E35 Issued in Dec. 2020 TOMBOTM BRAND
Transcript of E35 Issued in Dec. 2020 TOMBOTM BRAND
E35 Issued in Dec. 2020
E35-2012-PDF-AC-ZZ-RE-1712
Fire resistant covering materialMAKIBEE
TOMBO BRANDTM
TM
E35 Issued in Dec. 2020
E35-2012-PDF-AC-ZZ-RE-1712
Fire resistant covering materialMAKIBEE
TOMBO BRANDTM
TM
Opens up the possibility of fire resistantconstruction with advanced performance and environmental consciousness.
● Structure diagram
Rock wool(with fire-resistant and thermalinsulating properties)
Colored non-woven fabric[polypropylene based](for design and dust resistance)
1
* Inorganic materials made into matted fibre used especially for insulation or soundproofing
■ Features 3
■ Construction process 4
■ Installation example 5
■ Specifications 6
■ Physical properties 7
■ Fire resistance capability 8
These days, corporate activities are closely scrutinized for environmental awareness.
In the field of building materials, there is also a need for selection of more environmentally friendly
and clean products as well as reliable quality and performance to support construction.
MAKIBEE™ is a fire resistant covering material comprised of colored non-woven fabric applied to
the surface of blanket made of rook wool* manufactured by NICHIAS.
This lightweight, thin workable structure makes it possible for this material to support applications
that are difficult with conventional methods, while at the same time maintaining an eco-friendly
concept all the way through the process, from the energy required for manufacturing to the
amount of dust produced during and after construction.
This proposal from NICHIAS expands the possibility of fire-resistant construction to the
next generation.
* “TOMBO” is a registered trademark or trademark of NICHIAS Corporation.* Names of products with “TM” are trademarks of NICHIAS Corporation.
Opens up the possibility of fire resistantconstruction with advanced performance and environmental consciousness.
● Structure diagram
Rock wool(with fire-resistant and thermalinsulating properties)
Colored non-woven fabric[polypropylene based](for design and dust resistance)
1
* Inorganic materials made into matted fibre used especially for insulation or soundproofing
■ Features 3
■ Construction process 4
■ Installation example 5
■ Specifications 6
■ Physical properties 7
■ Fire resistance capability 8
These days, corporate activities are closely scrutinized for environmental awareness.
In the field of building materials, there is also a need for selection of more environmentally friendly
and clean products as well as reliable quality and performance to support construction.
MAKIBEE™ is a fire resistant covering material comprised of colored non-woven fabric applied to
the surface of blanket made of rook wool* manufactured by NICHIAS.
This lightweight, thin workable structure makes it possible for this material to support applications
that are difficult with conventional methods, while at the same time maintaining an eco-friendly
concept all the way through the process, from the energy required for manufacturing to the
amount of dust produced during and after construction.
This proposal from NICHIAS expands the possibility of fire-resistant construction to the
next generation.
* “TOMBO” is a registered trademark or trademark of NICHIAS Corporation.* Names of products with “TM” are trademarks of NICHIAS Corporation.
Opens up the possibility of fire resistantconstruction with advanced performance and environmental consciousness.
● Structure diagram
Rock wool(with fire-resistant and thermalinsulating properties)
Colored non-woven fabric[polypropylene based](for design and dust resistance)
1
* Inorganic materials made into matted fibre used especially for insulation or soundproofing
■ Features 3
■ Construction process 4
■ Installation example 5
■ Specifications 6
■ Physical properties 7
■ Fire resistance capability 8
These days, corporate activities are closely scrutinized for environmental awareness.
In the field of building materials, there is also a need for selection of more environmentally friendly
and clean products as well as reliable quality and performance to support construction.
MAKIBEE™ is a fire resistant covering material comprised of colored non-woven fabric applied to
the surface of blanket made of rook wool* manufactured by NICHIAS.
This lightweight, thin workable structure makes it possible for this material to support applications
that are difficult with conventional methods, while at the same time maintaining an eco-friendly
concept all the way through the process, from the energy required for manufacturing to the
amount of dust produced during and after construction.
This proposal from NICHIAS expands the possibility of fire-resistant construction to the
next generation.
* “TOMBO” is a registered trademark or trademark of NICHIAS Corporation.* Names of products with “TM” are trademarks of NICHIAS Corporation.
2 3
CLEAN
SUSTAINABLE
The reduced dust emissions during construction shorten construction time
by allowing other construction work to proceed in parallel.
It has been awarded the rating of “EXCELLENT” as GREEN BUILDING PRODUCT
in Singapore.
ECOLOGY
SAFETY
This thin, lightweight material reduces manufacturing energy per square meter,
and more than half of the material is comprised of slag, a waste material produced
during steel manufacturing. By cutting a dedicated fixing pin, it can be separated
from the steel frame easily, which makes possible to recycle the steel frame.
