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Translation of Test Report No. (3136/2315) –CM from 2.12.2005 Seite 1
Test Report
DIN EN 1365-2: 2000-02 in conjunction with DIN EN 1363-1: 1999-10
English translation prepared by Hilti
Original signed version in German language from IBMB/MPA Braunschweig
Document No.: (3136/2315) – CM from 2nd of Decemer 2005
Client: Hilti Entwicklungsgesellschaft mbH
Hiltistraße 6
D-86916 Kaufering
Order date: 28th of September 2004
Order Ref.: Mr. Hartmann
Order received: 15th of February 2005
Subject:
Testing the fire resistance of a load-bearing, room closing, 200 mm thick reinforced concrete slab with 100 mm thick Heraklith "Tektalan TK" segmented wood-wool panels; in combination with Hilti IDMS insulating pins with 80 mm retention plates in galvanized zinc-plated steel and Hilti IDMR insulating pins in A2 stainless steel (material number 1.4301) with 80 mm retention plates in galvanized zinc-plated steel, to determine the fire resistance rating for exposure to fire from the underside of the structure.
Test basis: DIN EN 1365-2: 2000-02 in conjunction with DIN EN 1363-1 : 1999-10
Samples received: Week 12 of 2005
Tested on: 31th of March 2005
Valid until: unlimited
This test report contains ….. pages including the title page and 19 annexes.
1 General
TI1e contract provides for the testing of the fire resistance of a 300 mm thick, load-bearing, room
closing, heat insulating floor structure according to DIN EN 1365-2 : 2000-02 in conjunction with DIN
EN 1363-1 : 1999-10, in particular the determination of the fire resistance rating for exposure to fire
from the underside of the structure. The floor structure cornprised:
- a 200 mm thick reinforced concrete slab (concrete cover c = 35 mm) of concrete quality ~
C 20/25 - 100 mm thick Heraklith "Tektalan TK" segmented wood-wool panels in combination with
- Hilti IDMS insulating pins with 80 mm retention plates in galvanized zinc-plated steel and
- Hilti IDMR insulating pins in A2 stainless steel (material number 1.4301) with 80 mm retention
plates in galvanized zinc-plated steel.
The test was carried out as specified by DIN EN 1363-1, and comprised a comprehensive
description of the installation procedure and test conditions, and specification of the results obtained
for the structural component with which this report is concerned. The report does not cover possible
deviations from the standard regarding dimensions, structural details, loads, or stress or boundary
conditions, except those that are permissible under the test procedure for direct application to
similar, untested, floor structures.
Owing to the particular circumstances applying to the fire resistance rating test, and the problems
arising from these in quantifying the uncertainties involved in measuring the fire resistance rating, it
is not possible to specify a precise uncertainty range for the results.
The Materials Testing Institute Braunschweig (German: Materialprüfungsanstalt Braunschweig) was
not responsible for the choice of the test specimen.
2 Description of the test structure
The load-bearing, room closing, heat insulating floor structure to be tested consisted of a 200 mm
thick reinforced concrete slab (concrete cover c =35 mm) to which to a 100 mm thick Heraklith
"Tektalan TK" segmented wood-wool panel was fixed using Hilti IDMS insulating pins with 80 mm
retention plates in galvanized zinc-plated steel and Hilti IDMR insulating pins in A2 stainless steel
(material number 1.4301) with 80 mm retention plates in galvanized zinc-plated A2 stainless steel
(material number 1.4301).
The 200 mm thick reinforced steel concrete floor slab having the dimensions of 1910 rnrn x 5000 rnm
(W x L) was tested in respect of its qualities as a floor element in a horizontal position with line
loading according to DIN EN 1365-2: 2000-02. A Heraklith "Tektalan TK" segmented wood-wool
panel having the dimensions of 500 mm x 1000 mm x 100 mm (485 mm x 985 mm x 100 mm) (W x
L x H) was fixed to the reinforced concrete slab. The Heraklith "Tektalan TK" segmented wood-wool
panels consisted of an approx. 90 mm thick Heralan mineral wool fiber core positioned at right
angles to the surface of the slab and covered on both sides with approx. 5 mm thick magnesium
impregnated wood-wool cladding. The panel was. The Heraklith "Tektalan TK" segmented wood
wool panels were provided with a rabbet edge having a step width of 15 mm. To fix these, holes
(08.0 mm) were bored through the Heraklith "Tektalan TK" segmented wood-wool panels into the
reinforced concrete slab, in which the IDMS or IDMR insulating pins were driven using a hammer.
