ASTM C1409-98
(Guide)Standard Guide for Measuring and Estimating Quantities of Insulated Piping and Components
Standard Guide for Measuring and Estimating Quantities of Insulated Piping and Components
SCOPE
1.1 This guide defines the components of an insulated piping system to be measured or counted to determine quantities and pricing for unit price contracts or extra work.
1.2 Pricing may be done through unit pricing for each item by pipe size, type of insulation system, insulating thickness, double or multilayer insulation, type of weatherproofing or jacketing, and pressure rating (if necessary) or through component (fitting) factor or multipliers.
1.2.1 Component (fitting) factors or multipliers, which are multipliers times the straight length of piping as shown in Table 1, determine relative prices for each component not within the scope of this guide. These factors or multipliers are to be determined by the insulating contractor relative to the given situation and insulation system specification.
1.2.2 It is suggested that only one type of pricing be used on a project.
1.2.3 The values stated in inch-pound units are to be regarded as the standard.
General Information
Relations
Standards Content (Sample)
NOTICE: This standard has either been superceded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
Designation: C 1409 – 98
Standard Guide for
Measuring and Estimating Quantities of Insulated Piping
and Components
This standard is issued under the fixed designation C 1409; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (e) indicates an editorial change since the last revision or reapproval.
INTRODUCTION
A committee of ASTM initiated this guide to improve industry-wide understanding of the
components in an insulated piping system that affect the installed cost of insulating the system. The
method of measurement standard used as a bias for this guide is the National Commercial and
Industrial Standards.
The American Society for Testing and Materials defines a guide as a series of options or instructions
that does not recommend a specific course of action. A guide only suggests a course of action. Its
purpose is to offer guidance based on a consensus of viewpoints, but not to establish a fixed procedure.
A guide is intended to increase the awareness of the user to available techniques in a given subject area
and to provide information from which subsequent evaluation and standardization can be derived.
It is the intention that this guide will help gain wider acceptance and understanding of the concepts
in the MICA standard.
1. Scope nents to be counted are selected by the involved parties.
1.1 This guide defines the components of an insulated
3. Significance and Use
piping system to be measured or counted to determine quan-
3.1 This guide establishes procedures to help parties in-
tities and pricing for unit price contracts or extra work.
volved in unit price piping insulation contracts reach agree-
1.2 Pricing may be done through unit pricing for each item
ment as to what components will be counted for pricing
by pipe size, type of insulation system, insulation thickness,
purposes.
double or multilayer insulation, type of weatherproofing or
jacketing, and pressure rating (if necessary) or through com-
4. Procedure
ponent (fitting) factor or multipliers.
4.1 For a unit price-type contract, establish unit prices for
1.2.1 Component (fitting) factors or multipliers, which are
straight run piping. These unit prices should include pipe size,
multipliers times the straight length of piping as shown in
type of insulation system, insulation thickness, double or
Table 1, determine relative prices for each component not
multilayer insulation, and type of weatherproofing or jacketing
within the scope of this guide. These factors or multipliers are
such as shown in the example in Table 1.
to be determined by the insulating contractor relative to the
4.2 Determine the quantity of straight run pipe insulation by
given situation and insulation system specification.
straight pipe measurement from centerline to centerline and
1.2.2 It is suggested that only one type of pricing be used on
include lengths of all in-line components. This method is
a project.
defined as “measured through” (see Fig. X3.1).
1.2.3 The values stated in inch-pound units are to be
4.3 Count the quantities of piping components. The piping
regarded as the standard.
components (fittings) to be counted may be modified by those
listed in Table 2. The components should be categorized by
2. Summary of Guide
pipe size, type of insulation system, insulation thickness, and
2.1 This guide lists examples of components of piping
pressure rating, if necessary. Table 2 may be used as a checklist
systems which effect insulation cost. From this list, compo-
to assist in the categorization.
4.4 The method of pricing (unit price per component or
This guide is under the jurisdiction of ASTM Committee C–16 on Thermal
fitting factors) for each category will be determined by the
Insulation and is the direct responsibility of Subcommittee C16.40 on Insulation
terms of a request for quotation or commercial contract.
Systems.
Current edition approved November 10, 1998. Published March 1999.
However, users of this guide must be aware that selection of
Further information is available from the Midwest Insulation Contractors Assn.
elements to be counted, categories, and method of measuring
(MICA), 2017 S. 139th Circle, Omaha, NE.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
NOTICE: This standard has either been superceded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
C1409–98
TABLE 1 Piping Unit Price Schedule, Hot Insulation, 0.016-in. Thick Aluminum Jacketing, Cost per Linear Foot (All Materials and Labor
Necessary for a Complete Installation)
A,B A,B A,B
1 1 1 1
1 ⁄2 22 ⁄2 33 ⁄2 43 ⁄2 DL 4DL 4DL
2 and under
2 ⁄2
3 ⁄2
Over 30 and
Equipment
A
DL = Double layer.
B
In some insulation systems, double-layer insulation may occur at smaller thickness.
pipe, have a direct bearing on the final total price. Knowledge 6. Industry Examples
of this fact is critical to the selection of the most qualified
6.1 Examples of how components are categorized and made
installer.
part of a unit price contract are shown in Appendix X1 and
4.5 For a unit price contract, each component shall have its
Appendix X2. These examples provide a range of possibilities.
own table categorized by pipe size, type of insulation system,
6.2 Examples of unit pricing by component are shown in
insulation thickness, and pressure rating, if necessary.
Appendix X3. One of these schedules, fitting factors, or
multipliers will be required for each component.
5. Piping Components
6.3 The method of measurement and how straight pipe
5.1 Table 2 lists a sample of components which effect the equivalent factors are categorized are shown in Fig. X3.1. Fig.
cost of insulation on a piping system. The “Note” column is X3.1 is basically the MICA standard and depicts the “Center-
line Measure Through” method of determining total quantity of
used when additional information is required to explain a
straight run pipe.
component as it generally applies to the insulation industry.
5.2 Table 2 may be used as a checklist when choosing which
7. Keywords
components will be counted and when determining difficulty
factors. However, for inclusion in contract or request for quote
7.1 extra work; factors; fittings; insulated pipe; measure
documents, a summary similar to Appendix X1 may be used. quantities; piping components; unit prices
NOTICE: This standard has either been superceded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
C1409–98
TABLE 2 Piping Components
A
Components (Fittings) Type Note
Screwed Welded Flanged Mitered
Elbow: 1
Long radius 90°
Long radius 45°
Short radius 90°
Short radius 45°
Less than 45°
Reducing 2
Bend:
Radius greater than 1 ⁄2 D 3
Valve (including Bonnet Flgd.) 6
Gate
Globe
Check
Relief
Angle
Control
Butterfly
Special
Valve (excluding Bonnet Flgd.) 6
gate
globe
check
relief
angle
Control
Butterfly
Special
Flange:
Line
Blind
Orifice (plate)
Tee: 4
Straight
Reducing 2
Strainer
Lateral (Y-branch) 2
Cross
Cap
Bevel
Reducer:
Concentric 2
Eccentric
Union
Boss
Stub-in:
Sockolet 4
Weldolet
Thredolet
Thermoweld
Steam trap
Expansion joint
Hanger
Support
Patchwork
Open area (comeback) 5
Instruments
Instrument tubing
A
The following are explanations of Notes 1 to 6:
1. “Mitered” applied to elbows only.
2. Count as larger pipe size.
3. Measure actual length of bend.
4. Items under stub-in category do not count as tees.
5. Areas such as field welds that contractually cannot be insulated at the same time as
...
Questions, Comments and Discussion
Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.