62 nd Annual Missouri Traffic and Safety Conference. M.A.S.H.: The New Safety Hardware Crash Testing Criteria

Similar documents

Capital Costs for Roadside/Median Barrier Systems

Table of Contents (Continued) Warrants (1) Median Barrier Types (1)

How To Use A Tracc Crash Cushion

Session 3: Guardrail Design and Sitespecific. Considerations

Safety Performance of the Median Cable Barrier. Deerfoot Trail, Calgary, Alberta UPDATE

VI. VEHICLE IMPACT WITH CURB-AND-GUARDRAIL SYSTEMS. high-speed roadways, they are often required because of restricted right-of-way, drainage

NCHRP. Web-Only Document 157: Volume I: Evaluation of Existing Roadside Safety Hardware Using Updated Criteria Technical Report

Washington State Cable Median Barrier In-Service Study

CHAPTER 14: GUARDRAIL and BARRIERS

CABLE MEDIAN BARRIER

HIGH TENSION CABLE BARRIER

DESIGN OF A TL-4 MEDIAN CABLE BARRIER FOR DEERFOOT TRAIL, CALGARY

MICHIGAN DESIGN MANUAL ROAD DESIGN CHAPTER 7 INDEX APPURTENANCES

Superseded. The average time for a normal repair after a crash is approximately 1.5 to 2 hours for a 3- person crew.

SKT-SP Tangent Terminal

Midwest Guardrail System for Standard and Special Applications

NUCOR STEEL MARION, INC. HIGHWAY PRODUCTS Saving Money. Saving Lives.

FALSE CLAIMS ACT COMPLAINT QUI TAM

X-Tension TM Guardrail End Terminal

Stephen Gaj. Martin Kidner State Planning Engineer Wyoming DOT

GUARDRAIL INNOVATION FLOWS FROM HERE

Safety in Road-Construction areas. 360 Conference bro

Working Paper. Extended Validation of the Finite Element Model for the 2010 Toyota Yaris Passenger Sedan

HIGHWAY PRODUCTS. Revised January 2008 BUILDING TOMORROW S HIGHWAY SAFETY SOLUTIONS TODAY

Development of Guidelines for Anchor Design for High-Tension Cable Guardrails

Sponsored by Roadside Safety Research Program Pooled Fund Study

Virginia Department of Transportation Guardrail System Upgrade Guidance

VDOT 2001 Road and Bridge Standards Section Guardrail, Fences, and Markers

Maryland Department of Transportation. Guidelines for Traffic Barrier. Placement and End Treatment. Design

PRECAST CONCRETE BARRIER CRASH TESTING

HEART Product Description Assembly Manual

Chapter Forty-seven. RURAL TWO-LANE/MULTILANE STATE HIGHWAYS (New Construction/Reconstruction) BUREAU OF DESIGN AND ENVIRONMENT MANUAL

Executive Summary. In December of 2001, the Region of Durham retained Synectics Transportation Consultants Inc. (Synectics) to prepare a report to:

Research Digest. Table of Contents. In this Issue: TxDOT Reports

11 Guardrail. W-Beam Guardrail Pre-Installation Inspection During Installation Basis for Use. Modified Guardrail. End Treatments and Transitions

INFORMATION HANDOUT MATERIALS INFORMATION FOR CONTRACT NO: 05-0L7014 PROJECT ID: ALTERNATIVE CRASH CUSHION SYSTEM

How To Improve Safety

guidance on barrier selection, guidance on barrier design, guidance on barrier placement, and guidance on general system considerations.

