This document provides guidelines for submitting concrete mixture proportions for a construction project. It discusses what information should be included in the submittal, such as the sources and properties of materials, mixture design details, and documentation of compressive strength. The submittal should include cement type, aggregate sources and gradations, admixture information, and water source. It recommends providing saturated surface dry densities, absorption, and fineness modulus test results for aggregates. The submittal format may be specified by the project documents and should include all details required to evaluate if the mixture meets the job specifications.
Experimental assessment of bitumen coat-resistance to impact strength corrosi...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The focus of the seminar is to give participants a clearer understanding of the interrelationship in masonry buildings between materials, architecture, engineering and construction. Seemingly simple decisions can dramatically affect the building and understanding options available in materials, design and construction methods can result in more efficient and cost effective structures. Taught using a “Tips” format, the seminar highlights areas where proper understanding of masonry - from architectural and engineering design to materials to construction methods - can result in better completed buildings. Ways to use existing materials more effectively, explanations of the effect of one selection on another, discussions of new materials and current code and specification provisions are included.
Correlation between Soil Properties and External Corrosion Growth rate of Car...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
ACI 318 - 1999
Requisitos de Reglamento para Concreto Estructural+Comentarios
En Ingles
--------------------------
Te invito a que visites mis sitios en internet:
_*Canal en youtube de ingenieria civil_*
https://www.youtube.com/@IngenieriaEstructural7
_*Blog de ingenieria civil*_
https://thejamez-one.blogspot.com
Experimental assessment of bitumen coat-resistance to impact strength corrosi...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The focus of the seminar is to give participants a clearer understanding of the interrelationship in masonry buildings between materials, architecture, engineering and construction. Seemingly simple decisions can dramatically affect the building and understanding options available in materials, design and construction methods can result in more efficient and cost effective structures. Taught using a “Tips” format, the seminar highlights areas where proper understanding of masonry - from architectural and engineering design to materials to construction methods - can result in better completed buildings. Ways to use existing materials more effectively, explanations of the effect of one selection on another, discussions of new materials and current code and specification provisions are included.
Correlation between Soil Properties and External Corrosion Growth rate of Car...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
ACI 318 - 1999
Requisitos de Reglamento para Concreto Estructural+Comentarios
En Ingles
--------------------------
Te invito a que visites mis sitios en internet:
_*Canal en youtube de ingenieria civil_*
https://www.youtube.com/@IngenieriaEstructural7
_*Blog de ingenieria civil*_
https://thejamez-one.blogspot.com
ACI 318 - 2002
Requisitos de Reglamento para Concreto Estructural+Comentarios
En Ingles
--------------------------
Te invito a que visites mis sitios en internet:
_*Canal en youtube de ingenieria civil_*
https://www.youtube.com/@IngenieriaEstructural7
_*Blog de ingenieria civil*_
https://thejamez-one.blogspot.com
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Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
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2. 211.5R-2 SUBMITTAL OF CONCRETE PROPORTIONS
CHAPTER 1—INTRODUCTION
1.1—General
Project specifications, reference publications, drawings,
and other contract documents contain the requirements for
concrete materials, proportions, and characteristics. Concrete
mixture proportions, intended to satisfy these requirements,
are usually submitted based upon field test results or laborato-
ry trial batch test results. The Purchaser’s acceptance of mate-
rials and proportions is based upon conformance of the
submitted details to the criteria contained in the contract doc-
uments. Specified submittal formats supersede this guide.
1.2—Purpose
The purpose of this guide is to provide information to as-
sist in the submittal and review of materials and concrete
mixture proportions. It is intended to benefit both the submit-
ter and the reviewer. Beginning with the preparation of the
concrete mixture proportions and supporting documentation
by the concrete producer, followed by the actual submittal of
the mixture proportions by the concrete contractor to the
general contractor and subsequently to the Architect and En-
gineer, each in turn should find this information helpful.
1.3—Scope
This guide is limited to the preparation and review of the
submittal of proposed materials and concrete mixture pro-
portions for conformance with the requirements of the con-
tract documents. It is not intended to impose additional
requirements but rather to help the user recognize and imple-
ment current ACI practices and procedures that may be re-
quired for the project.
1.4—Definitions
Admixture—A material other than water, aggregate, hy-
draulic cement, and fiber reinforcement used as an ingredi-
ent of concrete or mortar and added to the batch immediately
before or during its mixing (ACI 116R).
