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SIST ISO 11272:2006

(Main)

Soil quality -- Determination of dry bulk density

Soil quality -- Determination of dry bulk density

Describes three methods for the determination of dry bulk density of soils calculated from the mass and the volume of a soil sample. The methods involve drying and weighing a soil sample, the volume of which is either known or has to be determined.

Qualité du sol -- Détermination de la masse volumique apparente sèche

Kakovost tal – Določevanje volumske gostote suhih vzorcev

General Information

Status
Withdrawn
Publication Date
31-Aug-2006
Withdrawal Date
18-Mar-2019
ICS
13.080.20 - Physical properties of soils
Technical Committee
KAT - Soil quality
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
19-Mar-2019
Due Date
11-Apr-2019
Completion Date
19-Mar-2019
Ref Project
ISO 11272:1998 - Soil quality — Determination of dry bulk density

Relations

Replaced By
SIST EN ISO 11272:2017 - Soil quality - Determination of dry bulk density (ISO 11272:2017)
Effective Date
01-May-2019

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INTERNATIONAL ISO
STANDARD 11272
First edition
1998-07-01
Soil quality — Determination of dry bulk
density
Qualité du sol — Détermination de la masse volumique apparente sèche
A
Reference number
ISO 11272:1998(E)

---------------------- Page: 1 ----------------------
ISO 11272:1998(E)
Contents
1 Scope .1
2 Normative reference .1
3 Definition .1
4 Test procedure.1
4.4.1 Core method.1
4.4.2 Excavation method.3
4.4.3 Clod method.6
5 Test report .8
Annex A (informative) Alternative methods for determination of volume of excavated soil.9
Annex B (informative) Bibliography .10
©  ISO 1998
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced
or utilized in any form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from the publisher.
International Organization for Standardization
Case postale 56 • CH-1211 Genève 20 • Switzerland
Internet central@iso.ch
X.400 c=ch; a=400net; p=iso; o=isocs; s=central
Printed in Switzerland
ii

---------------------- Page: 2 ----------------------
© ISO
ISO 11272:1998(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO
member bodies). The work of preparing International Standards is normally carried out through ISO technical
committees. Each member body interested in a subject for which a technical committee has been established has
the right to be represented on that committee. International organizations, governmental and non-governmental, in
liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical
Commission (IEC) on all matters of electrotechnical standardization.
Draft International Standards adopted by the technical committees are circulated to the member bodies for voting.
Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote.
International Standard ISO 11272 was prepared by Technical Committee ISO/TC 190, Soil quality, Subcommittee
SC 5, Physical methods.
Annexes A and B of this International Standard are for information only.
iii

---------------------- Page: 3 ----------------------
© ISO
ISO 11272:1998(E)
Introduction
The dry bulk density is used together with the particle density (see ISO 11508) for the calculation of the solids
content and porosity of soil for the evaluation of soil structure, and conversion of concentrations of substances in
soil from mass/volume to mass/mass and vice versa.
iv

---------------------- Page: 4 ----------------------
INTERNATIONAL STANDARD  © ISO ISO 11272:1998(E)
Soil quality — Determination of dry bulk density
1 Scope
This International Standard describes three methods for the determination of dry bulk density of soils calculated
from the mass and the volume of a soil sample. The methods involve drying and weighing a soil sample, the volume
of which is either known (core method, see 4.1) or has to be determined (excavation method, see 4.2, and clod
method, see 4.3).
2 Normative reference
The following standard contains provisions which, through reference in this text, constitute provisions of this Inter-
national Standard. At the time of publication, the edition indicated was valid. All standards are subject to revision,
and parties to agreements based on this International Standard are encouraged to investigate the possibility of
applying the most recent edition of the standard indicated below. Members of IEC and ISO maintain registers of
currently valid International Standards.
1)
ISO 10381-1: – , Soil quality — Sampling — Part 1: Guidance on the design of sampling programmes.
3 Definition
For the purposes of this International Standard, the following definition applies.
3.1  dry bulk density
Ratio of the oven-dry mass of the solids to the volume of the soil.
NOTE 1 The bulk volume includes the volume of the solids and of the pore space.
-3
NOTE 2 The preferred SI unit of measurement is kilograms per cubic metre (kg { m ) but grams per cubic centimetre
-3 -3 -3
(g { cm ) is also very common. Note that x g { cm = 1000 x kg { m .
4 Test procedure
4.1 Core method
4.1.1 Principle
This method is applicable to stoneless and slightly stony soils. Core samples of known volume are taken with a
metal sampling tool. The sample is dried in an oven, weighed and the dry bulk density is calculated.

