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ASTM F1063-09(2014)

(Practice)

Standard Practice for Functional Inspections and Adjustments of Alpine Ski/Binding/Boot Systems

Standard Practice for Functional Inspections and Adjustments of Alpine Ski/Binding/Boot Systems

SIGNIFICANCE AND USE
4.1 The purpose of this practice is to aid in providing the end user with an appropriately functioning system with appropriate release torque setting(s).  
4.2 The definitions and tolerances defined in this practice do not necessarily apply to procedures incorporating an inspection interval or schedule, in which such procedures are specified by the binding manufacturer. This practice is not intended to be a method for evaluating equipment design.  
Note 2: Refer to Practice F1064 for definitions and tolerances pertaining to the evaluation of equipment once in use.
SCOPE
1.1 This practice provides procedures for inspection and adjustment of alpine ski/binding/boot systems.  
1.2 This practice should be followed for systems, whether newly mounted or previously mounted, when work is performed on the system that may affect its release function, unless otherwise specified by the binding manufacturer in non-rental applications.  
1.3 Nonapplicability of this function and release inspection practice to rental shop operations is based upon the existence of applicable ASTM practices.  
Note 1: Refer to Practice F1064 for equivalent procedures and tolerances for complete and incomplete rental systems.  
1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.

General Information

Status
Historical
Publication Date
30-Jun-2014
ICS
97.220.20 - Winter sports equipment
Technical Committee
F27 - Snow and Water Sports
Drafting Committee
F27.50 - Shop Procedures (Retail and Rental)
Current Stage
Ref Project

Relations

Replaces
ASTM F1063-09 - Standard Practice for Functional Inspections and Adjustments of Alpine Ski/Binding/Boot Systems
Effective Date
01-Jul-2014
Referred By
ASTM F1064-21 - Standard Practice for Sampling and Inspection of Complete and Incomplete Alpine Ski/Binding/Boot Systems in Rental Applications
Effective Date
01-Jul-2014
Referred By
ASTM F939-19 - Standard Practice for Selection of Release Torque Values for Alpine Ski Bindings
Effective Date
01-Jul-2014
Referred By
ASTM F1062-97(2018) - Standard Test Method for Verification of Ski Binding Test Devices
Effective Date
01-Jul-2014
Referred By
ASTM F1061-08(2020) - Standard Specification for Ski Binding Test Devices
Effective Date
01-Jul-2014

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REDLINE ASTM F1063-09(2014) - Standard Practice for Functional Inspections and Adjustments of Alpine Ski/Binding/Boot SystemsREDLINE ASTM F1063-09(2014) - Standard Practice for Functional Inspections and Adjustments of Alpine Ski/Binding/Boot Systems
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Standards Content (Sample)


NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
Designation: F1063 − 09 (Reapproved 2014)
Standard Practice for
Functional Inspections and Adjustments of Alpine Ski/
Binding/Boot Systems
This standard is issued under the fixed designation F1063; 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 (´) indicates an editorial change since the last revision or reapproval.
INTRODUCTION
Adhering to these guidelines may help reduce the risk of injuries resulting from improper
mechanicalfunctioningofreleasablealpinebindingsystems.Skiinginvolvesinherentrisksandinjury
canresultfromsimplyfallingdown,impactwithanobject,orfrommanyotheractions.Manyinjuries
are unrelated to system function and a properly functioning system cannot protect the skier in all
situations. Compliance with these guidelines in no way guarantees that injury will be prevented.
1. Scope and Incomplete Alpine Ski/Binding/Boot Systems in
Rental Applications
1.1 This practice provides procedures for inspection and
adjustment of alpine ski/binding/boot systems.
3. Terminology
1.2 This practice should be followed for systems, whether
3.1 Definitions:
newly mounted or previously mounted, when work is per-
3.1.1 clean versus lubricated tolerance—accepted differ-
formed on the system that may affect its release function,
ence between clean and lubricated test results, defined as not
unless otherwise specified by the binding manufacturer in
more than 20 % of the clean test, used whenever a functional
non-rental applications.
test for binding-boot compatibility is required (see 6.3).
1.3 Nonapplicability of this function and release inspection
3.1.2 clockwise versus counterclockwise tolerance—
practicetorentalshopoperationsisbasedupontheexistenceof
accepted difference between test results about an axis perpen-
applicable ASTM practices.
dicular to the plane of the ski, usually from the toe piece
component, and defined as within the inspection tolerance.
NOTE 1—Refer to Practice F1064 for equivalent procedures and
tolerances for complete and incomplete rental systems.
3.1.3 corrective action—procedures other than readjustment
of the visual indicator setting (see 3.1.18) to include repair or
1.4 The values stated in SI units are to be regarded as
replacement of system components.
standard. No other units of measurement are included in this
standard.
3.1.4 deviation—difference between the test result (see
3.1.16) and the selected reference torque value (see 3.1.12),
2. Referenced Documents
usually expressed as a percentage of the selected reference
torque value.
2.1 ASTM Standards:
F939 Practice for Selection of Release Torque Values for
3.1.5 in use tolerance—accepted difference between the
Alpine Ski Bindings
reference torque value and the test result(s), defined as 630 %
F1061 Specification for Ski Binding Test Devices
of the reference torque value, or 65 Nm for twist and 20 Nm
F1064 Practice for Sampling and Inspection of Complete
for forward lean, whichever is greater, or two horizontal rows
up or down from the selected reference torque value deter-
mined on the binding manufacturer’s adjustment chart. In the
This practice is under the jurisdiction of ASTM Committee F27 on Snow
absence of an applicable manufacturer’s chart, use Annex A2.
Skiing and is the direct responsibility of Subcommittee F27.50 on Shop Procedures
For non-rental applications, this tolerance is used as the upper
(Retail and Rental).
and lower limit for determining if system release values are
Current edition approved July 1, 2014. Published July 2014. Originally approved
acceptable for in-use or in-service purposes, after said system
in 1989. Last previous edition approved in 2009 as F1063 – 09. DOI: 10.1520/
F1063-09R14.
has been released to the customer. This limit is derived from
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
PracticeF1064,3.1.1 Class 1 deviation.Thisdeviation(616to
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
30 %, or two horizontal rows up or down from the selected
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. reference torque value) is defined as a minor deviation that
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
F1063 − 09 (2014)
does not require corrective action for equipment that is 3.1.14 skier type—classification, selected by the skier, for
in-service, in rental applications. It is used as the upper and the type of skiing to be undertaken.
lower limit for readjustment of the binding.
3.1.14.1 Type I—designation that provides lower than aver-
3.1.6 initial visual indicator setting—visualindicatorsetting age release/retention values; corresponds to an increased risk
derived from the binding manufacturer’s adjustment chart. of inadvertent binding release in order to gain releasability in
a fall; also applies to entry level skiers uncertain of their