INITIAL SITE INSPECTION OF MOTORCYCLE COLLISIONS WITH ROADSIDE OBJECTS IN NEW JERSEY

2010 A Cooperative Research Project sponsored by the U.S. Department of Transportation Research and Innovative Technology Administration

ONGOING SAFETY PROGRAMS

NATIONAL COOPERATIVE HIGHWAY RESEARCH PROGRAM NCHRP REPORT 537. Recommended Guidelines for Curb and Curb Barrier Installations

Effect of Barrier Type on Injury Severity in Motorcycle-to-Barrier Collisions in North Carolina, Texas, and New Jersey

Summary of ET Plus Guardrail End Treatment Inspections

Texas Freight Advisory Committee A PRIMER ON PUBLIC SECTOR FREIGHT PERFORMANCE MEASURES

Alberta Guidelines for Upgrading Bridgerails and Approach Guardrail Transitions

Bicycle Railing Heights (Everything you wanted to know about design guidelines but were afraid to ask)

NATIONAL COOPERATIVE HIGHWAY RESEARCH PROGRAM NCHRP REPORT 663. Design of Roadside Barrier Systems Placed on MSE Retaining Walls

APPROVED PRODUCTS LIST FOR TRAFFIC CONTROL DEVICES IN WORK ZONES

Limits of Permissible Damage in Strong-Post W-Beam Guardrail. Carolyn Elizabeth Hampton. Master of Science In Biomedical Engineering

TRAFFIC ENGINEERING DIVISION MEMORANDUM

NCHRP Report 350. Recommended Procedures for the Safety Performance Evaluation of Highway Features. National Cooperative Highway Research Program

Safe & Sound Bridge Terminology

Daniello, Cristino, and Gabler 1 RELATIONSHIP BETWEEN RIDER TRAJECTORY AND INJURY OUTCOME IN MOTORCYCLE-TO-BARRIER CRASHES

ENERGY ABSORBING MATERIALS AND STRUCTURES IN THE FUTURE DESIGN OF THE ROAD SAFETY EQUIPMENT

FAAC International, Inc.

Types and Extent of Damage to Passenger Vehicles in Low-Speed Front and Rear Crashes. Anne T. McCartt Laurie A. Hellinga

Unit Price Averages Reports

REACT 350 II. Product Description Assembly Manual

Analysis of the Relationship Between Vehicle Weight/Size and Safety, and Implications for Federal Fuel Economy Regulation

Preliminary Investigation Caltrans Division of Research and Innovation

KENTUCKY TRANSPORTATION CABINET POLICY FOR FEDERALLY FUNDED PAVEMENT REHABILITATION AND PREVENTATIVE MAINTENANCE PROJECTS

Scope. General. General. Accident Investigation. Public Hazard Control 10/15/2012

Evaluation of High-Tension Cable Barriers in Wisconsin Final Report FEP-05-01

Features. Armco Guardrail. Type D1 reflector. Type V reflector. Guardrail on posts

Evaluation of Brifen s Wire Rope Safety Fence. By Dave Ward, PE. Indiana Department Of Transportation. S b 2006

A Comparative Study of Speed Humps, Speed Slots and Speed Cushions

Highlights and Changes in NHTSA's Real-World Data Collection for Rollover Crashes

GUARDRAIL CHECKLIST. (most of this information can be found in the Design Scene)

Malcolm H. Ray, P.E., Ph.D. 186 Staples Hill Road Canton, Maine April 26, 2007

The Increasing Role of SUVs in Crash Involvement in Germany

Dams Sector. Active and Passive Vehicle Barriers Guide

Nu-Guard 31 Steel Guardrail System

Best Practices for Removing Vehicles from Cable Barrier for the NC Guardrail Committee

THREE-CABLE MEDIAN BARRIER FINAL REPORT #OR-RD-99-03

CURRICULUM VITAE. DEAN L. SICKING, Ph.D., P.E. Computational Mechanics Race Track and Roadside Safety

Motorcycle Accident Investigation

BARRACUDA Barricade - Plans, Installations and Maintenance

The Relative Safety of Large and Small Passenger Vehicles

Passenger Vehicle Occupant Fatality Rates by Type and Size of Vehicle

WATCH THIS ICON: View this short clip from the Insurance Institute for Highway Safety DVD called Understanding Car Crashes It s basic physics.