Aggregate—Granular material, such as sand, gravel,
crushed stone, crushed hydraulic-cement concrete, or iron
blast-furnace slag, used with a hydraulic cementing medium
to produce either concrete or mortar (ACI 116R).
Aggregate, lightweight—Aggregate of low density, such as
(a) expanded or sintered clay, shale, slate, diatomaceous
shale, perlite, vermiculite, or slag; (b) natural pumice, scoria,
volcanic cinders, tuff, and diatomite; (c) sintered fly ash or
industrial cinders, used in lightweight concrete (ACI 116R).
Cement, hydraulic—A cement that sets and hardens by
chemical interaction with water and is capable of doing so
under water (ACI 116R).
Concrete—A composite material that consists essentially of a
binding medium within which are embedded particles or frag-
ments of aggregate, usually a combination of fine aggregate
and coarse aggregate; in portland cement concrete the binder
is a mixture of portland cement, and water (ACI 116R).
f 'cr —Required average compressive strength of concrete,
used as the basis for selection of concrete proportions
(ACI 104R).
f 'c — Specified compressive strength of concrete used in de-
sign (ACI 104R).
Fiber reinforcement—Discontinuous discrete fibers pro-
duced from steel, synthetic (organic), glass, or natural mate-
rials, in various shapes and sizes that are added before or
during mixing of the concrete.
Water-cementitious materials ratio—The ratio of the total
amount of water, exclusive only of that absorbed by the ag-
gregates, to the total mass of cementitious materials in a con-
crete or mortar mixture (ACI 116R).
CHAPTER 2—MATERIALS AND PRODUCTION
2.1 Quality of materials
Cementitious materials, aggregates, admixtures, fibers,
and water should comply with the contract documents. Evi-
dence of satisfactory performance of each material should be
provided on request. If a deviation from the specified mate-
rial is necessary, a full explanation to the Architect and En-
gineer should be included in the submittal.
2.2—Submittal information
Cement/cementitious materials—The source and type of
each material proposed for use on the project should be iden-
tified and included. Mill test reports, manufacturer’s certifi-
cation of compliance, or both, should be submitted, if
required, or be available upon request by the purchaser.
Aggregates—The sources and types and individual gradings
for each aggregate should be identified. In conformance with
ASTM C 33 and C 330, the combined gradings of the total
blended aggregate for each mixture should be included as de-
scribed in ACI 301. The fineness modulus of fine aggregate
should be reported. The saturated-surface-dry (SSD) specific
gravity and absorption of all aggregates should be provided.
Similarly, bulk density, specific gravity, and loose unit weight
of lightweight aggregate (both saturated and oven dry), should
be provided when lightweight aggregate is used.
For crushed stone and gravel coarse aggregates, the
dry-rodded unit weight for crushed stone and gravel coarse
aggregate is needed along with the size designation (as given
in ASTM C 33, C 330, or D 448) or the nominal maximum
size. Because all of these aggregate properties influence the
proportioning of the concrete mixture, they should be sub-
mitted to support the proposed mixture proportions.
Admixtures—The vendor and type of all admixtures pro-
posed for use should be identified in accordance with ASTM
C 260, C 494, or other governing standard. These admixtures
should be of the same type as those used in the trial mixtures
from which strength data were obtained. If admixtures are to
be added at a point other than the concrete batching facilities,
the location should be identified.
Water—The source of mixing water should be identified.
Non-potable water require evidence of satisfactory use in mor-
tar or concrete in accordance with ASTM C 94, Table 1. Some
specifications may restrict chloride ion content of the concrete.
3. 211.5R-3ACI COMMITTEE REPORT
Chloride ion content—Evidence of soluble chloride ion
content for each ingredient or for the hardened concrete may
be required.
Fibers, color pigments, and other additions—Where the
source and type of specific additions are required by the con-
tract, they should be contained in mixtures from which
strength data were obtained. Materials identified in the sub-
mittal as alternates to products specified by name should in-
clude evidence of satisfactory performance and compliance
to appropriate material standards.
Production—Information supporting compliance with the
contract documents or ASTM C 94 should be available upon
request by the purchaser. If more than one production facility
is proposed for use, the above information should be avail-
able for each.