3.1.7 inspection tolerance—accepteddifferencebetweenthe
classification.
reference torque value and the test result. Defined as 615 % of
3.1.14.2 Type II—designation that provides average release/
the reference torque value, or 63 Nm for twist and 610 Nm
forforwardlean,whicheverisgreater,oronehorizontalrowup retention values appropriate for most recreational skiing;
applies to skiers not classified as in Type I or Type III.
or down from the selected reference torque value determined
on the binding manufacturer’s adjustment chart, (see Annex
3.1.14.3 Type III—designation that provides higher than
A2). It is used as the criteria for prompting consultation of the
average release/retention values; corresponds to decreased
binding manufacturer’s troubleshooting procedures or read-
releasability in a fall in order to gain a decreased risk of
justment of the binding, or a combination of both.
inadvertent binding release.
3.1.7.1 Discussion—When an algorithm or table is used to
3.1.14.4 (/)—a symbol that separates skier type
provide a value, either may be used (differences may be
designations, used when, as a result of troubleshooting, differ-
insignificant).
ent skier types have been selected for determining twist (M ),
x
3.1.8 limit for readjustment—accepted difference between
and forward lean (M ) release/retention values; shown in the
z
the reference torque value (see 3.1.12) and test result(s) (see
order (twist/forward lean) or (T/H) to denote toe piece (T) and
3.1.16), defined as 630 % of the reference torque value, or 65
heel piece (H) of this ski binding. Other conventions may be
Nmfortwistand20Nmforforwardlean,whicheverisgreater,
used to record different skier types for twist and forward lean
or two horizontal rows up or down from the selected reference
when required by the documentation
torque value determined on the binding manufacturer’s adjust-
3.1.15 system—group of interacting components, usually
ment chart (see Annex A2). For a reference torque value of 8
comprised of a ski, binding, and boot.
Nm in twist and 29 Nm in forward lean (Skier Code A in
3.1.16 test result—middle quantitative value of three repeti-
Annex A2), the limit for readjustment is one row up or two
tions of the same test.
rows down on the adjustment chart. The limit for readjustment
is used as the upper and lower limit for readjustment of the
3.1.17 troubleshooting—binding manufacturer’s recom-
binding.
mendations or procedures of analyzing system failure.
3.1.9 measured release value—release torque value deter-
3.1.18 visual indicator setting—setting displayed on the
mined by the use of a testing device of the type defined in
binding’s release/retention adjustment scale.
Annex A1.
4. Significance and Use
3.1.10 readjustment value—value that shall be added or
subtracted from the initial visual indicator setting to bring the
4.1 The purpose of this practice is to aid in providing the
test result within the inspection tolerance.
end user with an appropriately functioning system with appro-
priate release torque setting(s).
3.1.11 release/retention value—release torque of the ski/
binding/boot system.
4.2 Thedefinitionsandtolerancesdefinedinthispracticedo
3.1.11.1 discretionary settings—visual indicator settings notnecessarilyapplytoproceduresincorporatinganinspection
interval or schedule, in which such procedures are specified by
higher or lower than the normal setting range
(1) (–)—a symbol, that when placed to the left of Type 1 the binding manufacturer. This practice is not intended to be a
method for evaluating equipment design.
(see 3.1.14.1), provides release/retention values lower than
Type I, corresponds to a further increase in the risk of
NOTE 2—Refer to Practice F1064 for definitions and tolerances per-
inadvertent binding release in order to gain increased releas-
taining to the evaluation of equipment once in use.
ability in a fall.
(2) (+)—asymbol,thatwhenplacedtotherightofTypeIII
5. Procedure
(see 3.1.14.3), provides release/retention values higher than
5.1 Inspections— Two types of inspection procedures are
Type III, corresponds to a further decrease in releasability in a
described in this practice: (1) procedures to check the system
fall in order to gain a decreased risk of inadvertent binding
for appropriate function, and (2) procedures to check the
release.
systemforappropriatereleasetorquecalibration(seeAppendix
3.1.12 reference torque value—nominalreleasetorquevalue
X4). In all procedures requiring a measured release value, the
derived from a document compatible with Practice F939, such
system testing device should meet Specification F1061 and be
as Annex A2, or information supplied by the binding or test
checked by the method described in Annex A1.
device manufacturer.
5.1.1 Functional Inspections—These inspections shall in-