Transportation Asset Management for Local Agencies APPENDIX B USEFUL REFERENCES B-1

Session 5D: Benefits of Live Load Testing and Finite Element Modeling in Rating Bridges

V E H I C L E C R A S H T E S T S O F T H E T Y P E 8 0 B R I D G E R A I L

100 Design Controls and Exceptions

Maintenance Management and Asset Management

TECHNICAL MEMORANDUM SUMMARY REPORT:

The unit costs are based on the trend line of the 3 low bids for the average quantity.

PREDICTING THROW DISTANCE VARIATIONS IN BICYCLE CRASHES

Structural Performance of Highway Bridges under Given Foundation Settlements

Performance Measures for RIDOT s Traffic Management Center

Safety Risk Analysis and Proposing Risk Mitigation Strategies for Operations and Maintenance Activities in Highways: A Qualitative Method

High Tension Cable Median Barrier: A Scanning Tour Report

1. When we deform a material and it recovers its original shape, we say that it is a) Rigid

W-BEAM GUARDRAIL REPAIR. A Guide for Highway and Street Maintenance Personnel

ECO-DRIVING: STRATEGIC, TACTICAL, AND OPERATIONAL DECISIONS OF THE DRIVER THAT IMPROVE VEHICLE FUEL ECONOMY

PART TWO GEOSYNTHETIC SOIL REINFORCEMENT. Martin Street Improvements, Fredonia, Wisconsin; Keystone Compac Hewnstone

How To Manage Transportation Asset Management

Transcription:

62 nd Annual Missouri Traffic and Safety Conference M.A.S.H.: The New Safety Hardware Crash Testing Criteria Richard Albin Federal Highway Administration Resource Center Safety and Design Team May, 2011

Crash Testing - History Crash Testing has been used as a tool for evaluating the safety performance of roadside features for many years.

History of Testing Procedures Procedures for how to perform crash tests have evolved Highway Research Correlation Services Circular 482 (1962) NCHRP Report 153 (1974) NCHRP Report 230 (1980) NCHRP Report 350 (1993)

NCHRP 350 NCHRP Report 350, was formally adopted by FHWA for the NHS This was the first time that FHWA adopted these procedures An implementation date was established in 1998 for new installations on the NHS.

Practical Worse Case Philosophy

Practical Worse Case Philosophy

Test Matrix NCHRP Report 350 created 6 Test Levels Levels 1-3 based on speed TL1 50 km/h (31 mph) TL2 70 km/h (43 mph) TL3 100 km/h (62 mph) Levels 4-6 add large trucks

Manual for Assessing Safety Hardware (MASH) Update of the evaluation procedures prepared Published as AASHTO document in October, 2009 Implementation plan also developed

Manual for Assessing Safety Hardware (MASH) Primary Focus of Update Update test vehicles & impact conditions Eliminated ambiguities Removed inconsistencies Consolidate test matrices Tighten reporting procedures

Most Significant Changes Small car and Pickup mass increased TL-4, single unit truck test revised Impact angle for small car increased to 25 o Impact angle for terminals and crash cushions raised to 25 o

Small Car The 820C vehicle specified in Report 350 has not been manufactured since 2000. MASH vehicle is a 1100C (2420 lb) 2001-2003 models curb weight - 2,765 lb

Small Car Angle Increase impact angle from 20 degrees to 25 degrees to be consistent with Pickup test Tested with new impact vehicle and angle into a rigid NJ shaped concrete barrier

Pickup Truck The 2000P Pickup specified in Report 350 has not been manufactured since 2001 Quadcab reflects the 90th percentile vehicle MASH vehicle is a 2270P Quadcab Pickup (5000 lbs) Quadcab Pickup has a higher center of gravity and more closely represents the large SUV s

Pickup Truck How does w-beam guardrail (27-5/8 height, steel posts) perform with large vehicle?

New Test Matrices added Variable Message Sign / Arrow Board test matrix added. Longitudinal Channelizing Devices category added.