It can be securely fixed to steel frames by using electric welding
(stud welding) to install dedicated fixing pins and also reduces risk of
falling off or damage due to displacement and vibration in situations
such as earthquakes.
Produced using unique NICHIAS technology,this eco-friendly fire resistant coveringmaterial is highly flexible and can be used ina variety of construction situations.
MAKIBEE™ is a blanket formed fire resistance material created by fiberizing and
collecting molten natural ore and slag melted at high temperatures by centrifugal
force and adhering colored non-woven fabric to it. The advanced thermal
insulation performance of this soft, light and thin material delivers performance
that exceeds conventional fire resistant covering material, leading to its
excellent reputation as a sophisticated material that can be
used in wide variety of applications.
Liquefy
● MAKIBEE™ manufacturing flow chart
Material
Molding
Bonding/cutting
Product
Fiberizing
Slag Natural ore
● TREMENDOUS BENEFITS OF MAKIBEE™1) Faster and shorten installation time • No preparation needed. • No cleaning job required.
2) Improvement on productivity for installation work • About 30%
3) Parallel work can be carried out together with other M&E works
4) Less wastage on material usage • Precut in factory. • Save cost & time.
5) High impact and finished quality work
6) Good and healthy working environment • Due to the product cleanliness.
Features
2 3
CLEAN
SUSTAINABLE
The reduced dust emissions during construction shorten construction time
by allowing other construction work to proceed in parallel.
It has been awarded the rating of “EXCELLENT” as GREEN BUILDING PRODUCT
in Singapore.
ECOLOGY
SAFETY
This thin, lightweight material reduces manufacturing energy per square meter,
and more than half of the material is comprised of slag, a waste material produced
during steel manufacturing. By cutting a dedicated fixing pin, it can be separated
from the steel frame easily, which makes possible to recycle the steel frame.
It can be securely fixed to steel frames by using electric welding
(stud welding) to install dedicated fixing pins and also reduces risk of
falling off or damage due to displacement and vibration in situations
such as earthquakes.
Produced using unique NICHIAS technology,this eco-friendly fire resistant coveringmaterial is highly flexible and can be used ina variety of construction situations.
MAKIBEE™ is a blanket formed fire resistance material created by fiberizing and
collecting molten natural ore and slag melted at high temperatures by centrifugal
force and adhering colored non-woven fabric to it. The advanced thermal
insulation performance of this soft, light and thin material delivers performance
that exceeds conventional fire resistant covering material, leading to its
excellent reputation as a sophisticated material that can be
used in wide variety of applications.
Liquefy
● MAKIBEE™ manufacturing flow chart
Material
Molding
Bonding/cutting
Product
Fiberizing
Slag Natural ore
● TREMENDOUS BENEFITS OF MAKIBEE™1) Faster and shorten installation time • No preparation needed. • No cleaning job required.
2) Improvement on productivity for installation work • About 30%
3) Parallel work can be carried out together with other M&E works
4) Less wastage on material usage • Precut in factory. • Save cost & time.
5) High impact and finished quality work
6) Good and healthy working environment • Due to the product cleanliness.
Features
2 3
CLEAN
SUSTAINABLE
The reduced dust emissions during construction shorten construction time
by allowing other construction work to proceed in parallel.
It has been awarded the rating of “EXCELLENT” as GREEN BUILDING PRODUCT
in Singapore.
ECOLOGY
SAFETY
This thin, lightweight material reduces manufacturing energy per square meter,
and more than half of the material is comprised of slag, a waste material produced
during steel manufacturing. By cutting a dedicated fixing pin, it can be separated
from the steel frame easily, which makes possible to recycle the steel frame.
It can be securely fixed to steel frames by using electric welding
(stud welding) to install dedicated fixing pins and also reduces risk of
falling off or damage due to displacement and vibration in situations
such as earthquakes.
Produced using unique NICHIAS technology,this eco-friendly fire resistant coveringmaterial is highly flexible and can be used ina variety of construction situations.
MAKIBEE™ is a blanket formed fire resistance material created by fiberizing and
collecting molten natural ore and slag melted at high temperatures by centrifugal
force and adhering colored non-woven fabric to it. The advanced thermal
insulation performance of this soft, light and thin material delivers performance
that exceeds conventional fire resistant covering material, leading to its
excellent reputation as a sophisticated material that can be
used in wide variety of applications.
Liquefy
● MAKIBEE™ manufacturing flow chart
Material
Molding
Bonding/cutting
Product
Fiberizing
Slag Natural ore
● TREMENDOUS BENEFITS OF MAKIBEE™1) Faster and shorten installation time • No preparation needed. • No cleaning job required.
2) Improvement on productivity for installation work • About 30%
3) Parallel work can be carried out together with other M&E works
4) Less wastage on material usage • Precut in factory. • Save cost & time.
5) High impact and finished quality work
6) Good and healthy working environment • Due to the product cleanliness.