3.1.13 skier code—letter code derived from the binding clude inspection of all boot-to-binding adjustments and
manufacturer’s adjustment chart, based on a skier’s parameters clearances, appropriate elastic travel (see 6.1), symmetry of
(height, weight, age, and skier type). torsional release, boot-binding compatibility (see 6.3), and
F1063 − 09 (2014)
other inspections recommended by the equipment manufactur- detergent solution may be used to help clean the system,
ers (see Appendix X4). provided all surfaces are flushed with clean water afterwards.
5.1.2 Release Torque Value Inspections—The release torque
value of the system, as assembled for use, shall be inspected 7. Release Torque Inspections
with the use of a system testing device (see Annex A1). A
7.1 Tests for Twist Release—A test should be performed to
descriptionofreleasetorquevalueinspectionsandtolerancesis
determine the torque required to release the binding in twist
included in this practice (see Section 7 and Appendix X4).
(Mz) about an axis perpendicular to the plane of the boot sole.
This test should be performed using a device of the type
5.2 Reference Torque Value Selection—Reference torque
values for release torque may be selected using Annex A2 or described in Annex A1 and should be performed in both
clockwise and counterclockwise directions of release. Test
tables supplied by the binding manufacturer or system testing
device manufacturer, which are in accordance with Practice results should be within the appropriate inspection tolerance.
Units that exceed the inspection tolerance should be readjusted
F939. Reference torque values above the upper limit specified
by Practice F939 or above the binding manufacturer’s recom- to test within the inspection tolerance. When an initial visual
indicator setting is used (see Appendix X4), readjustment
mendationsshouldnotbeused.Valuesbelowthelowerlimitor
below the binding manufacturer’s recommendations may be should not be attempted if test result(s) exceed the limit for
readjustment without first taking corrective action as specified
used unless the binding manufacturer recommends against
such procedures. by the binding manufacturer.
7.2 Tests of Forward Lean Release—A test should be made
6. Functional Inspections
to determine the torque required to release the binding in
forward lean. This test should be made using a device of the
6.1 Test for Elastic Travel and Recentering—The system
type described in AnnexA1.Test result(s) should be within the
should be exercised to ensure the boot or plate can travel a
inspection tolerance. Units that exceed the inspection tolerance
distance specified by the manufacturer and return freely to
should be readjusted to within the inspection tolerance. When
within 2 mm of the original position. This test should be made
aninitialindicatorsettingisused(see3.1.6andAppendixX4),
in all directions of release and in a manner specified by the
readjustment should not be attempted if test result(s) exceed
binding manufacturer. If no displacement is specified, then
the limit for readjustment without first taking corrective action
displacement of 5 mm measured at the toe or heel (as
as specified by the binding manufacturer (see 3.1.1 and 3.1.7).
appropriate) should be used and the test should be performed
7.2.1 If no independent means are provided to adjust the
byanydeviceormethodcapableofdisplacingthebootorplate
forwardleanrelease,thistestshouldbeusedtoensuretheratio
the necessary distance.
of forward lean to twist release is as specified by the manu-
6.2 Test for Symmetrical Release—The system should be
facturer.
tested for twist release in both the clockwise and counterclock-
7.3 Other Release Tests—Tests of the type in 7.1 and 7.2
wise directions with a device of the type specified in Annex
should be made in any other direction specified by the binding
A1.
manufacturer.
6.3 Test of Boot/Binding Compatibility—Used as a diagnos-
tic inspection for determining the compatibility of a boot and
8. Test Conditions
binding used in a system. The boot should be of a shape,
8.1 Visual Indicator Setting for Functional Inspections—All
composition, construction, and condition acceptable to the
functional inspections should be performed at a setting pro-
binding manufacturer. Functional inspections specified by the
vided by the binding manufacturer. If no manufacturer recom-
binding manufacturer to determine the compatibility of the
mendations are provided, all functional inspections should be
boot and binding should be performed. If no functional
performed at the setting selected for the skier.
inspection procedures are specified by the binding
manufacturer, a functional inspection should be performed to
8.2 Release Adjustment for Validating Visual Indicator
determine the difference in test results between a clean, dry
Setting—Tests to v
...