1)
To be published.
1

---------------------- Page: 5 ----------------------
© ISO
ISO 11272:1998(E)
4.1.2 Apparatus
3 3
4.1.2.1  Core sample holders, thin-walled metal cylinders with a volume of 100 cm to 400 cm , a steel cap for
driving into the soil, and a driver.
4.1.2.2  Oven, heated and ventilated, capable of maintaining a temperature of (105 ± 2) °C.
4.1.2.3  Desiccator: sealed chamber in which the air is kept dry with the aid of silica gel or other desiccant.
4.1.2.4  Laboratory balance, capable of weighing to an accuracy of 1/1000 of the measured value.
4.1.3 Sampling and drying
Press or drive a core sample holder (4.1.2.1) of known volume without deflection and compaction into either a
vertical or horizontal soil surface far enough to fill the sampler. Carefully remove the sample holder and its contents
to preserve the natural structure, and trim the soil extending beyond each end of the sample holder with a straight-
edged knife or sharp spatula. The soil sample volume is thus equal to the volume of the sample holder. Take at
least six core samples from each soil layer. Place the holders containing the samples in an oven (4.1.2.2) at 105 °C
until constant mass is reached (minimum 48 h). Remove the samples from the oven and allow them to cool in the
desiccator (4.1.2.3). Weigh the samples on the balance (4.1.2.4) immediately after removal from the desiccator (m).
t
Control mass is reached when the differences in successive weighings of the cooled sample, at intervals of 4 h, do
not exceed 0,01% of the original mass of the sample.
NOTE 1 Swell/shrink soils (especially clays, muds and peats) change their bulk density with changing water content. Such
soils should be sampled first in a moist state (i.e. field capacity); in addition they should be sampled in a wet state (water
saturation) and in a dry state (i.e. wilting point). If the dry soil is too hard to be sampled, the bulk density of the peds can be
determined according to 4.3, and the total soil volume according to 4.2.3.
NOTE 2 If bulk density (and water content) are the only parameters of interest, it is not necessary to keep the samples in
their holders when taking them back to the laboratory: after the sample has been obtained and trimmed, the soil may be
extracted from the holder, without loss, in order to be stored for transportation either in a metal box or in a heat-resistant plastic
bag.
NOTE 3 It is normally worthwhile to combine a measurement of the water content with a measurement of the bulk density; in
that case it is necessary to transport the samples without allowing loss of water by evaporation, and to begin the laboratory
operations by weighing the fresh sample.
4.1.4 Calculation
The dry bulk density is calculated using equation (1):
m
d
b
r =

s
. . . (1)
V
m = m - m
d t s
where
b
r is the bulk density, dry, in grams per cubic centimetre;
s
m is the mass, in grams, of the core sample dried at 105 °C minus the mass of the core sample
d
holder;
V is the volume, in cubic centimetres, of the sample holder;
m is the mass, in grams, of the empty sample holder;
s
m is the mass, in grams, of the sample holder together with the soil sample dried at 105 °C.
t
2

---------------------- Page: 6 ----------------------
© ISO
ISO 11272:1998(E)
4.2 Excavation method
4.2.1 Principle
Bulk density is determined by excavating a quantity of soil, drying and weighing it, and determining the volume of
the excavation by filling it with sand. This procedure is applicable to soils containing gravel and/or stones.
4.2.2 Apparatus
4.2.2.1  Earth-digging equipment, such as a spade, with a long sharp-edged straight blade.
4.2.2.2  Sampling equipment: flat-bladed spade, knife (for hard or stony soil), pick, spade chisel, hammer.
4.2.2.3  Equipment for collecting and cleaning, s
...