Features
4 5
①Setting of welding machine
Precautions for product handling
Self-inspection
Drawingconfirmation
Material loading
Material storing
Confirm scaffolding,installation of welding
machine
SettlingArrangements,
setting confirmation
Material cutting
Covering
Processing ofinterface part etc.
Clean up
Provided by TILEMENT
MAKIBEE™ is a build-to-order product.Please confirm the quantity anddelivery time beforehand.
Example of Self-inspection checklist
Is the pitch of the fixed pins appropriate?
Are there gaps in the joint section?
Are there any damaged parts?
Did any of the fixed pins fall?
Are there gaps in the interface section?
Is the construction thickness correct?
● Use manual tools such as a box cutter for cutting. ● Wear a dust mask when handling. ● Wear long-sleeved work clothes and protective gloves. Also, use protective glasses as needed. ● Store so that it will stay dry and avoid exposure to water. ● When disposing of the product, comply with your local legislation. ● Do not place near computing devices. The stud welding work could adversely affect computing devices, such as causing noise on the CRT display.
PreparationConfirm the size of steel beam, necessary thickness of MAKIBEE™ by the drawing.Power on the special pin welding machine.
②Dimensioning and cutting of materialCut MAKIBEE™ blanketUse cutting knife or scissors.The length shall be decided by measuring tape.Pre-cutting at factory also be available by request.
③Fixing the materialInstall MAKIBEE™ blanketLocate MAKIBEE™ blanket based on the drawing and fix welded by pin at the side on beam flange.Welding distance interval shall be less than 300mm.
Finish joint areaMAKIBEE™ blanket has shiplap joint.Minimize the gap of each blanket.If gap generated, fill the MAKIBEE™into gaps.
[Beams – Example of installed figure]
Construction process Installation example
1. MAKIBEE™ rock wool blanket (Factory laminated with tissue) Density: 100kg±20kg/m3 (80-120kg/m3) Size: 900-940mm Width X 20-65mm THK Length: Upon request
2. Fix method Washer hot dip zinc coated steel Size: 30mm DIA X 0.3 or 0.4mm THK Welding pins copper-coated steel Length: 15mm to 55mm
3. Welding spacing must be less than 300mm interval
4. Knife or scissors for cutting
5. Welding machine
* Please read the work procedures before installing.
CHECK LIST:
895~915
fig. 1 Expansion
250~300
fig. 1
30~100
● Example of installation of general part
4 5
①Setting of welding machine
Precautions for product handling
Self-inspection
Drawingconfirmation
Material loading
Material storing
Confirm scaffolding,installation of welding
machine
SettlingArrangements,
setting confirmation
Material cutting
Covering
Processing ofinterface part etc.
Clean up
Provided by TILEMENT
MAKIBEE™ is a build-to-order product.Please confirm the quantity anddelivery time beforehand.
Example of Self-inspection checklist
Is the pitch of the fixed pins appropriate?
Are there gaps in the joint section?
Are there any damaged parts?
Did any of the fixed pins fall?
Are there gaps in the interface section?
Is the construction thickness correct?
● Use manual tools such as a box cutter for cutting. ● Wear a dust mask when handling. ● Wear long-sleeved work clothes and protective gloves. Also, use protective glasses as needed. ● Store so that it will stay dry and avoid exposure to water. ● When disposing of the product, comply with your local legislation. ● Do not place near computing devices. The stud welding work could adversely affect computing devices, such as causing noise on the CRT display.
PreparationConfirm the size of steel beam, necessary thickness of MAKIBEE™ by the drawing.Power on the special pin welding machine.
②Dimensioning and cutting of materialCut MAKIBEE™ blanketUse cutting knife or scissors.The length shall be decided by measuring tape.Pre-cutting at factory also be available by request.
③Fixing the materialInstall MAKIBEE™ blanketLocate MAKIBEE™ blanket based on the drawing and fix welded by pin at the side on beam flange.Welding distance interval shall be less than 300mm.
Finish joint areaMAKIBEE™ blanket has shiplap joint.Minimize the gap of each blanket.If gap generated, fill the MAKIBEE™into gaps.
[Beams – Example of installed figure]
Construction process Installation example
1. MAKIBEE™ rock wool blanket (Factory laminated with tissue) Density: 100kg±20kg/m3 (80-120kg/m3) Size: 900-940mm Width X 20-65mm THK Length: Upon request
2. Fix method Washer hot dip zinc coated steel Size: 30mm DIA X 0.3 or 0.4mm THK Welding pins copper-coated steel Length: 15mm to 55mm
3. Welding spacing must be less than 300mm interval
4. Knife or scissors for cutting
5. Welding machine
* Please read the work procedures before installing.
