Reaction products of 1,4-Benzenedimethanol and 1-naphthol

Administrative data

Link to relevant study record(s)

Reference

Endpoint:

particle size distribution (granulometry)

Type of information:

experimental study

Adequacy of study:

key study

Study period:

09 August 2019 to 13 August 2019

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Qualifier:

according to guideline

Guideline:

OECD Guideline 110 (Particle Size Distribution / Fibre Length and Diameter Distributions - Method A: Particle Size Distribution (effective hydrodynamic radius)

Deviations:

no

Qualifier:

according to guideline

Guideline:

ISO 13320 (Particle size analysis - Laser diffraction methods)

Deviations:

no

GLP compliance:

yes (incl. QA statement)

Type of method:

Laser scattering/diffraction

Type of particle tested:

agglomerate

Type of distribution:

mass based distribution

Specific details on test material used for the study:

No further details specified in the study report

Mass median aerodynamic diameter:

>= 110.1 - <= 113.7 µm

Geometric standard deviation:

>= 2.669 - <= 2.698

Key result

Percentile:

D10

Mean:

>= 23.7 - <= 24.3 µm

St. dev.:

0.23

Key result

Percentile:

D50

Mean:

>= 103 - <= 106 µm

St. dev.:

1.2

Key result

Percentile:

D90

Mean:

>= 225 - <= 227 µm

St. dev.:

0.869

No.:

#1

Size:

>= 0.01 - <= 0.872 µm

Distribution:

0 %

No.:

#2

Size:

>= 0.991 - <= 2.42 µm

Distribution:

>= 0.1 - <= 1.41 %

No.:

#3

Size:

>= 2.75 - <= 40.1 µm

Distribution:

>= 1.56 - <= 18.45 %

No.:

#4

Size:

>= 45.6 - <= 666 µm

Distribution:

>= 21.31 - <= 100 %

No.:

#5

Size:

>= 756 - <= 3 500 µm

Distribution:

100 %

Full Test Results

	Run 1	Run 2	Run 3	Run 4	Run 5	Average	STDVP	%STDVP
VWM	116	116	116	116	115	116	N/A	N/A
Mode	155	157	152	150	152	153	N/A	N/A
d10	24.2	24.0	24.1	24.3	23.7	24.1	0.230	0.953
d50 (Median)	106	105	105	105	103	105	1.20	1.14
d90	225	226	227	227	227	226	0.869	0.384
MMAD	113.7	112.4	112.1	111.8	110.1	112.0	1.145	1.0
GSD	2.678	2.686	2.678	2.669	2.698	2.682	0.010	0.4

All particle size results are in μm

3.67 % by volume of sample was seen to be < 10.00 μm

Definitions

VWM : volume weighted mean

d10 : 10 % of the test item is less than this particle size

d50 : 50 % of the test item is less than this particle size

d90 : 90 % of the test item is less than this particle size

GSD : geometric standard deviation of the lognormal particle size distribution

MMAD : mass median aerodynamic diameter

Average : calculated from the entirety of the data captured in each run and not a simple arithmetic mean

STDVP : standard deviation of the population

% STDVP : percentage standard deviation of the population

The coefficient of variation for d50 is less than 3 %; d10 and d90 are less than 5 %. Thus repeatability of the characteristic particles in the size distribution is within the acceptable limits as per the ISO 13320-1 test standard.

Conclusions:

3.67 % by volume of sample was seen to be < 10.00 μm

Executive summary:

Particle size distribution analysis was carried out on test substance CAS 113601-85-7. To characterise the particle size distribution of the test item. The analysis was conducted initially using a visual microscope and then undertaken using a Laser Diffraction Particle Size Analyser. This procedure allows for a clearer understanding of the particle characterisation of the test material, such as sample clusters and agglomeration. 

For the optical microscope analysis the test item was observed under 3 conditions:

Direct observation

Under a microscope at 100 x magnification

Under a microscope at 400 x magnification

 

Standard visual observation

Test item observed to be a polydispersed, free flowing, brown powder with clusters.

 

Observation at 100 x magnification

The particles appeared to be irregular shaped crystals. The smallest individual particle

size was approximately 22 μm and the largest individual size was approximately 400 μm.

 

Observation at 400 x magnification

The test item was observed to be made up of single crystalline particles.

 

Solubility and dispersibility analysis of particle size analysis was carried out in order to select a suitable dispersant. Following this analysis silicon oil was selected for the full solubility and dispersibility testing.

 

The best dispersant for the laser diffraction analysis is the liquid in which the solubility of the test item is less than 20 mg per litre and in which the test item is well dispersed. The test item proved to be insoluble and well dispersed in silicon oil. Therefore silicon oil was used as the dispersant for the final test.

Laser diffraction particle size analysis was conducted to determine the particle size distribution of Phenol Resin (CAS 113601-85-7). The test item was initially observed to determine whether sieving of the material was required. A method development for the particle size analysis on the material was then undertaken to obtain the correct parameters for the formal analysis. The method development was employed to identify the most appropriate optical properties for the material, the correct dispersant, dispersion pressures and sample compatibility.

Once these parameters were obtained the test item was then analysed using the Malvern Mastersizer 3000 Laser Diffraction Analyser.

The test was conducted in accordance with ISO 13320:2009 “Particle Size Analysis – Laser Diffraction Methods”, 2009 and CIPAC MT 187 “Particle Size Analysis by Laser Diffraction”, Handbook K, 2007.

 Using the identified parameters, the particle size was analysed over the range 0.01 μm to 3500 μm.

 

The coefficient of variation for d50 is less than 3 %; d10 and d90 are less than 5 %. Thus repeatability of the characteristic particles in the size distribution is within the acceptable limits as per the ISO 13320-1 test standard.

 

3.67 % by volume of sample was seen to be < 10.00 μm.

Description of key information

3.67 % by volume of sample was seen to be < 10.00 μm

Additional information