SLOVENSKI STANDARD
SIST ISO 11272:2006
01-september-2006
.DNRYRVWWDO±'RORþHYDQMHYROXPVNHJRVWRWHVXKLKY]RUFHY
Soil quality -- Determination of dry bulk density
Qualité du sol -- Détermination de la masse volumique apparente sèche
Ta slovenski standard je istoveten z: ISO 11272:1998
ICS:
13.080.20 Fizikalne lastnosti tal Physical properties of soils
SIST ISO 11272:2006 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------

SIST ISO 11272:2006

---------------------- Page: 2 ----------------------

SIST ISO 11272:2006
INTERNATIONAL ISO
STANDARD 11272
First edition
1998-07-01
Soil quality — Determination of dry bulk
density
Qualité du sol — Détermination de la masse volumique apparente sèche
A
Reference number
ISO 11272:1998(E)

---------------------- Page: 3 ----------------------

SIST ISO 11272:2006
ISO 11272:1998(E)
Contents
1 Scope .1
2 Normative reference .1
3 Definition .1
4 Test procedure.1
4.4.1 Core method.1
4.4.2 Excavation method.3
4.4.3 Clod method.6
5 Test report .8
Annex A (informative) Alternative methods for determination of volume of excavated soil.9
Annex B (informative) Bibliography .10
©  ISO 1998
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced
or utilized in any form or by any means, electronic or mechanical, including photocopying and
microfilm, without permission in writing from the publisher.
International Organization for Standardization
Case postale 56 • CH-1211 Genève 20 • Switzerland
Internet central@iso.ch
X.400 c=ch; a=400net; p=iso; o=isocs; s=central
Printed in Switzerland
ii

---------------------- Page: 4 ----------------------

SIST ISO 11272:2006
© ISO
ISO 11272:1998(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO
member bodies). The work of preparing International Standards is normally carried out through ISO technical
committees. Each member body interested in a subject for which a technical committee has been established has
the right to be represented on that committee. International organizations, governmental and non-governmental, in
liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical
Commission (IEC) on all matters of electrotechnical standardization.
Draft International Standards adopted by the technical committees are circulated to the member bodies for voting.
Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote.
International Standard ISO 11272 was prepared by Technical Committee ISO/TC 190, Soil quality, Subcommittee
SC 5, Physical methods.
Annexes A and B of this International Standard are for information only.
iii

---------------------- Page: 5 ----------------------

SIST ISO 11272:2006
© ISO
ISO 11272:1998(E)
Introduction
The dry bulk density is used together with the particle density (see ISO 11508) for the calculation of the solids
content and porosity of soil for the evaluation of soil structure, and conversion of concentrations of substances in
soil from mass/volume to mass/mass and vice versa.
iv

---------------------- Page: 6 ----------------------

SIST ISO 11272:2006
INTERNATIONAL STANDARD  © ISO ISO 11272:1998(E)
Soil quality — Determination of dry bulk density
1 Scope
This International Standard describes three methods for the determination of dry bulk density of soils calculated
from the mass and the volume of a soil sample. The methods involve drying and weighing a soil sample, the volume
of which is either known (core method, see 4.1) or has to be determined (excavation method, see 4.2, and clod
method, see 4.3).
2 Normative reference
The following standard contains provisions which, through reference in this text, constitute provisions of this Inter-
national Standard. At the time of publication, the edition indicated was valid. All standards are subject to revision,
and parties to agreements based on this International Standard are encouraged to investigate the possibility of
applying the most recent edition of the standard indicated below. Members of IEC and ISO maintain registers of
currently valid International Standards.
1)
ISO 10381-1: – , Soil quality — Sampling — Part 1: Guidance on the design of sampling programmes.
3 Definition
For the purposes of this International Standard, the following definition applies.
3.1  dry bulk density
Ratio of the oven-dry mass of the solids to the volume of the soil.
NOTE 1 The bulk volume includes the volume of the solids and of the pore space.
-3
NOTE 2 The preferred SI unit of measurement is kilograms per cubic metre (kg { m ) but grams per cubic centimetre
-3 -3 -3
(g { cm ) is also very common. Note that x g { cm = 1000 x kg { m .
4 Test procedure
4.1 Core method
4.1.1 Principle
This method is applicable to stoneless and slightly stony soils. Core samples of known volume are taken with a
metal sampling tool. The sample is dried in an oven, weighed and the dry bulk density is calculated.

