ACI PRC-330.2-17: Guide for the Design and Construction of Concrete Site Paving for Industrial and Trucking Facilities (Reapproved 2020)

Description

This guide provides information useful in the design and construction of a successful site-paving project for heavy-duty industrial and trucking facilities. This information assists architects/engineers, contractors, and testing agencies with designing, detailing, constructing, repairing, and inspecting site paving. Engineers use this guide to make recommendations for the pavement support system, concrete mixture, pavement thickness, joint spacing, and load transfer devices. Thickness design tables are including for common over-the-road trucks and industrial lift trucks. Tables are also provided to check the pavement thickness for punching shear and concrete strength for bearing stress applied by loaded trailers that have been disconnected from the tractor. Contractors use this guide to understand proper ways to construct site paving with block or strip placements and avoid common mistakes made during construction. Proper placing, consolidating, and finishing techniques are described to construct a durable pavement that complies with the project documents. Inspectors and testing agencies use this guide to understand the design and be better equipped to monitor the project from stripping and grubbing of the site to concrete pavement curing. Testing and inspection included in this guide should only be done by individuals holding the appropriate certifications.

Keywords: industrial pavement; joint stability; lift truck; lug anchor; over-the-road truck; pavement support system; sustainable industrial pavement system; unreinforced concrete pavement.

Document Details

Author: ACI Committee 330

Publication Year: 2017

Pages: 67

ISBN: 9781945487606

Categories: Parking Lots

Formats: Protected PDF/Web View

Table of Contents

CHAPTER 1—GENERAL

1.1—Introduction

1.2—Scope

1.3—Background

CHAPTER 2—NOTATION AND DEFINITIONS

2.1—Notation

2.2—Definitions

CHAPTER 3—SUBGRADES AND SUBBASES

3.1—Pavement support system

3.2—Subgrade/subbase failure modes

3.3—Subgrade considerations

3.4—Subbase considerations

CHAPTER 4—PAVEMENT DESIGN

4.1—Introduction

4.2—Loads

4.3—Concrete properties

4.4—Jointing

4.5—Reinforcement

4.6—Joint stability (load transfer)

4.7—Thickness design

4.8—Other design features

CHAPTER 5—CONCRETE MATERIALS AND MIXTURE PROPORTIONING

5.1—Introduction

5.2—Cementitious materials

5.3—Mixing water

5.4—Aggregates

5.5—Admixtures

5.6—Concrete mixture design

CHAPTER 6—CONSTRUCTION

6.1—Introduction

6.2—Subgrade and subbase preparation

6.3—Layout for construction

6.4—Forming and use of rigid screed guides

6.5—Concrete placement, screeding, and finishing

6.6—Installation of the different joint types

6.7—Joint sealing or filling

6.8—Curing

6.9—Special considerations for adverse weather conditions

6.10—Striping

6.11—Opening to traffic

CHAPTER 7—INSPECTION AND TESTING

7.1—Introduction

7.2—Site preparation and grading

7.3—Subgrade and subbase

7.4—Forming

7.5—Reinforcing steel

7.6—Concrete quality

7.7—Concrete curing

7.8—Jointing

7.9—Surface texture

CHAPTER 8—MAINTENANCE AND REPAIR

8.1—Introduction

8.2—Surface sealing

8.3—Joint resealing and crack sealing

8.4—Partial depth repair

8.5—Full-depth repair

8.6—Undersealing and leveling

CHAPTER 9—SUSTAINABILITY AND INDUSTRIAL CONCRETE PAVEMENTS

9.1—Sustainability considerations

9.2—Concrete as a sustainable industrial pavement system

9.3—Life cycle analysis

CHAPTER 10—REFERENCES

Authored documents

APPENDIX A—SOIL CLASSIFICATIONS AND DYNAMIC CONE PENETROMETER

A.1—Soil classifications

A.2—Dynamic cone penetrometer

APPENDIX B—THICKNESS DESIGN SOFTWARE AND THICKNESS DESIGN EXAMPLE

B.1—Proprietary design software

B.2—Thickness design example

APPENDIX C—LOAD TRANSFER THROUGH ENHANCED AGGREGATE INTERLOCK

C.1—Load transfer through enhanced aggregate interlock

APPENDIX D—DRYING AND THERMAL EXPANSION AND CONTRACTIO OF CONCRETE

D.1—Drying and thermal expansion and contraction

D.2—Curling and warping

D.3—Factors that affect shrinkage, curling, and warping

D.4—Compressive strength and shrinkage

D.5—Relation between curing and curling and warping

D.6—Curling and warping stresses in relation to joint spacing

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