CHECK LIST:
895~915
fig. 1 Expansion
250~300
fig. 1
30~100
● Example of installation of general part
4 5
①Setting of welding machine
Precautions for product handling
Self-inspection
Drawingconfirmation
Material loading
Material storing
Confirm scaffolding,installation of welding
machine
SettlingArrangements,
setting confirmation
Material cutting
Covering
Processing ofinterface part etc.
Clean up
Provided by TILEMENT
MAKIBEE™ is a build-to-order product.Please confirm the quantity anddelivery time beforehand.
Example of Self-inspection checklist
Is the pitch of the fixed pins appropriate?
Are there gaps in the joint section?
Are there any damaged parts?
Did any of the fixed pins fall?
Are there gaps in the interface section?
Is the construction thickness correct?
● Use manual tools such as a box cutter for cutting. ● Wear a dust mask when handling. ● Wear long-sleeved work clothes and protective gloves. Also, use protective glasses as needed. ● Store so that it will stay dry and avoid exposure to water. ● When disposing of the product, comply with your local legislation. ● Do not place near computing devices. The stud welding work could adversely affect computing devices, such as causing noise on the CRT display.
PreparationConfirm the size of steel beam, necessary thickness of MAKIBEE™ by the drawing.Power on the special pin welding machine.
②Dimensioning and cutting of materialCut MAKIBEE™ blanketUse cutting knife or scissors.The length shall be decided by measuring tape.Pre-cutting at factory also be available by request.
③Fixing the materialInstall MAKIBEE™ blanketLocate MAKIBEE™ blanket based on the drawing and fix welded by pin at the side on beam flange.Welding distance interval shall be less than 300mm.
Finish joint areaMAKIBEE™ blanket has shiplap joint.Minimize the gap of each blanket.If gap generated, fill the MAKIBEE™into gaps.
[Beams – Example of installed figure]
Construction process Installation example
1. MAKIBEE™ rock wool blanket (Factory laminated with tissue) Density: 100kg±20kg/m3 (80-120kg/m3) Size: 900-940mm Width X 20-65mm THK Length: Upon request
2. Fix method Washer hot dip zinc coated steel Size: 30mm DIA X 0.3 or 0.4mm THK Welding pins copper-coated steel Length: 15mm to 55mm
3. Welding spacing must be less than 300mm interval
4. Knife or scissors for cutting
5. Welding machine
* Please read the work procedures before installing.
CHECK LIST:
895~915
fig. 1 Expansion
250~300
fig. 1
30~100
● Example of installation of general part
6 7
Product Specifications
20~40
45~65
Thickness
80~120kg/m3
Product density
925 (915)
925 (895)
End part rabbetingprocessing
Heat resistant material made of rock wool
Surface decorative material
Width
Edge
Thi
ckne
ss
(MAKIBEE™ is a build-to-order product. Please confirm the quantity and delivery time beforehand.)
Unit: mm
Width (working width)
Thermalconductivity
Moisturepermeability
Sound absorptioncoefficients
Measurement agency: TÜV SÜD PSD Singapore Pte Ltd. (April 2013)
Measurement agency: Japan Testing Center for Construction Materials (April 2010)
Moisture permeation coefficientVapor resistance
2842ng/ (m2・s・Pa)0.352×10-3 (m2・s・Pa) /ng
Measured the moisture permeability of a 20mm MAKIBEE™ product perthe flat cup method, as prescribed in JIS A 1324 (moisture permeabilitymeasurement method of building material).
Measurement agency: TÜV SÜD PSD Singapore Pte Ltd. (May 2013)
Remark : Values in bracket ( ) denotes the values of sound absorption coefficient,αs of 1/1 Octave Frequency Bands
100125160200250315400500630800
10001250160020002500315040005000
0.95
1.4
1.3
1.2
160100 125 200 250 315 400 500 630 800 1000 1250 1600 2000 2500 3150 4000 5000
1.1
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
0.95
0.140.200.360.610.790.930.971.031.051.060.991.010.990.970.970.920.910.93
(0.23)
(0.78)
(1.02)
(1.02)
(0.98)
(0.92)
± 0.03± 0.05± 0.05± 0.08± 0.08± 0.07± 0.07± 0.07± 0.05± 0.07± 0.05± 0.04± 0.04± 0.03± 0.03± 0.02± 0.02± 0.02
Measured the sound absorption coefficients according to ASTM C423-09,“Standard test method for sound absorption and sound absorptioncoefficients by the reverberation room method”.
Measured the thermal conductivity (λ) according to ASTM C518: 2010,“Standard test method for steady-state thermal transmission propertiesby means of the heat flow meter”.