This document is not an ASTM standard and is intended only to provide the user of an ASTM standard an indication of what changes have been made to the previous version. Because
it may not be technically possible to adequately depict all changes accurately, ASTM recommends that users consult prior editions as appropriate. In all cases only the current version
of the standard as published by ASTM is to be considered the official document.
Designation: F1063 − 09 F1063 − 09 (Reapproved 2014)
Standard Practice for
Functional Inspections and Adjustments of Alpine Ski/
Binding/Boot Systems
This standard is issued under the fixed designation F1063; 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 (´) indicates an editorial change since the last revision or reapproval.
INTRODUCTION
Adhering to these guidelines may help reduce the risk of injuries resulting from improper
mechanical functioning of releasable alpine binding systems. Skiing involves inherent risks and injury
can result from simply falling down, impact with an object, or from many other actions. Many injuries
are unrelated to system function and a properly functioning system cannot protect the skier in all
situations. Compliance with these guidelines in no way guarantees that injury will be prevented.
1. Scope
1.1 This practice provides procedures for inspection and adjustment of alpine ski/binding/boot systems.
1.2 This practice should be followed for systems, whether newly mounted or previously mounted, when work is performed on
the system that may affect its release function, unless otherwise specified by the binding manufacturer in non-rental applications.
1.3 Nonapplicability of this function and release inspection practice to rental shop operations is based upon the existence of
applicable ASTM practices.
NOTE 1—Refer to Practice F1064 for equivalent procedures and tolerances for complete and incomplete rental systems.
1.4 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
2. Referenced Documents
2.1 ASTM Standards:
F939 Practice for Selection of Release Torque Values for Alpine Ski Bindings
F1061 Specification for Ski Binding Test Devices
F1064 Practice for Sampling and Inspection of Complete and Incomplete Alpine Ski/Binding/Boot Systems in Rental
Applications
3. Terminology
3.1 Definitions:
3.1.1 clean versus lubricated tolerance—accepted difference between clean and lubricated test results, defined as not more than
20 % of the clean test, used whenever a functional test for binding-boot compatibility is required (see 6.3).
3.1.2 clockwise versus counterclockwise tolerance—accepted difference between test results about an axis perpendicular to the
plane of the ski, usually from the toe piece component, and defined as within the inspection tolerance.
3.1.3 corrective action—procedures other than readjustment of the visual indicator setting (see 3.1.18) to include repair or
replacement of system components.
3.1.4 deviation—difference between the test result (see 3.1.16) and the selected reference torque value (see 3.1.12), usually
expressed as a percentage of the selected reference torque value.
This practice is under the jurisdiction of ASTM Committee F27 on Snow Skiing and is the direct responsibility of Subcommittee F27.50 on Shop Procedures (Retail
and Rental).
Current edition approved June 1, 2009July 1, 2014. Published July 2009July 2014. Originally approved in 1989. Last previous edition approved in 20052009 as
ε1
F1063 – 05F1063 – 09. . DOI: 10.1520/F1063-09.10.1520/F1063-09R14.
For referenced ASTM standards, visit the ASTM website, www.astm.org, or contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM Standards
volume information, refer to the standard’s Document Summary page on the ASTM website.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
F1063 − 09 (2014)
3.1.5 in use tolerance—accepted difference between the reference torque value and the test result(s), defined as 630 % of the
reference torque value, or 65 Nm for twist and 20 Nm for forward lean, whichever is greater, or two horizontal rows up or down
from the selected reference torque value determined on the binding manufacturer’s adjustment chart. In the absence of an
applicable manufacturer’s chart, use Annex A2. For non-rental applications, this tolerance is used as the upper and lower limit for
determining if system release values are acceptable for in-use or in-service purposes, after said system has been released to the
customer. This limit is derived from Practice F1064, 3.1.1 Class 1 deviation. This deviation (616 to 30 %, or two horizontal rows
up or down from the selected reference torque value) is defined as a minor deviation that does not require corrective action for
equipment that is in-service, in rental applications. It is used as the upper and lower limit for readjustment of the binding.
3.1.6 initial visual indicator setting—visual indicator setting derived from the binding manufacturer’s adjustment chart.
3.1.7 inspection tolerance—accepted difference between the reference torque value and the test result. Defined as 615 % of the
reference torque value, or 63 Nm for twist and 610 Nm for forward lean, whichever is greater, or one horizontal row up or down
from the selected reference torque value determined on the binding manufacturer’s adjustment chart, (see Annex A2). It is used
as the criteria for prompting consultation of the binding manufacturer’s troubleshooting procedures or readjustment of the binding,
or a combination of both.
3.1.7.1 Discussion—
When an algorithm or table is used to provide a value, either may be used (differences may be insignificant).
3.1.8 limit for readjustment—accepted difference between the reference torque value (see 3.1.12) and test result(s) (see 3.1.16),
defined as 630 % of the reference torque value, or 65 Nm for twist and 20 Nm for forward lean, whichever is greater, or two
horizontal rows up or down from the selected reference torque value determined on the binding manufacturer’s adjustment chart
(see Annex A2). For a reference torque value of 8 Nm in twist and 29 Nm in forward lean (Skier Code A in Annex A2), the limit
for readjustment is one row up or two rows down on the adjustment chart. The limit for readjustment is used as the upper and lower
limit for readjustment of the binding.
3.1.9 measured release value—release torque value determined by the use of a testing device of the type defined in Annex A1.
3.1.10 readjustment value—value that shall be added or subtracted from the initial visual indicator setting to bring the test result
within the inspection tolerance.
3.1.11 release/retention value—release torque of the ski/binding/boot system.
3.1.11.1 discretionary settings—visual indicator settings higher or lower than the normal setting range
(1) (–)—a symbol, that when placed to the left of Type 1 (see 3.1.14.1), provides release/retention values lower than Type I,
corresponds to a further increase in the risk of inadvertent binding release in order to gain increased releasability in a fall.
(2) (+)—a symbol, that when placed to the right of Type III (see 3.1.14.3), provides release/retention values higher than Type
III, corresponds to a further decrease in releasability in a fall in order to gain a decreased risk of inadvertent binding release.