For each segmented panel, six IDMS or IDMR insulating pins (08.0 mm x 170 mm) and
corresponding retention plates (0 80 mm) were used. The positioning of the insulating pin dowels is
shown in Annex 1.2.
The gap between the floor structure and the wall was stuffed with mineral wool (material class A1
according to DIN 4102-01; melting point> 1000CC).
The test specimen was supported on a side wall of the furnace.
Note that a 50 mm thick Heraklith "Tektalan TK" segmented wood-wool panel was installed
additionally on the floor of the fire room. The temperatures measured at the top of the slab are given
in Annex 2.7.
Further details on the construction of the floor structure are given in Annexes 1.2 ff. of this report.
3 Test specimen and material properties
The strength and humidity of the test specimen at the time of testing corresponded approximately to
the values that pertain in normal use.
The material classification, data on specific weights per m2, absolute densities and humidity of the
test specimen and the building matertals contained in it are given in Annex 1.5.
4 Test layout and performance
The test specimen described in Section 2 was installed by the client's specialists in the form of a
horizontal room closure above a fire room having the overall dimensions of 4000 mm x 1910 mm
(Iength x width =Lexp x W exp) .
The floor slab was loaded by four line loads at right angles to it and positioned at 1/8 land 3/8 I (I = supported span) from each support. The line loads were applied via four load distribution beams and
two hydraulic presses, each with a total load of 39.89 kN, in accordance with the layout given in DIN
5
1045-1 : 2001-07 for the determination of breaking load (under consideration of the weight of the
slab itself and that of the loading equipment).
The fire room was flame heated in accordance with the standard temperature-time curve according
to DIN EN 1363-1 : 1999-10, Section 5.1.1. The temperatures in the fire room were measured using
six plate thermometers ("plates") with Ni-Cr/Ni-AI thermocouples (type K), D 1.0 mm, according to
DIN EN 1363-1 : 1999-10, Section 4.5.1.1, and positioned at a distance of a =100 mrn from the
underside of the heated surface as specified in DIN EN 1365-2 : 2000-02, Section 9.11(a).
During the test, the static overpressure in the fire room on the upper side of the test specimen
corresponded to the value given in Annex 2.11.
The temperatures in the layer between the concrete slab and the Heraklith "Tektalan TK" segmented
wood-wool panels were measured by 19 thermocouples as specified in DIN EN 1363-1, Section
4.5.1.2. Furthermore, the concrete slab was provided with three sensor cables, each having 5
thermocouples, to rneasure the temperatures at intervals of 10 mm from the underside of the slab.
The sensor cables were situated at intervals of Lexp/4 from one end, where Lexp is the length of the
slab. The temperatures on the unheated side of the test specimen were measured by one NiCr-Ni
thermocouple, IJ 0.5 mm.
Annex 1.2 shows the position of the measurement points.
The vertical deflection of the test specimen was measured at the center as specified in DIN EN
1365-2 : 1999-10, Section 9.3, and shown in Annex 2.9.
A schematic of the test arrangement, the position of the thermocouples in the furnace, the positions
of the pressure measurement points and that of the deflection point are given in Annexes 1.1 ff.
Test results and observations
The test results for the temperature rise above the initial temperature on the unheated side of the
test specimen, and within the body of the specimen, the temperatures in the fire room, the ambient
temperature, the deflection of the test specimen, the error function and the differential pressure are
shown graphically in Annexes 2.1 to 2.11.
The observations made during the test are shown in Annex 2.12.
6 Summary of the test results and performance criteria according to DIN EN 1365-01 : 199910 in conjunction with DIN EN 1363-1 : 1999-10
The test on the 300 mm thick load-bearing, room closing, heat insulating floor structure consisting in
the main of a 200 mm thick reinforced concrete slab (concrete cover c =35 mm) in concrete quality
~ C20/25 and 100 mm thick Heraklith "Tektalan TK" segmented wood-wool panels in conjunction
with Hilti IDMS insulating pins with 80 mm retention plates in galvanized zinc-plated steel and Hilti
IDMR insulating pins in A2 stainless steel (material number 1.4301) with 80 rnrn retention plates in
galvanized zinc-plated steel was carried out on 31.3.05 to determine the fire protection qualities
according to DIN EN 1365-2: 2000-02 in conjunction with DIN EN 1363-1 : 1999-10, that is, to
determine the fire resistance rating for exposure to fire on the underside of the structure.
The summary of the test results and performance criteria according to DIN EN 1365-2 : 2000-02 in
conjunction with DIN EN 1363-1 : 1999-10 for load-bearing, room c1osing, heat insulating floor
structures for fire exposure to the underside of the structure as shown in Table 1 of this report.