λ = 0.0323 [W/mK] At an average temperature of 20°C (0.0278 [kcal/m h K])
1/3 OctaveFrequency (Hz)
1/3 Octave Frequency (Hz)
Noise ReductionCoefficient, NRC
Soun
d A
bsor
ptio
n C
oeffi
cien
t,αs
Sound AbsorptionAverage, SAA
(200Hz- 2500Hz)
“MAKIBEE™” F.R. blankets (Type A mounting)Sound Absorption Coefficient,αs Uncertainty
Measured valuesUpper limit of uncertaintyLower limit of uncertainty
Specifications Physical properties
895~915
250~300
30~100
Washer(Hot-dip zinc-coated steel/t=0.3~0.4mm)
Pin(Copper-coated steel)
❸ Fix method: Welding Pin (fig.1)
❶ Base material: MAKIBEE™❷ Surface material: PP tissue (Already applied at factory)
PART LIST:
fig. 1 Welding Pin
L=15~55
φ2
φ30
❸
❶❷
6 7
Product Specifications
20~40
45~65
Thickness
80~120kg/m3
Product density
925 (915)
925 (895)
End part rabbetingprocessing
Heat resistant material made of rock wool
Surface decorative material
Width
Edge
Thi
ckne
ss
(MAKIBEE™ is a build-to-order product. Please confirm the quantity and delivery time beforehand.)
Unit: mm
Width (working width)
Thermalconductivity
Moisturepermeability
Sound absorptioncoefficients
Measurement agency: TÜV SÜD PSD Singapore Pte Ltd. (April 2013)
Measurement agency: Japan Testing Center for Construction Materials (April 2010)
Moisture permeation coefficientVapor resistance
2842ng/ (m2・s・Pa)0.352×10-3 (m2・s・Pa) /ng
Measured the moisture permeability of a 20mm MAKIBEE™ product perthe flat cup method, as prescribed in JIS A 1324 (moisture permeabilitymeasurement method of building material).
Measurement agency: TÜV SÜD PSD Singapore Pte Ltd. (May 2013)
Remark : Values in bracket ( ) denotes the values of sound absorption coefficient,αs of 1/1 Octave Frequency Bands
100125160200250315400500630800
10001250160020002500315040005000
0.95
1.4
1.3
1.2
160100 125 200 250 315 400 500 630 800 1000 1250 1600 2000 2500 3150 4000 5000
1.1
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
0.95
0.140.200.360.610.790.930.971.031.051.060.991.010.990.970.970.920.910.93
(0.23)
(0.78)
(1.02)
(1.02)
(0.98)
(0.92)
± 0.03± 0.05± 0.05± 0.08± 0.08± 0.07± 0.07± 0.07± 0.05± 0.07± 0.05± 0.04± 0.04± 0.03± 0.03± 0.02± 0.02± 0.02
Measured the sound absorption coefficients according to ASTM C423-09,“Standard test method for sound absorption and sound absorptioncoefficients by the reverberation room method”.
Measured the thermal conductivity (λ) according to ASTM C518: 2010,“Standard test method for steady-state thermal transmission propertiesby means of the heat flow meter”.
λ = 0.0323 [W/mK] At an average temperature of 20°C (0.0278 [kcal/m h K])
1/3 OctaveFrequency (Hz)
1/3 Octave Frequency (Hz)
Noise ReductionCoefficient, NRC
Soun
d A
bsor
ptio
n C
oeffi
cien
t,αs
Sound AbsorptionAverage, SAA
(200Hz- 2500Hz)
“MAKIBEE™” F.R. blankets (Type A mounting)Sound Absorption Coefficient,αs Uncertainty
Measured valuesUpper limit of uncertaintyLower limit of uncertainty
Specifications Physical properties
895~915
250~300
30~100
Washer(Hot-dip zinc-coated steel/t=0.3~0.4mm)
Pin(Copper-coated steel)
❸ Fix method: Welding Pin (fig.1)
❶ Base material: MAKIBEE™❷ Surface material: PP tissue (Already applied at factory)
PART LIST:
fig. 1 Welding Pin
L=15~55
φ2
φ30
❸
❶❷
6 7
Product Specifications
20~40
45~65
Thickness
80~120kg/m3
Product density
925 (915)
925 (895)
End part rabbetingprocessing
Heat resistant material made of rock wool
Surface decorative material
Width
Edge
Thi
ckne
ss
(MAKIBEE™ is a build-to-order product. Please confirm the quantity and delivery time beforehand.)
Unit: mm
Width (working width)
Thermalconductivity
Moisturepermeability
Sound absorptioncoefficients
Measurement agency: TÜV SÜD PSD Singapore Pte Ltd. (April 2013)
Measurement agency: Japan Testing Center for Construction Materials (April 2010)
Moisture permeation coefficientVapor resistance
2842ng/ (m2・s・Pa)0.352×10-3 (m2・s・Pa) /ng
Measured the moisture permeability of a 20mm MAKIBEE™ product perthe flat cup method, as prescribed in JIS A 1324 (moisture permeabilitymeasurement method of building material).