1)
To be published.
1

---------------------- Page: 7 ----------------------

SIST ISO 11272:2006
© ISO
ISO 11272:1998(E)
4.1.2 Apparatus
3 3
4.1.2.1  Core sample holders, thin-walled metal cylinders with a volume of 100 cm to 400 cm , a steel cap for
driving into the soil, and a driver.
4.1.2.2  Oven, heated and ventilated, capable of maintaining a temperature of (105 ± 2) °C.
4.1.2.3  Desiccator: sealed chamber in which the air is kept dry with the aid of silica gel or other desiccant.
4.1.2.4  Laboratory balance, capable of weighing to an accuracy of 1/1000 of the measured value.
4.1.3 Sampling and drying
Press or drive a core sample holder (4.1.2.1) of known volume without deflection and compaction into either a
vertical or horizontal soil surface far enough to fill the sampler. Carefully remove the sample holder and its contents
to preserve the natural structure, and trim the soil extending beyond each end of the sample holder with a straight-
edged knife or sharp spatula. The soil sample volume is thus equal to the volume of the sample holder. Take at
least six core samples from each soil layer. Place the holders containing the samples in an oven (4.1.2.2) at 105 °C
until constant mass is reached (minimum 48 h). Remove the samples from the oven and allow them to cool in the
desiccator (4.1.2.3). Weigh the samples on the balance (4.1.2.4) immediately after removal from the desiccator (m).
t
Control mass is reached when the differences in successive weighings of the cooled sample, at intervals of 4 h, do
not exceed 0,01% of the original mass of the sample.
NOTE 1 Swell/shrink soils (especially clays, muds and peats) change their bulk density with changing water content. Such
soils should be sampled first in a moist state (i.e. field capacity); in addition they should be sampled in a wet state (water
saturation) and in a dry state (i.e. wilting point). If the dry soil is too hard to be sampled, the bulk density of the peds can be
determined according to 4.3, and the total soil volume according to 4.2.3.
NOTE 2 If bulk density (and water content) are the only parameters of interest, it is not necessary to keep the samples in
their holders when taking them back to the laboratory: after the sample has been obtained and trimmed, the soil may be
extracted from the holder, without loss, in order to be stored for transportation either in a metal box or in a heat-resistant plastic
bag.
NOTE 3 It is normally worthwhile to combine a measurement of the water content with a measurement of the bulk density; in
that case it is necessary to transport the samples without allowing loss of water by evaporation, and to begin the laboratory
operations by weighing the fresh sample.
4.1.4 Calculation
The dry bulk density is calculated using equation (1):
m
d
b
r =

s
. . . (1)
V
m = m - m
d t s
where
b
r is the bulk density, dry, in grams per cubic centimetre;
s
m is the mass, in grams, of the core sample dried at 105 °C minus the mass of the core sample
d
holder;
V is the volume, in cubic centimetres, of the sample holder;
m is the mass, in grams, of the empty sample holder;
s
m is the mass, in grams, of the sample holder together with the soil sample dried at 105 °C.
t
2

---------------------- Page: 8 ----------------------

SIST ISO 11272:2006
© ISO
ISO 11272:1998(E)
4.2 Excavation method
4.2.1 Principle
Bulk density is determined by excavating a quantity of soil, drying a
...

NORME ISO
INTERNATIONALE 11272
Première édition
1998-07-01
Qualité du sol — Détermination de la masse
volumique apparente sèche
Soil quality — Determination of dry bulk density
A
Numéro de référence
ISO 11272:1998(F)

---------------------- Page: 1 ----------------------
ISO 11272:1998(F)
Sommaire Page
1 Domaine d'application . 1
2 Référence normative . 1
3 Définition . 1
4 Modes opératoires. 2
4.1 Méthode du cylindre. 2
4.2 Méthode d'excavation . 3
4.3 Méthode des mottes . 4
5 Rapport d'essai . 6
Annexe A (informative) Autres méthodes permettant de déterminer
le volume de terre extraite. 9
Annexe B (informative) Bibliographie . 10
©  ISO 1998
Droits de reproduction réservés. Sauf prescription différente, aucune partie de cette publi-
cation ne peut être reproduite ni utilisée sous quelque forme que ce soit et par aucun pro-
cédé, électronique ou mécanique, y compris la photocopie et les microfilms, sans l'accord
écrit de l'éditeur.
Organisation internationale de normalisation
Case postale 56 • CH-1211 Genève 20 • Suisse
Internet central@iso.ch
X.400 c=ch; a=400net; p=iso; o=isocs; s=central
Imprimé en Suisse
ii