7
Table 1 Test results and performance criteria according to DIN EN 1365-2 : 2000-02 in conjunction with DIN EN 1363-1: 1999-10 for load-bearing, room closing, heat insulating floor structures for fire exposure to the underside of the structure
Une Referenc e
Description Test Results
Data according
to
DIN EN 1363-1: 1999-10
Description Test specimen 1
Section:
1 I--
2
11.1 Load-bearing capacitv
Limiting value for vertical deflection
Limiting value for vertical rate of deflection
The Iimiting value was exceeded after
The limiting value was exceeded after
min.
min.
-3 11.2 Room closure
Inflammation of the cotton wadding
Inflammation of the cotton wadding occurred after mln."
-4 i.e. avoidance of: Appearance of cracks
A feeler gauge could be pushed through after rnln."
5 Appearance of f1ameson the unheated side
Continuous flame penetration occurred after min.
6 11.3 Heat insulation(2): Test duration in minutes 30 60 90 110
7 - Temperature on the concrete slab max. measured temperature: individual values in K 0 1 4 7
- Temperature between the concrete slab and the segmented wood-wool panel
223 [MP 12]
368 [MP 12]
1029 [MP 12]
1041 [MP 10]
8 - Temperature in the sensor cables (with 10 mm concrete cover)
max. measured temperature:
individual values in "C: 47
[MP31] 196
[MP 31] 285
[MP 31] 537
[MP 31]
- Temperature in the sensor cables (with 20 mm concrete cover):
33 [MP 32]
123 [MP32]
155 [MP32]
281 [MP 27]
-9
10
5.6
Ambient temperature in the laboratoryat beginning of test
The ambient temperature rose/fell during the test by max.
20 'C
0.9 K
11 5.2.2.1 Other data Pressure in the fire room according to DIN EN 1363-1 : 1999-10,
Annex 2.11
12 ....13 ....14
10.4.4
Test duration in minutes
Deflection at center of slab
110(3)
70.2 mm
(1) Test unnecessary and therefore not performed (2) As opposed to the procedure given in DIN EN 1362-2: 2000-02, a single measurement point only was provided on the unheated
side, which showed a maximum temperature rise of less than 7 K (3) The majority of the segmented wood-wool panels fell into the fire room. From then onwards the concrete slab was unprotected
and therefore subjected directly to the heat.
Conclusions based on DIN EN 1365-2 : 2000-02 in conjunction DIN EN 1363-1 : 1999-10, and recommendations
The following Table 2 surnmarizes the main test results based on the performance criteria specified
in DIN EN 1365-2 : 2000-02 in conjunction with DIN EN 1363-1 : 1999-10.
8
labia 2 Performance criteria in accordance with DIN EN 1365-2 : 2000-02 in conjunction with DIN EN 1363-1 : 1999-10 for load-bearing, room closing, heat-insulating floor structures for exposure to fire on the underside of the structure.
Criteria according to the standard Failure after [minutes]
R Load-bearing capacity 110 (1)
E Room closure (continuous appearance of flames, cotton wadding, feeler gauge)
110 (1)
I Heat insulation 110 (1)
(1) The test was terminated after 110 minutes, since most of the floor panels had fallen off.
On the basis of the test results obtained (see Tables 1 and 2) over the duration of the test from the
beginning of flame heating up to the end of the test of 110 minutes, it can be recommended that for
the floor structure tested with regard to load-bearing capacity, roorn closure and heat insulation, and
line loads positioned as for the determination of the breaking load (under consideration of the weight
of the structure itself and that of the loading equipment (see Section 4)), and exposure to fire on the
underside of the structure, it can be recommended in accordance with DIN EN 13 501-2 : 2003-12
that the structure be assigned the fire resistance class REI 90 or RE 90.
Range of applicability in accordance with DIN EN 1365-2 : 2000-02, Section 13
The test results are directly applicable to similar, untested, floor structures on condition that the
following applies with regard to the load-bearing component:
- The maximum moments and transverse loads on the test specimen are not exceeded, the
calculation of these being based on the method for determining the permissible load.
- The concrete cover must be c ~ 15 mm. For corrosion protection, layout of the reinforcement
cage, etc., further evidence of compliance is required.
i.A. RR Dr. Ing. Nause Dipl.-Ing. Maertins Leiterder Prüfstelle Sachbearbeiter
List of Annexes
Annex 1.1 Test arrangement
Annex 1.2 Design and position of the furnace thermocouples, measurement points
and loading
Annexes 1.3 - 1.4 Installation layout and design data
Annex 1.5 Material properties
Annex 2.1 Temperatures in fire room
Annexes 2.2-2.7 Temperatures in test specimen
Annex 2.8 Ambient temperature
Annex 2.9 Deflection of test specimen
Annex 2.10 Error function
Annex 2.11 Differential pressure in fire room
Annex 2.12 Observations during the fire test
The drawings in Annexes 1.2 ff. were made available by the client. The design data of the test
specimen were verified by the testing institute.