Measurement agency: TÜV SÜD PSD Singapore Pte Ltd. (May 2013)
Remark : Values in bracket ( ) denotes the values of sound absorption coefficient,αs of 1/1 Octave Frequency Bands
100125160200250315400500630800
10001250160020002500315040005000
0.95
1.4
1.3
1.2
160100 125 200 250 315 400 500 630 800 1000 1250 1600 2000 2500 3150 4000 5000
1.1
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
0.95
0.140.200.360.610.790.930.971.031.051.060.991.010.990.970.970.920.910.93
(0.23)
(0.78)
(1.02)
(1.02)
(0.98)
(0.92)
± 0.03± 0.05± 0.05± 0.08± 0.08± 0.07± 0.07± 0.07± 0.05± 0.07± 0.05± 0.04± 0.04± 0.03± 0.03± 0.02± 0.02± 0.02
Measured the sound absorption coefficients according to ASTM C423-09,“Standard test method for sound absorption and sound absorptioncoefficients by the reverberation room method”.
Measured the thermal conductivity (λ) according to ASTM C518: 2010,“Standard test method for steady-state thermal transmission propertiesby means of the heat flow meter”.
λ = 0.0323 [W/mK] At an average temperature of 20°C (0.0278 [kcal/m h K])
1/3 OctaveFrequency (Hz)
1/3 Octave Frequency (Hz)
Noise ReductionCoefficient, NRC
Soun
d A
bsor
ptio
n C
oeffi
cien
t,αs
Sound AbsorptionAverage, SAA
(200Hz- 2500Hz)
“MAKIBEE™” F.R. blankets (Type A mounting)Sound Absorption Coefficient,αs Uncertainty
Measured valuesUpper limit of uncertaintyLower limit of uncertainty
Specifications Physical properties
895~915
250~300
30~100
Washer(Hot-dip zinc-coated steel/t=0.3~0.4mm)
Pin(Copper-coated steel)
❸ Fix method: Welding Pin (fig.1)
❶ Base material: MAKIBEE™❷ Surface material: PP tissue (Already applied at factory)
PART LIST:
fig. 1 Welding Pin
L=15~55
φ2
φ30
❸
❶❷
8 9
(mm)
Designation: Serial size Mass per metre Depth of section[D]
[D] Depth of section[B] Width of section[ t ] Thickness: Web[T] Flange
Width of section[B]
Thickness: Web[t]
Flange[T] Area of section 3 sides shape
coefficient(m-1)(cm2)(mm)(mm)(mm)(mm)(kg)
D t
T
3 sides
B
Fire resistance capability
Hp/A table
3883432892532242012261941761971731471701521401252381791491401241131011221091019282988982746782746760527467605446396757514539335446404842373328254337312825223025
50 55 60 65 70 75 80 85 90 95100105110115120125130135140145150155160165170175180185190195200205210215220225230235240245250255260
20 20
30
35
60
25
55
20
50
45
40
3550
55
60
65
914×419
914×305
838×292
762×267
686×254
610×305
610×229
533×210
457×191
457×152
406×178
406×140
356×171
356×127
305×165
305×127
305×102
254×146
254×102
203×133
921.0911.4926.6918.5910.3903.0850.9840.7834.9769.6762.0753.9692.9687.6683.5677.9633.0617.5609.6617.0611.9607.3602.2544.6539.5536.7533.1528.3467.4463.6460.2457.2453.6465.1461.3457.2454.7449.8412.8409.4406.4402.6402.3397.3364.0358.6355.6352.0352.8348.5310.9307.1303.8310.4306.6303.8312.7308.9304.8259.6256.0251.5260.4257.0254.0206.8203.2
420.5418.5307.8305.5304.1303.0293.8292.4291.6268.0266.7265.3255.8254.5253.7253.0311.5307.0304.8230.1229.0228.2227.6211.9210.7210.1209.3208.7192.8192.0191.3190.5189.9153.5152.7151.9152.9152.4179.7178.8177.8177.6142.4141.8173.2172.1171.5171.0126.0125.4166.8165.7165.1125.2124.3123.5102.4101.9101.6147.3146.4146.1102.1101.9101.6133.8133.4
21.519.419.617.315.915.216.114.714.015.614.312.914.513.212.411.718.614.111.913.111.911.210.612.811.610.910.29.6
11.410.69.99.18.5
10.79.99.18.07.69.78.87.87.66.96.39.18.07.36.96.55.97.76.76.18.98.07.26.66.15.87.36.46.16.46.15.86.35.8
36.632.032.027.923.920.226.821.718.825.421.617.523.721.019.016.231.423.619.722.119.617.314.821.318.817.415.613.219.617.716.014.512.718.917.015.013.310.916.014.312.810.911.28.6
15.713.011.59.7
10.78.5
13.711.810.214.012.110.710.88.96.8
12.710.98.6
10.08.46.89.67.8
494.5437.5368.8322.8285.3256.4288.7247.2224.1250.8220.5188.1216.6193.8178.6159.6303.8227.9190.1178.4159.6144.5129.2155.8138.6129.3117.8104.4125.3113.9104.495.085.4
104.595.085.475.966.595.085.576.068.459.049.485.472.264.657.049.441.868.458.951.560.853.247.541.836.331.455.147.540.036.232.228.438.032.3
455060657580708090708095758590
1005070808090
1001108595
10011012090
100105115130105115125140160105115130145160190105125135155170195115130150125140155175200225120140160170190215145165
As a result of carrying the heating of three sides of the beam based on a BS476: Part21: 1987 test,the thickness required for the each shape coefficient of the steel frame (Hp/A) and fire-resistance time ofMAKIBEE™ is as shown in the following table.
