ASTM C563-16
Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement Using Compressive Strength

Standard No.

ASTM C563-16

Release Date

2016

Published By

American Society for Testing and Materials (ASTM)

Status

Be replaced

Replace By

ASTM C563-17

Latest

ASTM C563-20

Scope

3.1 The purpose of this guide is to estimate the SO₃ content for a hydraulic cement that gives maximum compressive strength in mortar made and cured at 23°C. The value obtained is one way to establish an appropriate level of sulfate in the manufacture of cements specified in Specifications C150, C595 and C1157.

3.2 The SO₃ content of a cement giving maximum compressive strength is different at different ages of mortar; typically this SO₃ content is higher at 3 days than the 24-h, and often higher for 7 days than that for 3 days. A manufacturer can choose the age of 24-h, 3 days or 7 days for specimens at which to determine optimum SO₃ content.

3.3 This guide indicates optimum SO₃ content for cement in mortar made and cured at a standard temperature of 23.0 ± 2.0°C (73.5 ± 3.5°F). The optimum SO₃ increases with increasing temperature and may increase when water-reducing admixtures are used.

3.4 It should not be assumed that the optimum SO₃ estimated in this guide is the same SO₃ content for optimum performance of a concrete prepared from the cement.

3.5 The guide is applicable to cements specified in Specifications C150, C595, and C1157.

1.1 This guide describes the determination of approximate optimum SO₃ for maximum compressive strength at 24 h, 38201;days, or 7 days by measuring the change in strength produced in hydraulic cement mortar as a result of substituting calcium sulfate for a portion of the cement.

1.2 This guide refers to the sulfur trioxide (SO₃) content of the cement only. Slag cements and occasionally other hydraulic cements can contain sulfide or other forms of sulfur. The determination of SO₃ content by rapid methods may include these other forms, and may therefore produce a significant error. If a significant error occurs, analyze the cement for SO₃ content using the reference test method of Test Methods C114 for sulfur trioxide.

1.3 Values stated as SI units are to be regarded as standard.

1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the app......

ASTM C563-16 history

• 2020 ASTM C563-20 Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement
• 2019 ASTM C563-19 Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement
• 2018 ASTM C563-18a Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement
• 2018 ASTM C563-18 Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement
• 2017 ASTM C563-17 Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement
• 2016 ASTM C563-16 Standard Guide for Approximation of Optimum SO3 in Hydraulic Cement Using Compressive Strength
• 2015 ASTM C563-15 Standard Test Method for Approximation of Optimum SO3 in Hydraulic Cement Using Compressive Strength
• 2013 ASTM C563-13 Standard Test Method for Approximation of Optimum SO3 in Hydraulic Cement Using Compressive Strength
• 2007 ASTM C563-07 Standard Test Method for Approximation of Optimum SO₃ in Hydraulic Cement Using Compressive Strength
• 2004 ASTM C563-04 Standard Test Method for Optimum SO₃ in Hydraulic Cement Using 24-h Compressive Strength
• 2003 ASTM C563-03 Standard Test Method for Optimum SO₃ in Hydraulic Cement Using 24-h Compressive Strength
• 2002 ASTM C563-02 Standard Test Method for Optimum SO₃ in Hydraulic Cement Using 24-h Compressive Strength
• 1996 ASTM C563-96 Standard Test Method for Optimum SO3 in Hydraulic Cement Using 24-h Compressive Strength