Test Matrices revised Pickup Truck Test was added for support structures and work zone traffic control devices

Test Installations Installation length more definitive (cable barriers 600 ft minimum). Specified the critical impact point for cable barrier testing to be at a post for the pickup truck test

Test Installations Barrier height (max) small car & (min) pickup test. Addition of performance based specs for soil.

Evaluation Criteria Windshield damage criteria to be more objective. Occupant compartment deformation criteria more objective and based on NHTSA data Maximum roll angle set to 75 degrees.

Impact Severity, kj Single Unit Truck Test (TL-4) NCHRP Report 350, the impact 700 severity of the SU 600 test (TL-4) is less 500 than the impact 400 severity of the Pickup test (TL-3) 300 Intent was to 200 make the TL-4 100 test more meaningful. 0 MASH NCHRP 350 1 2 3 4 5 Test Level

Single Unit Truck Test (TL-4) Mass increased from 8,000 kg (18000 lb) to 10,000 (22,000 lb) Speed increased from 80 km/h (50 mph) to 90 km/h (56 mph) 32 New Jersey shaped concrete barrier

Single Unit Truck Test (TL-4) 36 Single Slope concrete barrier

What did not change? Impact speed for high speed test retained at 100 km/h (62 mph) No Changes to TL-5 and TL-6 Angle for strength test Six test levels

Tests Conducted with New Criteria W-Beam Guardrail Steel Post (27-5/8 height) Pickup (passed) W-Beam Guardrail Wood Post (27 height) Pickup (failed)

Tests Conducted with New Criteria Box-Beam Guardrail Pickup (passed) Weak Post W-Beam Pickup (passed) Midwest Guardrail (31 height) Pickup (passed) Small Car (passed)

Tests Conducted with New Criteria W-Beam Guardrail Median Barrier Pickup (failed) Small Car (passed) Thrie Beam Guardrail Barrier Pickup (failed) Guardrail Transition Pickup (passed) Guardrail Terminal (SKT) CIP test with small car (passed)

Tests Conducted with New Criteria Rigid 32 NJ shape concrete barrier Small car (passed) Single Unit Truck (fail as TL-4) Precast Concrete Barrier (Iowa F Shape) Pickup (passed)

Tests Conducted with New Criteria U Channel sign support Pickup (passed) Perforated square tube sign suppost Pickup (failed)

MASH Implementation Plan AASHTO Technical Committee on Roadside Safety (TCRS) is responsible for developing and maintaining MASH. FHWA shall review and accept highway safety hardware under MASH.

MASH Implementation Plan All hardware accepted under Report 350 may remain in place and may continue to be manufactured and installed. Hardware accepted using Report 350 is not required to be retested using the MASH criteria

MASH Implementation Plan However If hardware that met Report 350 is tested and fails using MASH AASHTO & FHWA will jointly review results and determine a course of action.

MASH Implementation Plan Upon adoption new hardware not previously evaluated shall utilize the MASH criteria Hardware under development at time of AASHTO adoption can be completed under Report 350 FHWA will not consider applications for acceptance under Report 350 after January 1, 2011.

MASH Implementation Plan Hardware installed on new or reconstruction projects shall meet Report 350 or MASH Agencies are encouraged to upgrade hardware that does not meet Report 350 or MASH when: roadway is reconstructed 3R projects System damaged repair beyond

MASH Implementation Plan Hardware not meeting either Report 350 or MASH and for which there are no suitable alternatives can remain in place and can continue to be installed.

Contact Information FHWA Office of Safety Nick Artimovich Phone:202-366-1331 Email: nick.artimovich@dot.gov FHWA Office of Safety Will Longstreet Phone: 202-366-0087 Email: will.longstreet@dot.gov FHWA Resource Center Dick Albin Phone: 303-550-8804 Email: dick.albin@dot.gov FHWA Roadside Hardware Link http://safety.fhwa.dot.gov/roadway_dept/policy_guide/road_hardware/

A narrated presentation can be viewed by following this link: https://admin.na3.acrobat.com/_a55098539/mashfinal/