CHAPTER 3—CONCRETE MIXTURE
PROPORTIONS
3.1—Proportioning
The concrete proportions expressed in terms of quantity
of each component combined with the freshly mixed con-
crete properties and the hardened concrete characteristics
constitute the concrete mixture submittal. The mass of ma-
terials determined by load cell, or balance beam scale,
equipment or by volumetric means and the absolute volume
contributed by each material in the mixture, should be in-
cluded in the mix design submittal. Ommission of compo-
nents, quantities, or properties by the submitter may result
in rejection of the submittal.
3.2—Quantities by mass
The quantity of cementitious material added in the powder
state should be expressed as pound-mass per cubic yard
(pcy) or kilograms per cubic meter (kg/m3
). Pozzolans that
are added in a slurry should have their respective solid and
water contents expressed as pound-mass/cubic yard or kilo-
grams/cubic meter. The quantity of each separately batched
size of coarse aggregate and fine aggregate should be ex-
pressed as pound-mass/cubic yard or kilograms/cubic meter
in a saturated-surface-dry (SSD) condition. If lightweight
aggregate is used, the oven-dry and estimated wet weight
should be stated.
Admixtures dispensed as liquids should be expressed as
fluid ounces/cubic yard (fl oz/cy) or liters/cubic meter (L/
m3
) and where applicable, expected dosage range stated. The
quantity of any premeasured, prepackaged additives, such as
fibers or color pigments, should be expressed in incremental
units (sacks, bags, boxes, or tins, etc.) and pound-mass/cubic
yard or kilograms/cubic meter.
3.3—Quantities by volume
The absolute volume of each material, air content, and the
total sum of the absolute volumes of all materials should be
provided in cubic feet (ft3
) or cubic meters (m3
). If light-
weight aggregate is used, the bulk volume in the saturated
condition should be stated. It is customary and acceptable in
most localities to proportion mixtures to yield in excess of
27.00 ft3
/yd3
or in excess of 1.00 m3
per m3
. The practice
provides producers with a systematic means of handling
charges of short yield due to air content fluctuation.
3.4—Freshly mixed concrete properties
Slump, unit weight, and air content should be reported for
each set of mixture proportions intended for use. Placement
methods (pumping, slip forming, etc.) associated with each
proposed mixture should be indicated where appropriate.
Sometimes different freshly mixed concrete properties will
be needed for different placement procedures and condi-
tions; these should be consistent with the limits set in the
contract documents. When the concrete is to be delivered to
the point of placement by concrete pump or other convey-
ance, the location at which the above properties are to be
achieved should be clarified in advance.
CHAPTER 4—DOCUMENTATION OF
COMPRESSIVE STRENGTH
4.1—Required average strength ( f 'cr)
A submittal of concrete mixture proportions should dem-
onstrate a compressive strength equal to or exceeding the re-
quired average strength. Provisions for calculating f 'cr are
contained in ACI 211.1, ACI 214, ACI 301 and ACI 318
documents. The required average strength can be based on
the specified minimum compressive strength ( f 'c ) for a class
of concrete, which should include an overdesign amount
when based on laboratory trial batches. When past perfor-
mance records of uniformity of the concrete production are
available, the statistical probability of a certain number of
test results falling below the design strength can be anticipat-
ed and controlled by selection of the appropriate f 'cr . Sub-
mittal of concrete mixture proportions should contain the
method used to select f'cr for each class of concrete.
4.2—Past performance record submittal
When compressive strength data are available from con-
crete production using the materials proposed, the statistical
analysis of the data should be calculated in accordance with
ACI 214. A data summary identifying the mixture propor-
tions and individual test results, should be part of the submit-
tal. These records become the basis for verifying the required
average strength and validation of the proposed mixture.
Concrete sampled and tested under conditions more strin-
gent than those imposed by the contract documents may be
excluded from use in calculation of the required average
strength based on past performance.
4.3—Trial batch record submittal
If past performance records for the proposed mixture pro-
portions are not available, trial batches may be required by
specification. When trial batches are used to establish
strength relationships or to verify strength characteristics of
the mixture, the least favorable combination of mixing water
and air content should be used (ACI 211.1). This will pro-
vide a conservative estimate of strength. Trial batch proce-
dures and report records should comply with ASTM C 192.
4. 211.5R-4 SUBMITTAL OF CONCRETE PROPORTIONS
4.4—Resubmittal
During the conduct of the work, if any changes to the mix-
ture proportions or materials are made, the revised propor-
tions should demonstrate a compressive strength equal to or
exceeding the current required average strength established
by job records.
