and 5mm in diameter.
 

6. Locking Strength

Test ltems, Method and Results:
 
Test Item:              Locking Strength
Test Method:         ISo 24334:2014
Conditioning:       Condition the test specimens at (23+2)°C and (50+5)% relative humidity to constant mass
Test Condition:     Test speed 0.5 mm/min

Test Result:

Long side joint
Parameter Average Result
Maximum locking strength Fmax (N) 1403
Specific locking strength (kN/m) 6.70
Locking strength at 0.2 mm joint opening Foz (N) 1012
Specific locking strength at 0.2 mm joint opening (kN/m) 4.83
Short side joint
Parameter Average Result
Maximum locking strength Fma (N) 1403
Specific locking strength (kN/m) 7.17
Locking strength at 0.2 mm joint opening Foz (N) 951
Specific locking strength at 0.2 mm joint opening (kN/m) 6.53

7. Scratch Resistance

Test ltems, Method and Results:
 
Test Item:             Scratch resistance
Test Method:        With reference to IsO 1518-1:2019
Conditioning:       Condition the test specimens at (23土2)*C and (50 t 5)% relative humidity for at least 16hmass
Test Condition:     
  Scratch stylus:            Hemispherical hard-metal tip of radius (0.5t0 01)mm
 Test speed:                    (35t5) mm/s

Test Result:

Direction Test Load(N) Appearance
Horizontal 20 No visible scratch on the surface.
Vertical 20 Visible scratch on surface, no penetration to core material.
Note:  1. Observation magnification is 4X.
 

Test photos:

  • After test (Horizontal)
  • After test (Vertical)

8. Slip Resistance

Test ltems, Method and Results:
 
NALFA LF 01-2011: Laminate Flooring Specifications and Test Methods
Test items Test Methods Test Results
Slip Resistance NALFA LF 01-2011
Appendix A
ASTM D2394-2017
Coefficient of
Friction		 MD dry condition: Static coefficient mean: 0.59
Sliding coefficient mean: 0.41
MD wet condition: Static coefficient mean: 0.58
Sliding coefficient mean: 0.57
AMD dry condition: Static coefficient mean: 0.57
Sliding coefficient mean: 0.42
AMD wet condition: Static coefficient mean: 0.60
Sliding coefficient mean: 0.58
Note:  1. Observation magnification is 4X.
 

9. Thickness Swell

Test ltems, Method and Results:
 
NALFA LF 01-2011: Laminate Flooring Specifications and Test Methods
Test items Test Methods Test Results
Thickness Swell NALFA LF 01-2011
Section 3.2		 Mean:2.6%
Note:  1. Specimens were submerged under the water for 24 hours.
 
Performance properties-minimum performance values
Usage Level Residential Light Commercial Commercial Heavy Commercial
Property        
Thickness Swell ≤18% ≤16 % ≤16% <s12%
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Whatsapp:+8618915045484
Address:Henglin Town,Wujin District,Changzhou City,Jiangsu Pr. CN
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