3.1.12 reference torque value—nominal release torque value derived from a document compatible with Practice F939, such as
Annex A2, or information supplied by the binding or test device manufacturer.
3.1.13 skier code—letter code derived from the binding manufacturer’s adjustment chart, based on a skier’s parameters (height,
weight, age, and skier type).
3.1.14 skier type—classification, selected by the skier, for the type of skiing to be undertaken.
3.1.14.1 Type I—designation that provides lower than average release/retention values; corresponds to an increased risk of
inadvertent binding release in order to gain releasability in a fall; also applies to entry level skiers uncertain of their classification.
3.1.14.2 Type II—designation that provides average release/retention values appropriate for most recreational skiing; applies to
skiers not classified as in Type I or Type III.
3.1.14.3 Type III—designation that provides higher than average release/retention values; corresponds to decreased releasability
in a fall in order to gain a decreased risk of inadvertent binding release.
3.1.14.4 (/)—a symbol that separates skier type designations, used when, as a result of troubleshooting, different skier types have
been selected for determining twist (M ), and forward lean (M ) release/retention values; shown in the order (twist/forward lean)
x z
or (T/H) to denote toe piece (T) and heel piece (H) of this ski binding. Other conventions may be used to record different skier
types for twist and forward lean when required by the documentation
3.1.15 system—group of interacting components, usually comprised of a ski, binding, and boot.
3.1.16 test result—middle quantitative value of three repetitions of the same test.
3.1.17 troubleshooting—binding manufacturer’s recommendations or procedures of analyzing system failure.
3.1.18 visual indicator setting—setting displayed on the binding’s release/retention adjustment scale.
F1063 − 09 (2014)
4. Significance and Use
4.1 The purpose of this practice is to aid in providing the end user with an appropriately functioning system with appropriate
release torque setting(s).
4.2 The definitions and tolerances defined in this practice do not necessarily apply to procedures incorporating an inspection
interval or schedule, in which such procedures are specified by the binding manufacturer. This practice is not intended to be a
method for evaluating equipment design.
NOTE 2—Refer to Practice F1064 for definitions and tolerances pertaining to the evaluation of equipment once in use.
5. Procedure
5.1 Inspections— Two types of inspection procedures are described in this practice: (1) procedures to check the system for
appropriate function, and (2) procedures to check the system for appropriate release torque calibration (see Appendix X4). In all
procedures requiring a measured release value, the system testing device should meet Specification F1061 and be checked by the
method described in Annex A1.
5.1.1 Functional Inspections—These inspections shall include inspection of all boot-to-binding adjustments and clearances,
appropriate elastic travel (see 6.1), symmetry of torsional release, boot-binding compatibility (see 6.3), and other inspections
recommended by the equipment manufacturers (see Appendix X4).
5.1.2 Release Torque Value Inspections—The release torque value of the system, as assembled for use, shall be inspected with
the use of a system testing device (see Annex A1). A description of release torque value inspections and tolerances is included in
this practice (see Section 7 and Appendix X4).
5.2 Reference Torque Value Selection—Reference torque values for release torque may be selected using Annex A2 or tables
supplied by the binding manufacturer or system testing device manufacturer, which are in accordance with Practice F939.
Reference torque values above the upper limit specified by Practice F939 or above the binding manufacturer’s recommendations
should not be used. Values below the lower limit or below the binding manufacturer’s recommendations may be used unless the
binding manufacturer recommends against such procedures.
6. Functional Inspections
6.1 Test for Elastic Travel and Recentering—The system should be exercised to ensure the boot or plate can travel a distance
specified by the manufacturer and return freely to within 2 mm of the original position. This test should be made in all directions
of release and in a manner specified by the binding manufacturer. If no displacement is specified, then displacement of 5 mm
measured at the toe or heel (as appropriate) should be used and the test should be performed by any device or method capable of
displacing the boot or plate the necessary distance.
6.2 Test for Symmetrical Release—The system should be tested for twist release in both the clockwise and counterclockwise
directions with a device of the type specified in Annex A1.
6.3 Test of Boot/Binding Compatibility—Used as a diagnostic inspection for determining the compatibility of a boot and binding
used in a system. The boot should be of a shape, composition, construction, and condition acceptable to the binding manufacturer.
Functional inspections specified by the binding manufacturer to determine the compatibility of the boot and binding should be
performed. If no functional inspection procedures are specified by the binding manufacturer, a functional inspection should be
performed to determine the difference in test results between a clean, dry boot/binding system and the same system after lubrication
of all boot/binding interfaces. This functional inspection should be made in all directions of release specified by the binding
manufacturer, using a device of the type specified in Annex A1 (see 5.1).
6.3.1 The lubricant used for this test should be applied in a thin film and may be of any type specified by the boot or binding
manufacturer. If unspecified, a liquid detergent or soap or a lubricant of a type normally accepted in the maintenance of the binding,
such as a grease or silicone spray lubricant, may be used. If a spray lubricant is used, ensure that overspray does not contaminate
other systems.
6.3.2 If there is reason to believe a boot/binding interface or system has been contaminated, a common dishwashing soap or
detergent solution may be used to help clean the system, provided all surfaces are flushed with clean water afterwards.
7. Release Torque Inspections
7.1 Tests for Twist Release—A test should be performed to determine the torque required to release the binding in twist (Mz)
about an axis perpendicular to the plane of the boot sole. This test should be performed using a device of the type described in
Annex A1 and should be performed in both clockwise and counterclockwise directions of release. Test results should be within
the appropriate inspection tolerance. Units that exceed the inspection tolerance should be readjusted to test within the inspection
tolerance. When an initial visual indicator setting is used (see Appendix X4), readjustment should not be attempted if test result(s)
exceed the limit for readjustment without first taking corrective action as specified by the binding manufacturer.
7.2 Tests of Forward Lean Release—A test should be made to determine the torque requi
...

