PROJECT INTERMALT MALTING PLANT TÂ

PROJECT

INTERMALT MALTING PLANT
TÂN THÀNH WARD, BÀ RỊA VŨNG TÀU PROVINCE

BORED PILE SPECIFICATIONS

OWNER: INTERMALT VIETNAM

















8/2014



PROJECT

INTERMALT MALTING PLANT
TÂN THÀNH WARD, BÀ RỊA VŨNG TÀU PROVINCE

BORED PILE SPECIFICATIONS

OWNER: INTERMALT VIETNAM

OWNER
INTERMALT VIETNAM








DESIGNER
SOUTH LIGHT CONSTRUCTION
CONSULTANCY COPERATION








1.0
1.1
GENERAL
This specification deals with permanent works and is to be read in conjunction with
the conditions of contract, drawings, General Specification, General Specification for
Piling Works, Specification for Concrete Work, and Specification for Pile Testing.
Where works are ordered to be performed by the Contractor, but are not specified in
this specification, the Contractor must carry them out with full diligence and
expedience as are expected for works of this nature.
1.2
2.0
2.1
2.2
2.2.1
DESIGN REQUIREMENT
Design and detailing of bored piles shall be as shown in the drawings.
Concrete Strength and Cement Content
Use Concrete Grade B40 for Bored Pile. Where wet hole construction of bored pile is permitted, cement content
in concrete shall not be less than 400 kg/m3
.
Longitudinal Reinforcement
Grade
Area
:
:
Deformed bars comply with TCVN 1651:1985 with a minimum yield
strength of 390 N/mm2
.
As shown in the drawings but subject to minimum 0.4% of cross-
sectional area of compression pile, or area required to carry full tension
load in tension pile, whichever is more severe.
For both tension and compression piles, the reinforcement shall extend
to toe of pile.
2.3
2.3.1
2.3.2
2.3.3 Length :
2.4
2.4.1
Spiral Reinforcement (All pile types and sizes)
Grade : Mild steel plain bars or deformed bars comply with TCVN 1651:1985
with a minimum yield strength of 235 N/mm2
for the plain bars and 390
N/m2
for the deformed bars.
Bars shall follow design drawing.
150 mm centres over top 1.5 meters of pile from cut-off level (this
requirement does not apply where pilecaps are connected by ties). 300
mm centres over rest of the length of steel cage.
2.4.2
2.4.3
Area
Pitch
:
:
2.5
2.5.1
Spacing of Piles
3 times the diameter of the larger pile. 2.6
2.6.1
Pile Length
The Contractor shall be responsible for the design of pile length to ensure that the pile
is capable of carrying the specified working load with the required factor of safety.
The Contractor shall verify by means of pile load tests the adequacy of his pile length
design under actual soil conditions encountered during pile installation.
Acceptance of the Contractor's pile length calculations shall be subject to the
outcome of pile load tests and at the discretion of the Engineer. Agreement by the
Engineer does not in any way relieve the Contractor from his duties and
responsibilities under the contract to complete the permanent works in accordance
with the requirements of the drawings and specifications.
2.6.2
3.0 PILES RESTING ON LIMESTONE OR STRATUM WITH CAVITIES
3.1
3.1.1
Compression Piles
The pile shall be socketed a minimum of 1 meter into a moderately strong limestone
layer.
If base resistance is considered in computing pile capacity and length, the Contractor
shall prove by cavity probing or an otherwise approved method, that no fissures,
cavities, sinkholes or soft soil layers exist within the limestone bedrock for a depth
below the pile toe of 5 meters or 5 times the diameter of bored pile, whichever is
greater.
If fissures, cavities, sinkholes or soft layers are present, then the length of pile shall
be extended beyond these discontinuities to such depths where the thickness of
continuous and competent limestone below pile toe is the greater of 5 meters or 5
times the diameter of bored pile. Alternatively, the Contractor may propose for
agreement a suitable method or system of construction which will ensure that the
completed pile can carry the specified working load with the required factor of safety;
in no case shall the thickness of continuous and competent limestone below the
alternative system be less than the greater of 5 meters or 5 times the diameter of
bored pile.
3.1.2
3.1.3 3.2
3.2.1
Tension Piles
For the purpose of tender, tension piles shall be socketed into a moderately strong
limestone layer for a length which shall be the greater of 2 meters or the calculated
anchorage bond length derived from accepted principles of good foundation
engineering. The unit rate for the pile shall allow for the contingency wherein the
required anchorage bond length derived from calculation exceed the minimum
socketing length specified. In the event the minimum socketing length cannot be
achieved on site due to hard drilling conditions, it shall be the responsibility of the
Contractor to verify that pile capacity is adequate by means of load test.
In addition to tensile loads, the Contractor shall ensure that tension piles are capable
