ROCKWOOL rock wool insulation for industrial applications, roll type, ProRox BL model
Price 882.00 บาท – 2,070.00 บาทPrice range: 882.00 บาท through 2,070.00 บาท
Product Details
ROCKWOOL ProRox BL rock wool insulation is a roll-type rock wool insulation with 0.6 meter width and thickness ranging from 25 mm to 100 mm, with density from 60 kg/m³ to 100 kg/m³, capable of withstanding temperatures up to 650 degrees Celsius.
ProRox BL is rock wool insulation in the ProRox series designed for industrial heat applications, with controlled chloride content in the insulation material to prevent rust formation on metal surfaces.
ROCKWOOL has a melting temperature above 1,000 degrees Celsius and is classified as non-combustible material, eliminating fire concerns, and contains no asbestos mineral fibers, so there are no cancer concerns from rock wool insulation
ProRox BL
ProRox BL rock wool insulation is a ROCKWOOL rock wool insulation in the ProRox series designed for industrial applications requiring higher heat resistance and more certification standards
ProRox BL is a roll-type rock wool insulation used for wrapping heat tanks or boilers, with operating temperatures up to 650 degrees Celsius at a density of 100 kg/m³. Due to its wide operating temperature range, it can be used in various applications
Thermal conductivity
This wire mesh roll-type thermal insulation can withstand temperatures up to 650 degrees Celsius and is certified to ASTM C411 and ASTM C447 standards
It has also been tested for thermal conductivity according to ASTM C117 standard, which measures thermal conductivity within wire mesh blanket insulation. The results are shown in this table:
Thermal conductivity values of ProRox BL
|
Mean Temp (C) |
50 | 100 | 150 | 200 | 250 |
300 |
| Thermal Conductivity (W/m.K) | ||||||
| ProRox BL938-SA |
0.039 |
0.047 |
0.057 |
– |
– |
– |
| ProRox BL958-SA |
0.039 |
0.046 |
0.054 |
0.064 |
0.075 |
– |
| ProRox BL960-SA |
0.041 |
0.049 |
0.057 |
0.066 |
0.074 |
0.083 |
Fire classification and reaction to fire
Due to its melting point above 1,000°C, we tested the insulation for fire classification according to EN13501-1 standard, which categorizes materials from A1 to F based on fire behavior.
Table classifying materials by fire severity
|
Definition |
Classification according to European Standard EN 13501-1 |
||
| Non-Combustible materials |
A1 |
||
|
A2 – s1d0 |
A2 – s1d1 |
A2 – s1d2 |
|
|
A2 – s2d0 |
A2 – s2d1 |
A2 – s2d2 |
|
|
A2 – s3d0 |
A2 – s3d1 |
A2 – s3d2 |
|
| Combustible materials – very limited contribution to fire |
B – s1d0 |
B – s1d1 |
B – s1d2 |
|
B – s2d0 |
B – s2d1 |
B – s2d2 |
|
|
B – s3d0 |
B – s3d1 |
B – s3d2 |
|
| Combustible materials – limited contribution to fire |
C – s1d0 |
C – s1d1 |
C – s1d2 |
|
C- s2d0 |
C – s2d1 |
C – s2d2 |
|
|
C – s3d0 |
C – s3d1 |
C – s3d2 |
|
| Combustible materials – medium contribution to fire |
D – s1d0 |
D – s1d1 |
D – s1d2 |
|
D – s2d0 |
D – s2d1 |
D – s2d2 |
|
|
D – s3d0 |
D – s3d1 |
D- s3d2 |
|
| Combustible materials – highly contribution to fire |
E |
E – d2 |
|
| Combustible materials – easily flammable |
F |
||
“s” Smoke emission level: ranges from 1 (low-no smoke) to 3 (high smoke emission)
“d” Flaming droplets: ranges from 0 (no droplets) to 1 (many droplets)
Table showing levels of smoke production and flaming droplets
|
Additional class |
Level Definition |
||
| Smoke emission during combustion |
S |
1 |
Quantity/speed emission of absent or weak |
|
2 |
Quantity/speed emission of average intensity |
||
|
3 |
Quantity/speed emission of high intensity |
||
| Production of flaming droplets/particles during combustion |
D |
0 |
No dripping |
|
1 |
Slow dripping |
||
|
2 |
High dripping |
||
From the material classification table, we can see that ProRox BL rock wool insulation is classified as A1 material, which is non-combustible, does not produce smoke, and does not create flaming droplets, ensuring it can be confidently used as a fire protection material
Chloride testing
In hot water pipe insulation, a common problem is rust that corrodes the pipe surface and interior. This is often undetectable until the jacket and thermal insulation are removed, by which time significant damage requiring costly pipe replacement may have occurred.