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P01 - P02 Pressure measurement sensor
Test arrangement
Dimensions in mm
Annex 1.1 of
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire Prevention of the
Technical University Braunschweig
Test Report
No.(3136/2315) -CM
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ftoor (unheated side)
Design and position of the furnace thermocouples, measurement points and loading
Annex 1.2 of
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire Prevention of the
Technical University Braunschweig
Test Report
No.(3136/2315) -CM
Installation layout / design data Hilti IDMS insulating pins / Hilti IDMR insulating pins
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire Prevention of the
Technical University Braunschweig
Annex 1.3 of
Test Report
No.(3136/2315) -CM
Setting details on IDMS / IDMR Insulating pin
Isolierdorn IDMS 0/3 IDMS 3/6 IDMS 6/9 IDMS 9/121) IDMS 12/15
Setting details IDMR 0/3 IDMR 3/6 IDMR 6/9
t f ix [mm] 0 - 30 30 - 60 60 -90 90 - 120 120 - 150
h1 [mm]
l [mm] 80 110 140 170 200
t f ix [mm] 8
Drill
60
TE-CX-8/22
Dimensions in mm
--
r 1485·mm 500·mm
l L _ J 1000mm
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985·mm1- -I +-+E ® E
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Dimensions in mm
Design data Heraklith "Tektalan TK" segmented wood-wool panels
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire Prevention of the
Technical University Braunschweig
Annex 1.4 of
Test Report
No.(3136/2315) -CM
Thick- Absolute Material ness
Speci'ficManu-facturerMaterial Humidit~ density(1) content' ) weight classification.
at installation time Certification mark
mm kg/m 3 % bywt.kg/m 2
B1: according to segmented panel according
HeraklithTektalan TK wood-wool GmbH 16.9 169.2 4.0 DIN 4102-04 :
to DIN EN 13168 100
Simbach 1994-03
A1: according to -Reinforced concrete slab -(1) -(1) -(1)200 DIN 4102-04 :
1994-03 B 25 according to DIN 1045
A1: according to HiltiIDMS pin DX51D, material 06.8 -(1)-(1) -(1) DIN 4102-04 : Entwicklungsnumber 1.0226 +Z (5.4)
GmbH 1994-03according to DIN EN 10142
A1: according to HiltiIDMR pin 06.8 -(1)-(1) -(1) DIN 4102-04 : EntwicklungsA2 stainless steel (5.4) 1994-03GmbH(material number 1.4301)
Pressed retention plate (t = A1: according to 0.5 mm), DX51D, material -(1) -(1) -(1) DIN 4102-04 : Heraklith 80.0number 1.0226 +Z, 1994-03according to DIN EN 10142
(1) not determined
Material properties
Annex 1.5 of
Material Testing Laboratory for Architecture Test Report Department for Building Materials, Solid Building and Fire Prevention of the
Technical University Braunschweig No.(3136/2315) -CM
ETK DIN EN 1363-1
1200 -r----.---.----,
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1000
800
600
400
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1-- Soll. -- Min. -- Max. -X-T31 -)K-T32 ~T33 -+-T34 --T35 -T36!