of carrying the specified compression loads.
If fissures, cavities, sinkholes and soft layers are encountered below the toe of
tension piles, the same provisions in this specification under the sub-headings ‘Cavity
Probes' and 'Treatment of Cavities' shall apply.
Cavity Probes
The Contractor shall allow a unit rate for probing of limestone strata to establish the
location, depth and size of fissures, cavities or soft layers within the limestone
bedrock below pile toe level. All probes shall extend a minimum of 5 meters or 5
times pile diameter, whichever the greater, under each bored pile resting on
limestone formation. It is foreseeable that probing may exceed the minimum length
specified, and the unit rate for probing shall allow for this contingency.
Among other things, the unit rate for probing shall include drilling below the base of
pile and for grouting of the core hole after completion of probing. The grout shall be
an agreed dense cement grout with a minimum 28 day strength of 20 N/mm2. If extra
grout is required for purposes other than to fill up the core hole formed by cavity
probing, as in the treatment of cavities etc, such additional grouting work shall be
measured separately. The unit rate for probing should clearly differentiate between
percussion drilling through either flat or inclined rock surfaces, drilling through
cavities, fissures and soft soil layers between rock, and drilling in soil. Cavities and
soft soil layers between rocks shall be paid as drilling in soil where such cavities and
soft layers extend through depths greater than 1.5 meters. The size designation for
drilling shall be "N" for soil and maximum "NX" for rock.
For the purpose of the tender, the provisional numbers of cavity probes shall be
computed on the basis of one (1) probe at each column location on plan. During the
execution of the works, it is required for each pile resting on limestone to be
subjected to cavity probing below the pile base. It is foreseeable that the actual
numbers of probes may exceed the provisional quantity allowed at tender, in which
case it is held that the Contractor has provided for this contingency in his construction
programme and that he shall not be entitled to extra time on this account.
Cavity probing shall be a separately measured item distinct from other soil
investigation works (additional exploratory bore holes for soil sampling, SPT,
pressuremeter test etc) which the Contractor may undertake.
3.2.2
3.2.3
3.3
3.3.1
3.3.2
3.3.3
3.3.4 3.4
3.4.1
Treatment of Cavities
Where cavities are encountered, the Contractor may propose for the Engineer's
agreement suitable alternative methods of construction to ensure the proper
formation of a pile which can carry the specified working load with the required factor
of safety.
The Contractor's proposal shall comprise proven system(s) which have been installed
successfully in similar soil conditions. The system(s) proposed shall take into
consideration the condition, size and type of cavity, whether it is active or inactive,
filled or unfilled, single layered or multi-layered, and if multi-layered, whether
connected or unconnected.
An active cavity continues to increase in size with time. A large cavity is one which
exceeds the plan area of a pile group or which extends vertically in excess of 3
meters. A cavity which is devoid of any material within it is termed an unfilled cavity.
The successful treatment of cavities may involve but is not necessarily restricted to
one or a combination of the following methods:
(i) Permanent Casing
The use of permanent casing may suit conditions where the cavity is
waterlogged, unfilled, large and connected. Permanent casing shall span
across the cavity space to form the sides of bored pile. The casing shall be
extended a minimum of 1 meter beyond the cavity at each end.
The Contractor shall allow in the unit rate for permanent casing all provisions
for his design, supply and installation of the casing, including all material, labour
and plant. Permanent casing shall be thin walled mild steel cylindrical pipe
section, spirally welded or other similar construction. Where a permanent
casing is to be made from a series of short sections, it shall be designed and
placed so as to produce a continuous waterfree shaft. The dimensions and
quality of the casing shall be adequate to withstand without damage or
distortion all handling, construction and ground stresses to which they will be
subjected, including the pressure head exerted by concrete against the wall of
casing during casting. The casing shall have an internal diameter not less than
the specified pile diameter and shall be free of significant distortion and free
from internal projections and encrusted concrete which might prevent proper
formation of the bored pile.
Where permanent casing is provided, the Contractor shall check the pile
capacit