---------------------- Page: 2 ----------------------
©
ISO ISO 11272:1998(F)
Avant-propos
L'ISO (Organisation internationale de normalisation) est une fédération
mondiale d'organismes nationaux de normalisation (comités membres de
l'ISO). L'élaboration des Normes internationales est en général confiée aux
comités techniques de l'ISO. Chaque comité membre intéressé par une
étude a le droit de faire partie du comité technique créé à cet effet. Les
organisations internationales, gouvernementales et non gouvernementales,
en liaison avec l'ISO participent également aux travaux. L'ISO collabore
étroitement avec la Commission électrotechnique internationale (CEI) en
ce qui concerne la normalisation électrotechnique.
Les projets de Normes internationales adoptés par les comités techniques
sont soumis aux comités membres pour vote. Leur publication comme
Normes internationales requiert l'approbation de 75 % au moins des
comités membres votants.
La Norme internationale ISO 11272 a été élaborée par le comité technique
ISO/TC 190, Qualité du sol, sous-comité SC 5, Méthodes physiques.
Les annexes A et B de la présente Norme internationale sont données
uniquement à titre d'information.
iii

---------------------- Page: 3 ----------------------
©
ISO 11272:1998(F) ISO
Introduction
La masse volumique apparente est utilisée conjointement avec la masse
volumique des particules (voir l'ISO 11508) pour calculer la teneur en
solides et la porosité du sol en vue de l'évaluation de la structure du sol,
et pour convertir les concentrations de substances dans le sol de
masse/volume en masse/masse, et inversement.
iv

---------------------- Page: 4 ----------------------
©
NORME INTERNATIONALE  ISO ISO 11272:1998(F)
Qualité du sol — Détermination de la masse volumique
apparente sèche
1  Domaine d'application
La présente Norme internationale décrit trois méthodes de calcul de la masse volumique apparente des sols à partir
de la mesure de la masse et du volume d'un échantillon de sol. Les méthodes consistent à sécher et peser un
échantillon de sol, de volume connu (méthode du cylindre, voir 4.1) ou dont le volume doit être déterminé (méthode
de l'excavation, voir 4.2, et méthode des mottes, voir 4.3).
2  Référence normative
La norme suivante contient des dispositions qui, par suite de la référence qui en est faite, constituent des
dispositions valables pour la présente Norme internationale. Au moment de la publication, l'édition indiquée était en
vigueur. Toute norme est sujette à révision et les parties prenantes des accords fondés sur la présente Norme
internationale sont invitées à rechercher la possibilité d'appliquer l'édition la plus récente de la norme indiquée ci-
après. Les membres de la CEI et de l'ISO possèdent le registre des Normes internationales en vigueur à un
moment donné.
1)
ISO 10381-1:— , Qualité du sol — Échantillonnage — Partie 1: Lignes directrices pour l'établissement des
programmes d'échantillonnage.
3  Définition
Pour les besoins de la présente Norme internationale, la définition suivante s'applique.
3.1  masse volumique apparente: Rapport de la masse du solide, après séchage dans une étuve, au volume de
terre.
NOTES
1  Le volume apparent comprend le volume du solide et le volume des pores.
. -3
2  L'unité de mesure SI préférentielle est le kilogramme par mètre cube (kg m ), mais le gramme par centimètre cube
. -3 . -3 . -3
(g cm ) est une unité également très fréquemment utilisée. Noter que x g cm = 1 000 x kg m .
__________
1)  À publier.
1