CHAPTER 5—SAMPLE FORMS AND SUGGESTED
DOCUMENTATION
5.1—Transmittal letter
Each submittal should be introduced by an original trans-
mittal letter identifying the proposed concrete mixture(s) to
be furnished, the project for which it is submitted, and the
method used to select proportions. The transmittal should be
signed and dated by the person that prepared the submittal
and the person selecting the mixture proportions. If more
than one party contributed to the submittal, each contribu-
tor's role should be identified.
5.2—Source of materials
A statement identifying the source of each material is
needed. Certification of compliance with contract docu-
ments for each proposed material may be required by spec-
ification. These statements or certifications or both can be
included with the transmittal letter or attached separately.
An abbreviated source of materials can be incorporated in
Example Form A or B.
5.3—Submittal forms
The quantity of each ingredient as described in Chapter 3
and the mixture proportions format should be prepared as an
independent document, suitable for distribution. Mixture
proportions, material characteristics, and freshly mixed con-
crete properties may be formatted as shown in Example
Forms A and B. The examples can be used to present the nec-
essary details, but they are not intended to replace specified
submittal formats or work sheets used to perform the neces-
sary calculations. When laboratory trial batches are used to
document a water-cementitious materials ratio curve, a com-
pleted Example Form B should follow a completed Example
Form A in the submittal. Additional data summarizing the
past performance records should be an integral part of the
submittal if the submittal is based on past performance with
the proposed materials and proportions. Space should be
provided for a date and signature of the person compiling or
verifying the tabulation.
CHAPTER 6—REFERENCES
6.1—Recommended references
American Concrete Institute (ACI)
104R Preparation of Notation for Concrete
116R Cement and Concrete Terminology
201.2R Guide to Durable Concrete
211.1 Practice for Selecting Proportions for Normal,
Heavy Weight, and Mass Concrete
211.2 Practice for Selecting Proportions for Structural
Lightweight Concrete
211.4R Guide for Selecting Proportions for High-Strength
Concrete With Portland Cement and Fly Ash
212.3R Chemical Admixtures for Concrete
214 Recommended Practice for Evaluation of Strength
Test Results of Concrete
226.1R Ground Granulated Blast-Furnace Slag as a
Cementitious Constituent in Concrete
226.3R Use of Fly Ash in Concrete
301 Specifications for Structural Concrete for Buildings
304R Guide for Measuring, Mixing, Transporting, and
Placing Concrete
318 Building Code Requirements for Reinforced
Concrete
363R State-of-the-Art Report on High-Strength Concrete
544.1R State-of-the-Art Report on Fiber Reinforced
Concrete
544.3R Guide for Specifying, Mixing, Placing, and Finish-
ing Steel Fiber Reinforced Concrete
American Society for Testing and Materials (ASTM)
C 29 Test Method for Unit Weight and Voids in
Aggregates
C 31 Practice for Making and Curing Concrete Test
Specimens in the Field
C 33 Specification for Concrete Aggregates
C 39 Test Method for Compressive Strength of
Cylindrical Concrete Specimens
C 94 Specification for Ready-Mixed Concrete
C 143 Test Method for Slump of Hydraulic Cement
Concrete
C 172 Practice for Sampling Freshly Mixed Concrete
C 173 Test Method for Air Content of Freshly Mixed
Concrete by the Volumetric Method
C 192 Practice for Making and Curing Concrete Test
Specimens in the Laboratory
C 231 Test Method for Air Content of Freshly Mixed
Concrete by the Pressure Method
C 260 Specification for Air-Entraining Admixtures for
Concrete
C 330 Specification for Lightweight Aggregate for
Structural Concrete
C 494 Specification for Chemical Admixtures for Concrete
C 1116 Standard Specification for Fiber-Reinforced
Concrete and Shotcrete
D448 Classification for Sizes of Aggregate for Road and
Bridge Construction
The publications listed above may be obtained from the
following organizations:
American Association of State Hightway and Transportation Offi-
cials (AASHTO)
444 North Capitol Street NW, Suite 225
Washington, DC 20001
American Concrete Institute (ACI)
P.O. Box 9094
Farmington Hills, MI 48333-9094
American Society for Testing and Materials
100 Bar Harbor Drive
W. Conshohocken, PA 19428