Using Artificial Intelligence (AI) on ASTM standards and related intellectual property is prohibited. Violations will result in suspension of access.
  • Home
  • FAQ
  • Home
  • FAQ
  1. Home
  2. News
    3. /
  3. Press Releases
    4. /
  4. ASTM Committee on Tires …

ASTM Committee on Tires Approves Rim Slip Performance Test Standard

Loading...
Loading...
ASTM Footer Logo
About ASTM
GovernanceGlobal CooperationCorporate CitizenshipHistoryRegional Offices and WebsitesDiversity, Equity, Inclusion & BelongingCulture & Careers
Membership & Participation
MembershipTechnical CommitteesMember ToolsMeetings, Symposia & WorkshopsAcademic OutreachEmerging ProfessionalsPublish with ASTMConsumer Participation
Standards & Solutions
Standards & PublicationsEnterprise SolutionsASTM Compass®Digital LibraryMarket Insights & InnovationLaboratory ServicesTraining CoursesCertificationCement & Concrete Reference Lab
News
Standardization NewsPress ReleasesPodcastsEspañolEditorial Calendar and Media Kit
Help
Contact ASTMLocationsFAQ
Policies
Privacy PolicyLogo PolicyIP PolicyReturn PolicyCopyright & Permissions
twitter

Copyright © 1996 - 2025 ASTM. All Rights Reserved. ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA, 19428-2959 USA

Related Stories

Two Standards for Composting

Sep 02, 2025

Exoskeleton Standards for Firefighters Enter the Breach

Aug 29, 2025

Standards and the Opioid Epidemic

Aug 29, 2025

Feb 18, 2010

A rim slip performance test for tires that has been done at the Nevada Automotive Test Center for more than 20 years has now become an ASTM International standard. ASTM F2803, Test Method for Evaluating Rim Slip Performance of Tires and Wheels, was developed by Subcommittee F09.20 on Vehicular Testing, part of ASTM International Committee F09 on Tires.

Rim slip occurs when tire and wheel combinations are subjected to high torque inputs, with excessive rim slip happening when tire and wheel interface is less than optimal. Reasons for rim slip include: tire inside diameter variance; rim seat not up to specifications; rim polished or painted; and use of improper lubricant during mounting of tire.

According to Jason Whiteley, automotive/tire test engineer, Nevada Automotive Test Center, and an F09 member, rim slip can cause improper bead seating, bead damage or additional polishing of the inside rim flange, any of which can lead to air loss over time, rapid air loss or tire blowout.

“Rim slip can increase as a result of low inflation pressure, such as during operations on mud, sand or snow when a higher amount of contact area with the surface is preferred,” says Whiteley. “Rim slip may also increase as a result of high torque demand such as during hill climbing or high performance driving.”

Whiteley says that ASTM F2803 will be helpful to tire and wheel manufacturers to determine what effect different tire designs, wheel designs or inflation pressures have on the amount of rim slip experienced.

To purchase ASTM standards, visit www.astm.org and search by the standard designation number, or contact ASTM Customer Relations (phone: 610-832-9585; https://www.astm.org/contact/).  ASTM International welcomes and encourages participation in the development of its standards. For more information on becoming an ASTM member, visit www.astm.org/JOIN.

ASTM Committee F09 Next Meeting: April 21-22, April committee week, St. Louis, Mo.
Technical Contact: Jason Whiteley, Nevada Automotive Test Center, Silver Springs, Nev., Phone: 775-629-2000, jwhiteley@natc-ht.com
ASTM Staff Contact: Rick Lake, Phone: 610-832-9689; rlake@astm.org
ASTM PR Contact: Barbara Schindler, Phone: 610-832-9603; bschindl@astm.org

Release #8494/Feb2010

COMMITTEE: 
F09
CATEGORIES: standards technical committee news