Rust is caused by moisture from water vapor, oxygen, and catalysts like chloride and fluoride, forming brown rust deposits on the pipe surface.
Rust formation on pipe surface due to moisture
We can prevent rust formation in several ways, including cleaning the pipe surface before applying protective coating and maintaining the jacket integrity by not stepping on it.
The ProRox series of insulation reduces the use of chloride water in production, lowering chloride content in the insulation. We tested our insulation according to ASTM C871 standard, which measures chloride, fluoride, silicate, and sodium ion content in thermal insulation to assess potential pipe material damage. Our test results showed only 10 ppm of chloride in the insulation, which is very low and has negligible impact on rust formation.
Moisture and water vapor
Moisture and water vapor accumulation in insulation is another cause of pipe surface rust. Vapor and moisture can come from two sources: inside the pipe (leaks) or outside the jacket. Using ROCKWOOL insulation with an open-cell structure allows easier evaporation of water vapor and droplets compared to closed-cell insulation.
Water droplets will not penetrate the mineral wool insulation and will evaporate on their own
Additionally, ROCKWOOL insulation is treated with silicone water repellent during production, making every fiber water-resistant. If water droplets fall on the insulation, they will bead up, or if water is poured on the insulation, it will flow over the surface like on a car windshield.
We also tested rock wool insulation according to ASTM C1104/C1104M standard to determine water absorption of the rock wool insulation, with test results showing rock wool insulation absorbs only 1% of water by weight
Mineral wool insulation causing cancer
Only in Thailand is there concern about “mineral wool” causing “cancer”. This is a misunderstanding due to translation issues. Mineral wool insulation (ROCKWOOL) and asbestos are confused due to similar terminology. We will explain the difference.
Image of asbestos
Asbestos mineral fibers are naturally occurring mineral groups with white fiber characteristics smaller than 0.1 microns, formed from silicate mineral raw materials. They can disperse in air and fibers can break down continuously into sharp, pointed forms that are carcinogenic
Image of ROCKWOOL insulation
ROCKWOOL rock wool insulation is produced through controlled manufacturing processes using standard machinery that melts basalt and dolomite rocks to spin out fibers sized 4-6 microns. Fibers can break with rounded ends too large to enter lungs and are non-carcinogenic
Table of differences between ROCKWOOL mineral wool insulation and asbestos
|
Difference |
ROCKWOOL mineral wool insulation |
Asbestos |
|
Raw material |
Basalt rock, dolomite |
Silicate mineral group |
|
Source |
Standardized machinery |
Accumulation of silicate minerals |
|
Fiber characteristics |
4-6 microns, rounded fiber ends |
Smaller than 1 micron, sharp fiber ends |
|
Health impact |
Does not cause cancer in humans |
Causes cancer in humans |
| Classification by International Agency for Research on Cancer |
Group 3: Not classifiable as to its carcinogenicity to humans |
Group 1: Carcinogenic to humans |
We can find information about carcinogenic substances from the International Agency for Research on Cancer (IARC). IARC classifies products into 3 groups:
Table classifying carcinogenic substances
|
Group 1 |
Carcinogenic to humans |
|
Group 2A |
Probably carcinogenic to humans |
|
Group 2B |
Possibly carcinogenic to humans |
|
Group 3 |
Not classifiable as to its carcinogenicity to humans |