---------------------- Page: 5 ----------------------
©
ISO
ISO 11272:1998(F)
4  Modes opératoires
4.1  Méthode du cylindre
4.1.1  Principe
Prélèvement de carottes de volume connu au moyen d'un cylindre de prélèvement en métal. Séchage de
l'échantillon dans une étuve. Pesage de l'échantillon et calcul de sa masse volumique apparente. La présente
méthode est applicable aux sols exempts de pierres, légèrement caillouteux.
4.1.2  Appareillage
3 3
4.1.2.1  Cylindres de prélèvement, en métal, à paroi mince, de volume compris entre 100 cm et 400 cm , avec
poussoir en acier et tube guide.
4.1.2.2  Étuve, chauffée et ventilée, capable de maintenir une température de 105 �C – 2 �C.
4.1.2.3  Dessiccateur: chambre étanche dans laquelle l'air est maintenu sec au moyen de gel de silice ou de tout
autre déshydratant.
4.1.2.4  Balance de laboratoire, permettant d'effectuer des pesées avec une précision de 1/1 000 de la valeur
mesurée.
4.1.3  Échantillonnage et séchage
Dans une surface de sol horizontale ou verticale, enfoncer ou pousser perpendiculairement et sans compaction un
cylindre de prélèvement (4.1.2.1) de volume connu, en le faisant suffisamment pénétrer dans le sol pour le remplir.
Extraire avec précaution le cylindre de prélèvement et son contenu de manière à préserver l'état structural du sol
prélevé, puis araser le sol à chaque extrémité du cylindre de prélèvement au moyen d'un couteau à bord droit ou
d'une spatule tranchante. Le volume de l'échantillon de sol est ainsi égal à celui du cylindre de prélèvement.
Prélever au moins six carottes dans chaque couche de sol. Placer le cylindre de prélèvement et son contenu dans
une étuve (4.1.2.2) à 105 �C jusqu'à l'obtention d'une masse constante (au minimum 48 h). Retirer les échantillons
de l'étuve et les laisser refroidir dans le dessiccateur (4.1.2.3). Les peser sur la balance (4.1.2.4) immédiatement
après les avoir sortis du dessiccateur (m ). La masse de contrôle est atteinte lorsque la masse de l'échantillon
t
refroidi, obtenue lors de pesées successives suivant des intervalles de 4 h, ne diffère pas de plus de 0,01 % de la
masse initiale de l'échantillon.
NOTES
1  La masse volumique apparente des sols gonflants/rétractants (en particulier les argiles, les boues et la tourbe) varie en
fonction de leur teneur en eau. L'échantillonnage de ce type de sols doit tout d'abord être effectué à l'état humide (c'est-à-dire
sur le terrain); ensuite, il convient de procéder également à un échantillonnage à l'état mouillé (saturation en eau) et à sec
(c'est-à-dire au-delà du point de flétrissement permanent). Si le sol sec est trop dur pour être échantillonné, la masse
volumique apparente des grosses mottes peut être déterminée selon 4.3, et le volume total de terre selon 4.2.3.
2  Si la masse volumique (et la teneur en eau) sont les seuls paramètres considérés, il n'est pas nécessaire de conserver les
échantillons dans les cylindres lors de leur transport au laboratoire: une fois l'échantillon prélevé et arasé, le sol peut être
extrait du cylindre, sans perte, et être stocké, en vue de son transport, soit dans une boîte en métal, soit dans une poche en
plastique thermorésistant.
3  Il est, en principe, judicieux de combiner un mesurage de la teneur en eau avec un mesurage de la masse volumique
apparente; dans ce cas, il est nécessaire de transporter les échantillons en veillant à éviter toute perte d'eau par évaporation,
et de commencer les opérations en laboratoire par une pesée de l'échantillon frais.
4.1.4  Calcul
La masse volumique apparente se calcule en utilisant l'équation (1):
m
d
b
r =

s
. . . (1)
V
m = m - m
d t s
2

---------------------- Page: 6 ----------------------
©
ISO
ISO 11272:1998(F)

b
r est la masse volumique sèche, en grammes par centimètre cube;
s
m est la masse, en grammes, du cylindre et de l'échantillon séché à 105 °C moins celle du cylindre de
d
prélèvement;
V est le volume, en centimètres cubes, du cylindre de prélèvement;
m est la masse, en grammes, du cylindre de prélèvement vide;
s
m est la masse, en grammes, du cylindre de prélèvement et de l'échantillon de sol séché à 105 °C.
t
4.2  Méthode d'excavation
4.2.1  Principe
Détermination de la masse volumique apparente par excavation, séchage et pesage d'une certaine quantité de
terre, dont le volume est déterminé par remplissage de la cavité avec du sable. Cette méthode s'applique aux sols
caillouteux et/ou graveleux.
4.2.2  Appareillage
4.2.2.1  Matériel pour creuser la terre: pelle plane, longue, aux arêtes vives, profilée.
4.2.2.2  Matériel pour échantillonnage: pelle plane profilée, couteau (pour les sols plus durs ou pierreux), pioche,
burin, marteau.
4.2.2.3  Matériel pour collecter et nettoyer: feuille de plastique, brosse, sacs de plastique résistant à la chaleur
ou boîtes métalliques.
4.2.2.4  Film plastique mince, flexible mais stable.
4.2.2.5  Matériel pour répartir le sable: entonnoir muni d'une jauge (la hauteur de chute sous l'ouverture de
3
l'entonnoir doit être de 5 cm), et éprouvette graduée d'une capacité de 1 dm .
4.2.2.6  Sable sec calibré, de quantité connue et à grains d'un diamètre compris entre 500 mm et 700 mm.
4.2.2.7  Balance, permettant de peser avec une précision de 0,1 g.
4.2.2.8  Étuve, chauffée et ventilée, capable de maint
...

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