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ASTM F3237-23(Terminology)
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2.1 A standard terminology is needed to allow freestyle terrain park designers, builders, ski resorts, accident investigators, and scientists to use a common language in describing freestyle terrain park jumps and related parameters for a jumper using the feature.  
2.2 Angles are taken with respect to horizontal, with positive values indicating an increase in elevation and negative values indicating a decrease in elevation along the path of travel for a terrain park participant using the jump.
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1.1 This terminology covers the terms required to describe a cross sectional profile of a snow sport freestyle terrain park jump and related parameters for a jumper using the feature and does not cover any other terrain park feature.  
1.2 The terms are presented in a sequence considered to be the most logical with definitions presented later calling upon those presented earlier. This terminology standard does not require the use of any specific units; Imperial units (feet, seconds, degrees) or metric units (meters, seconds, degrees) can be used.  
1.3 The depictions used in this standard are intended to aid in understanding the definitions and are not intended to depict or describe how any particular terrain park jump or its component features should be designed, built or maintained. Some terrain park jumps may use different configurations or combinations of features, or they may not incorporate all of the features depicted or defined in this standard.  
1.4 This standard does not purport to address all of the safety concerns, if any, associated with the use of snow sport terrain park features. Snow sports and the use of terrain park features involve inherent risks, and a terrain park feature that complies with all applicable standards or guidelines cannot eliminate all risks associated with terrain park features. Therefore, it is to be clearly understood that compliance with these applicable standards or guidelines in no way guarantees that injury can be prevented.  
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ASTM F3557-22(Practice)
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5.1 This practice serves the purpose of measuring snow sports freestyle terrain jump features and may be used as a method for recreating jumps in the field or two-dimensional jump profiles of existing jumps.
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1.1 This practice is intended to standardize field measurements of existing snow sport freestyle terrain park jumps. It does not cover other types of terrain park features or asymmetric jumps.  
1.2 This practice is for measuring jumps that are used in public access snow sport freestyle terrain parks discussed in Terminology F3237.  
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Standard Practice for Sampling and Inspection of Complete and Incomplete Alpine Ski/Binding/Boot Systems in Rental Applications