What is the shape coefficient (Hp/A)?The shape coefficient is a variable which greatly affect fire-resistance performance. It is calculated by dividingthe heating perimeter by the cross section of the steel frame.Table 2 indicates the common size of steel frame and quick chart of Hp/A. Only three-side heating on Table 2applies to MAKIBEE™.
Thickness required per indicated fire-resistance time (mm)Shape coefficient (m-1)
90min60min30min 120min 150min
* The thickness indicates a single or laminated layer. The table is for three-side fire-resistant protection of I-shaped steel beams on a concrete floor slab.
* Please refer to Yellow Book
8 9
(mm)
Designation: Serial size Mass per metre Depth of section[D]
[D] Depth of section[B] Width of section[ t ] Thickness: Web[T] Flange
Width of section[B]
Thickness: Web[t]
Flange[T] Area of section 3 sides shape
coefficient(m-1)(cm2)(mm)(mm)(mm)(mm)(kg)
D t
T
3 sides
B
Fire resistance capability
Hp/A table
3883432892532242012261941761971731471701521401252381791491401241131011221091019282988982746782746760527467605446396757514539335446404842373328254337312825223025
50 55 60 65 70 75 80 85 90 95100105110115120125130135140145150155160165170175180185190195200205210215220225230235240245250255260
20 20
30
35
60
25
55
20
50
45
40
3550
55
60
65
914×419
914×305
838×292
762×267
686×254
610×305
610×229
533×210
457×191
457×152
406×178
406×140
356×171
356×127
305×165
305×127
305×102
254×146
254×102
203×133
921.0911.4926.6918.5910.3903.0850.9840.7834.9769.6762.0753.9692.9687.6683.5677.9633.0617.5609.6617.0611.9607.3602.2544.6539.5536.7533.1528.3467.4463.6460.2457.2453.6465.1461.3457.2454.7449.8412.8409.4406.4402.6402.3397.3364.0358.6355.6352.0352.8348.5310.9307.1303.8310.4306.6303.8312.7308.9304.8259.6256.0251.5260.4257.0254.0206.8203.2
420.5418.5307.8305.5304.1303.0293.8292.4291.6268.0266.7265.3255.8254.5253.7253.0311.5307.0304.8230.1229.0228.2227.6211.9210.7210.1209.3208.7192.8192.0191.3190.5189.9153.5152.7151.9152.9152.4179.7178.8177.8177.6142.4141.8173.2172.1171.5171.0126.0125.4166.8165.7165.1125.2124.3123.5102.4101.9101.6147.3146.4146.1102.1101.9101.6133.8133.4
21.519.419.617.315.915.216.114.714.015.614.312.914.513.212.411.718.614.111.913.111.911.210.612.811.610.910.29.6
11.410.69.99.18.5
10.79.99.18.07.69.78.87.87.66.96.39.18.07.36.96.55.97.76.76.18.98.07.26.66.15.87.36.46.16.46.15.86.35.8
36.632.032.027.923.920.226.821.718.825.421.617.523.721.019.016.231.423.619.722.119.617.314.821.318.817.415.613.219.617.716.014.512.718.917.015.013.310.916.014.312.810.911.28.6
15.713.011.59.7
10.78.5
13.711.810.214.012.110.710.88.96.8
12.710.98.6
10.08.46.89.67.8
494.5437.5368.8322.8285.3256.4288.7247.2224.1250.8220.5188.1216.6193.8178.6159.6303.8227.9190.1178.4159.6144.5129.2155.8138.6129.3117.8104.4125.3113.9104.495.085.4
104.595.085.475.966.595.085.576.068.459.049.485.472.264.657.049.441.868.458.951.560.853.247.541.836.331.455.147.540.036.232.228.438.032.3
455060657580708090708095758590
1005070808090
1001108595
10011012090
100105115130105115125140160105115130145160190105125135155170195115130150125140155175200225120140160170190215145165
As a result of carrying the heating of three sides of the beam based on a BS476: Part21: 1987 test,the thickness required for the each shape coefficient of the steel frame (Hp/A) and fire-resistance time ofMAKIBEE™ is as shown in the following table.