Date of Test: 31.03.05
Temperature in the fire room Test 1
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire
Prevention of the Technical University Braunschweig
Annex 2.1 of
Test Report
No.(3136/2315) -CM
I 1200
1000
800
600
400
200
Metering point between Reinforeed Conerete Floor and Tektalanpanel
I I I I I I
I I I I I I
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Ternperature in Test Itern
Material Testing Laboratory for Arehiteeture Departrnent for Building Materials, Solid Building and
Fire Prevention of the Teehnieal University Brau nsehweig
End of Flame Impingement after 110 min
Annex 2.2 of
Test Report
No.(3136/2315) -CM
Measuring Channel No.1, Metering Point NO.22 breakdown
180 -r------,----,---,-----r-----r----r-----,---.......-----.----,-----,
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Test Time [min] 80 90 100 110
1-<>-- MSt. 21 -0- MSt. 23 --A- MSt. 24 -X-MSt. 251
End of Impingement 110 min
Flame after
Temperatures in Test Item Annex 2.3 of
Test Report
No.{3136/2315) -CM
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire
Prevention of the Technical University Braunschweig
Measuring Channel No.2, Metering Point No.26 breakdown
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100
150
200
250
o 10 20 30 40 50 60 70
Test Time [min]
80 90 100 110
I ~MSt. 27 -0- MSt. 28 -i:r-MSt. 29 -X-MSt. 30 I
End of Flame Impingement after 110 min
Ternperature in the Test Itern Annex 2.4 of
Test Report
No.(3136/2315) -CM
Material Testing Laboratory for Architecture Departrnent for Building Materials, Solid Building and
Fire Prevention of the Technical University Braunschweig
7
6
5
4
3
2
On Concrete Slab
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Messstelle
10
30
< 1K
< 1K
19
60
1 K
1K
19
20
90
4K
4K
19
30 40 fin Rn 7n Test Time [min]
!-MSt. 19 1
110
7K
7K
19
Temperature of Test Itern
Material Testing Laboratory for Architecture Departrnent for Building Materials, Solid Building and
Fire Prevention of the Technical University Braunschweig
80 90 100 11
End of Flame Impingement after 110 min
Annex 2.7 of
Test Report
No.(3136/2315) -CM
__
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o 10 20 30 40 50 60 70
Test Time [min]
I-MSt. 39 1
Ambient Temperature
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and
Fire Prevention of the Technical University Brau nschweig
80 90 100 110
End of Flame Impingement after 110 min
1 IQ....I 1 IIV 1111111
Annex 2.8 of
Test Report
No.(3136/2315) -CM
I
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70
80
40
50
10
20
60
30
o 10 20 30 40 50 60 70 80 90 100
Test Time [min]
I-MSt,41!
End of Flame Impingement after 110 min
Forrning of the Test Itern Annex 2.9 of
Test Report
No.(3136/2315) -CM
Material Testing Laboratory for Architecture Departrnent for Building Materials, Solid Building and Fire
Prevention of the Technical University Braunschweig
Difference of the Integral of Fire-Room-Temperatures of the Must Value-Integral
20 ..,.------·~-----i ,v I
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I I I I , I I ,
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o 20 40 60 80 100
Test Time [min]
I~ % Difference ~ I Upper Range of -lr-I Lower Range Of Tollerance Tollerance
s, =19 -c Date of Test 31.03.05
Reporting of the Error Integral Annex 2.10 of
Test Report Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fire No.(3136/2315) -CM
Prevention of the Technical University Braunschweig
25
20
15
10
5
o
-5
-10
1
1
I I I
I
I I I I
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1
1
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I 1 I I I
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_
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1 I I I I I I I
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-------------:-------------~-------------~-------------~------------~------I I I r I I I I I I I I I I I I I , I I I J I I
I I I I I I
I I I I I I
20 40 60 80 100
Test Time [min]
Date of Test 31.03.05 ÖD =19 -c
Differential Pressure in the Fire room Annex 2.11 of
Test Report Material Testing Laboratory for Architecture Department for Building Materials, Solid Building and Fir No.(3136/2315) -CM
Prevention of the Technical University Braunschweig
2
Testing Length (min)
10
13
24
29
50
71
75
77
83
87
93
98
103
110
*) F= A=
Side *)
F
F
F
F
F
F
F
F
-
fire facing site
Notices during the Fire Test on the 31st of March 2005
The panels are fading black.
The plates are drawing in the covering of the sheathing.
The gap opens up to 3mm.
The panels are c1earagain. The plates continued drawing in the covering of the sheathing.
The sheathing covers the anchor plates.
The panels are sagging round bodied between the anchors.
The panel (8) slowly starts to tilt (gap = 3mm).
The gaps of panel (7), (11) and (15) keep on rupturing.
Panel (8) fell down in the Fire room.
Panel (7) fell down in the Fire room.
Panel (11) fell down partial. Panel (9) is Iying on a thermocouple.
Panel (6) fell down in the Fire room.
Panels (9), (10) and (14) have fallen down in the Fire room.
Panel (5) fell down in the Fire room.
End of flame imoinqement.
fire averted site
Evaluation during the Fire Test
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building
and Fire Prevention of the Technical University Braunschweig
Annex 2.12 of
Test Report
No.(3136/2315) -CM
Pictures:1 Day before the Fire test
Photodokumentation
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building an d Fire
Prevention of the Technical University Braunschweig
Annex 3.1 of
Test Report
No.(3136/2315) -CM
Pictures: During the Fire Test
Pictures: 1 Day after the Fire Test
Photodokumentation
Material Testing Laboratory for Architecture Department for Building Materials, Solid Building an d Fire
Prevention of the Technical University Braunschweig
Annex 3.2 of
Test Report
No.(3136/2315) -CM