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ASTM F1722-15(2021)(Test Method)
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4.1 This test method provides a means for determining the mass and moment of inertia of adult Alpine skis. It is not intended to evaluate data with regard to the quality of the ski.
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ASTM F1061-08(2020)(Specification)
Standard Specification for Ski Binding Test Devices

ABSTRACT
This specification covers requirements for devices used to determine the release moments of ski equipment in retail sales and rental facilities; it is applicable to the manufacture, repair, and calibration of such devices. Classification: Type I-a device capable of indicating both positive and negative release moments (Mz); Type IA-a device type I with specified limits of linear displacement or angular deflection; Type IB-a type I device limited in use to a specified binding or group of bindings; Type II-a device capable of indicating both positive and negative release moments (My); Type IIA-a type II device with specified limits of linear displacement or angular deflection; Type IIB-a type II device limited in use to a specified binding or group of bindings; and Type III-a device other than type I or type II with specified capability. The test device shall be of a design such that when tested will meet the requirements prescribed. If the device is designed to indicate force, and a distance measurement is required to calculate the moment, the magnitude of the smallest increment of the distance measurement shall not be greater than 5 % of the shortest measurement anticipated.
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ASTM F498-19(Test Method)
Standard Test Method for Center Spring Constant and Spring Constant Balance of Alpine Skis

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This test method covers the determination of center spring constant, forebody spring constant, and afterbody spring constant of Alpine skis. In addition, it covers a method for determination of the spring constant balance. The apparatuses shall be center spring constant equipment and forebody and afterbody spring constant equipment.
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