What is the shape coefficient (Hp/A)?The shape coefficient is a variable which greatly affect fire-resistance performance. It is calculated by dividingthe heating perimeter by the cross section of the steel frame.Table 2 indicates the common size of steel frame and quick chart of Hp/A. Only three-side heating on Table 2applies to MAKIBEE™.
Thickness required per indicated fire-resistance time (mm)Shape coefficient (m-1)
90min60min30min 120min 150min
* The thickness indicates a single or laminated layer. The table is for three-side fire-resistant protection of I-shaped steel beams on a concrete floor slab.
* Please refer to Yellow Book
8 9
(mm)
Designation: Serial size Mass per metre Depth of section[D]
[D] Depth of section[B] Width of section[ t ] Thickness: Web[T] Flange
Width of section[B]
Thickness: Web[t]
Flange[T] Area of section 3 sides shape
coefficient(m-1)(cm2)(mm)(mm)(mm)(mm)(kg)
D t
T
3 sides
B
Fire resistance capability
Hp/A table
3883432892532242012261941761971731471701521401252381791491401241131011221091019282988982746782746760527467605446396757514539335446404842373328254337312825223025
50 55 60 65 70 75 80 85 90 95100105110115120125130135140145150155160165170175180185190195200205210215220225230235240245250255260
20 20
30
35
60
25
55
20
50
45
40
3550
55
60
65
914×419
914×305
838×292
762×267
686×254
610×305
610×229
533×210
457×191
457×152
406×178
406×140
356×171
356×127
305×165
305×127
305×102
254×146
254×102
203×133
921.0911.4926.6918.5910.3903.0850.9840.7834.9769.6762.0753.9692.9687.6683.5677.9633.0617.5609.6617.0611.9607.3602.2544.6539.5536.7533.1528.3467.4463.6460.2457.2453.6465.1461.3457.2454.7449.8412.8409.4406.4402.6402.3397.3364.0358.6355.6352.0352.8348.5310.9307.1303.8310.4306.6303.8312.7308.9304.8259.6256.0251.5260.4257.0254.0206.8203.2
420.5418.5307.8305.5304.1303.0293.8292.4291.6268.0266.7265.3255.8254.5253.7253.0311.5307.0304.8230.1229.0228.2227.6211.9210.7210.1209.3208.7192.8192.0191.3190.5189.9153.5152.7151.9152.9152.4179.7178.8177.8177.6142.4141.8173.2172.1171.5171.0126.0125.4166.8165.7165.1125.2124.3123.5102.4101.9101.6147.3146.4146.1102.1101.9101.6133.8133.4
21.519.419.617.315.915.216.114.714.015.614.312.914.513.212.411.718.614.111.913.111.911.210.612.811.610.910.29.6
11.410.69.99.18.5
10.79.99.18.07.69.78.87.87.66.96.39.18.07.36.96.55.97.76.76.18.98.07.26.66.15.87.36.46.16.46.15.86.35.8
36.632.032.027.923.920.226.821.718.825.421.617.523.721.019.016.231.423.619.722.119.617.314.821.318.817.415.613.219.617.716.014.512.718.917.015.013.310.916.014.312.810.911.28.6
15.713.011.59.7
10.78.5
13.711.810.214.012.110.710.88.96.8
12.710.98.6
10.08.46.89.67.8
494.5437.5368.8322.8285.3256.4288.7247.2224.1250.8220.5188.1216.6193.8178.6159.6303.8227.9190.1178.4159.6144.5129.2155.8138.6129.3117.8104.4125.3113.9104.495.085.4
104.595.085.475.966.595.085.576.068.459.049.485.472.264.657.049.441.868.458.951.560.853.247.541.836.331.455.147.540.036.232.228.438.032.3
455060657580708090708095758590
1005070808090
1001108595
10011012090
100105115130105115125140160105115130145160190105125135155170195115130150125140155175200225120140160170190215145165
As a result of carrying the heating of three sides of the beam based on a BS476: Part21: 1987 test,the thickness required for the each shape coefficient of the steel frame (Hp/A) and fire-resistance time ofMAKIBEE™ is as shown in the following table.
What is the shape coefficient (Hp/A)?The shape coefficient is a variable which greatly affect fire-resistance performance. It is calculated by dividingthe heating perimeter by the cross section of the steel frame.Table 2 indicates the common size of steel frame and quick chart of Hp/A. Only three-side heating on Table 2applies to MAKIBEE™.
Thickness required per indicated fire-resistance time (mm)Shape coefficient (m-1)
90min60min30min 120min 150min
* The thickness indicates a single or laminated layer. The table is for three-side fire-resistant protection of I-shaped steel beams on a concrete floor slab.
* Please refer to Yellow Book
E35 Issued in Dec. 2020
E35-2012-PDF-AC-ZZ-RE-1712
Fire resistant covering materialMAKIBEE
TOMBO BRANDTM
TM